Jatropha Genome Database
- JcCB0575821.10
BLASTP 2.2.24 [Aug-08-2010]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= JcCB0575821.10 + phase: 0 /partial
(185 letters)
Database: trembl
11,636,205 sequences; 3,746,823,912 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
B9RZK5_RICCO (tr|B9RZK5) Sensor histidine kinase, putative OS=Ri... 358 1e-97
D7SY70_VITVI (tr|D7SY70) Whole genome shotgun sequence of line P... 343 6e-93
D7GN43_POPCA (tr|D7GN43) Putative B-type response regulator 12 O... 337 5e-91
B9MZZ8_POPTR (tr|B9MZZ8) Type-b response regulator OS=Populus tr... 332 2e-89
B9HX92_POPTR (tr|B9HX92) Type-b response regulator OS=Populus tr... 322 1e-86
D7GN44_POPCA (tr|D7GN44) Putative B-type response regulator 13 O... 306 8e-82
Q71BZ1_CATRO (tr|Q71BZ1) Type-B response regulator OS=Catharanth... 305 1e-81
Q680A8_ARATH (tr|Q680A8) ARR2 OS=Arabidopsis thaliana GN=ARR2 PE... 265 1e-69
C3PTB4_ARATH (tr|C3PTB4) ARR2 OS=Arabidopsis thaliana GN=ARR2 PE... 264 3e-69
D7MA81_ARALY (tr|D7MA81) Putative uncharacterized protein OS=Ara... 264 3e-69
B9DFS4_ARATH (tr|B9DFS4) AT3G16857 protein OS=Arabidopsis thalia... 263 6e-69
Q15FC8_STRAF (tr|Q15FC8) SRR384 OS=Striga asiatica PE=2 SV=1 263 9e-69
Q67YH9_ARATH (tr|Q67YH9) Putative ARR1 protein OS=Arabidopsis th... 262 9e-69
Q682I9_ARATH (tr|Q682I9) Putative uncharacterized protein At4g16... 262 1e-68
D7L683_ARALY (tr|D7L683) Putative uncharacterized protein OS=Ara... 260 4e-68
B9T4M7_RICCO (tr|B9T4M7) Two-component sensor histidine kinase b... 249 7e-65
D7T8K3_VITVI (tr|D7T8K3) Whole genome shotgun sequence of line P... 248 3e-64
C5WSM4_SORBI (tr|C5WSM4) Putative uncharacterized protein Sb01g0... 241 2e-62
Q9AV93_MAIZE (tr|Q9AV93) Response regulator 8 OS=Zea mays GN=ZmR... 237 5e-61
Q8H7S7_ORYSJ (tr|Q8H7S7) B-type response regulator OS=Oryza sati... 236 9e-61
A2XE31_ORYSI (tr|A2XE31) Putative uncharacterized protein OS=Ory... 236 9e-61
Q948L2_MAIZE (tr|Q948L2) Response regulator 10 OS=Zea mays GN=Zm... 235 1e-60
D7GN45_POPCA (tr|D7GN45) Putative B-type response regulator 15 O... 235 2e-60
C0HE02_MAIZE (tr|C0HE02) Putative uncharacterized protein OS=Zea... 234 3e-60
B9HJH2_POPTR (tr|B9HJH2) Type-b response regulator (Fragment) OS... 232 1e-59
B9HVU5_POPTR (tr|B9HVU5) Type-b response regulator OS=Populus tr... 230 5e-59
D7GN46_POPCA (tr|D7GN46) Putative B-type response regulator 16 O... 230 5e-59
B9SAX2_RICCO (tr|B9SAX2) Two-component sensor histidine kinase b... 223 1e-56
B9RNX8_RICCO (tr|B9RNX8) Two-component system sensor histidine k... 214 4e-54
D7TAK2_VITVI (tr|D7TAK2) Whole genome shotgun sequence of line P... 210 4e-53
A9TXP3_PHYPA (tr|A9TXP3) Predicted protein (Fragment) OS=Physcom... 209 1e-52
D7U2E5_VITVI (tr|D7U2E5) Whole genome shotgun sequence of line P... 208 3e-52
A9RHS9_PHYPA (tr|A9RHS9) Predicted protein OS=Physcomitrella pat... 208 3e-52
D7SSN8_VITVI (tr|D7SSN8) Whole genome shotgun sequence of line P... 208 3e-52
B9RMP7_RICCO (tr|B9RMP7) Two-component sensor histidine kinase b... 207 3e-52
D7GN50_POPCA (tr|D7GN50) Putative B-type response regulator 14 O... 207 6e-52
B9SBZ1_RICCO (tr|B9SBZ1) Two-component system sensor histidine k... 206 7e-52
D7SHB4_VITVI (tr|D7SHB4) Whole genome shotgun sequence of line P... 206 1e-51
D7GN48_POPCA (tr|D7GN48) Putative B-type response regulator 21 O... 206 1e-51
B9HTE3_POPTR (tr|B9HTE3) Type-b response regulator (Fragment) OS... 204 2e-51
D7KVN1_ARALY (tr|D7KVN1) Putative uncharacterized protein OS=Ara... 203 8e-51
C5XWW5_SORBI (tr|C5XWW5) Putative uncharacterized protein Sb04g0... 203 8e-51
C5Z5H6_SORBI (tr|C5Z5H6) Putative uncharacterized protein Sb10g0... 201 2e-50
C6T9N0_SOYBN (tr|C6T9N0) Putative uncharacterized protein (Fragm... 201 4e-50
A1A6A7_ORYSJ (tr|A1A6A7) Putative uncharacterized protein OS=Ory... 201 4e-50
Q5N6V8_ORYSJ (tr|Q5N6V8) Putative response regulator 11 OS=Oryza... 201 4e-50
B8A7T0_ORYSI (tr|B8A7T0) Putative uncharacterized protein OS=Ory... 200 4e-50
Q0WRT0_ARATH (tr|Q0WRT0) Response regulator 11 OS=Arabidopsis th... 200 5e-50
A5AD81_VITVI (tr|A5AD81) Putative uncharacterized protein OS=Vit... 199 9e-50
C5XUH1_SORBI (tr|C5XUH1) Putative uncharacterized protein Sb04g0... 199 1e-49
C5XFH1_SORBI (tr|C5XFH1) Putative uncharacterized protein Sb03g0... 198 2e-49
Q15FC9_STRAF (tr|Q15FC9) SRR391 OS=Striga asiatica PE=2 SV=1 198 2e-49
B9HAQ8_POPTR (tr|B9HAQ8) Predicted protein (Fragment) OS=Populus... 198 3e-49
D7LK57_ARALY (tr|D7LK57) Putative uncharacterized protein OS=Ara... 197 5e-49
B6UC09_MAIZE (tr|B6UC09) Two-component response regulator ARR11 ... 197 6e-49
Q6K8X6_ORYSJ (tr|Q6K8X6) Os02g0796500 protein OS=Oryza sativa su... 196 1e-48
B8AEH1_ORYSI (tr|B8AEH1) Putative uncharacterized protein OS=Ory... 196 1e-48
B9IMH1_POPTR (tr|B9IMH1) Type-b response regulator OS=Populus tr... 196 1e-48
Q0WRZ4_ARATH (tr|Q0WRZ4) Predicted protein OS=Arabidopsis thalia... 195 2e-48
Q94LW1_MAIZE (tr|Q94LW1) Response regulator 9 OS=Zea mays GN=ZmR... 195 2e-48
C1FH07_9CHLO (tr|C1FH07) G2-like myb-transcription factor with a... 195 2e-48
D7MAT8_ARALY (tr|D7MAT8) Predicted protein OS=Arabidopsis lyrata... 194 2e-48
D7GN47_POPCA (tr|D7GN47) Putative B-type response regulator 19 O... 194 3e-48
Q5SML5_ORYSJ (tr|Q5SML5) Os06g0183100 protein OS=Oryza sativa su... 194 5e-48
B8B3I4_ORYSI (tr|B8B3I4) Putative uncharacterized protein OS=Ory... 194 5e-48
B9HAU8_POPTR (tr|B9HAU8) Type-b response regulator OS=Populus tr... 193 6e-48
Q6H805_ORYSJ (tr|Q6H805) Os02g0182100 protein OS=Oryza sativa su... 193 6e-48
A2X1N2_ORYSI (tr|A2X1N2) Putative uncharacterized protein OS=Ory... 193 6e-48
A5BGD4_VITVI (tr|A5BGD4) Putative uncharacterized protein OS=Vit... 192 9e-48
D7SUY5_VITVI (tr|D7SUY5) Whole genome shotgun sequence of line P... 192 1e-47
A9RVL9_PHYPA (tr|A9RVL9) Predicted protein (Fragment) OS=Physcom... 190 7e-47
D7GN49_POPCA (tr|D7GN49) Putative B-type response regulator 22 O... 189 1e-46
B9IL37_POPTR (tr|B9IL37) Type-b response regulator OS=Populus tr... 189 2e-46
D7LPV7_ARALY (tr|D7LPV7) Putative uncharacterized protein OS=Ara... 188 2e-46
C1N4R3_MICPS (tr|C1N4R3) G2-like myb-transcription factor with a... 187 3e-46
A9S224_PHYPA (tr|A9S224) Predicted protein (Fragment) OS=Physcom... 186 9e-46
B9HLB7_POPTR (tr|B9HLB7) Type-b response regulator OS=Populus tr... 182 2e-44
A4RR47_OSTLU (tr|A4RR47) Predicted protein (Fragment) OS=Ostreoc... 181 3e-44
A8I580_CHLRE (tr|A8I580) Predicted protein (Fragment) OS=Chlamyd... 181 4e-44
C5Y5J4_SORBI (tr|C5Y5J4) Putative uncharacterized protein Sb05g0... 178 2e-43
C5YTJ4_SORBI (tr|C5YTJ4) Putative uncharacterized protein Sb08g0... 176 1e-42
A5BHX8_VITVI (tr|A5BHX8) Putative uncharacterized protein OS=Vit... 172 1e-41
Q0DAK5_ORYSJ (tr|Q0DAK5) Os06g0647200 protein OS=Oryza sativa su... 172 1e-41
Q67W50_ORYSJ (tr|Q67W50) Putative response regulator 9 OS=Oryza ... 172 2e-41
A2YFL8_ORYSI (tr|A2YFL8) Putative uncharacterized protein OS=Ory... 172 2e-41
A1A6A6_ORYSJ (tr|A1A6A6) Response regulator OS=Oryza sativa subs... 172 2e-41
D7SQ85_VITVI (tr|D7SQ85) Whole genome shotgun sequence of line P... 171 3e-41
A3BE31_ORYSJ (tr|A3BE31) Putative uncharacterized protein OS=Ory... 171 3e-41
D7MPK5_ARALY (tr|D7MPK5) Predicted protein OS=Arabidopsis lyrata... 166 1e-39
A5ASY3_VITVI (tr|A5ASY3) Putative uncharacterized protein OS=Vit... 166 1e-39
B9IM11_POPTR (tr|B9IM11) Type-b response regulator OS=Populus tr... 162 2e-38
B9RMP9_RICCO (tr|B9RMP9) Two-component sensor histidine kinase b... 162 2e-38
Q1W4D7_STRAF (tr|Q1W4D7) SRR392 OS=Striga asiatica PE=2 SV=1 158 2e-37
D7SHB3_VITVI (tr|D7SHB3) Whole genome shotgun sequence of line P... 152 1e-35
A2Y4D9_ORYSI (tr|A2Y4D9) Putative uncharacterized protein OS=Ory... 147 6e-34
C5Z636_SORBI (tr|C5Z636) Putative uncharacterized protein Sb10g0... 144 6e-33
B9RMP8_RICCO (tr|B9RMP8) Two-component response regulator ARR14,... 142 2e-32
Q6AU68_ORYSJ (tr|Q6AU68) Putative uncharacterized protein OS=Ory... 138 3e-31
D7KE14_ARALY (tr|D7KE14) Putative uncharacterized protein OS=Ara... 125 1e-27
A5AQH6_VITVI (tr|A5AQH6) Putative uncharacterized protein OS=Vit... 125 2e-27
Q15FC6_STRAF (tr|Q15FC6) SRR380 OS=Striga asiatica PE=2 SV=1 124 6e-27
D7LT85_ARALY (tr|D7LT85) Putative uncharacterized protein OS=Ara... 122 1e-26
Q7Y0W2_ORYGL (tr|Q7Y0W2) B-type response regulator OS=Oryza glab... 121 4e-26
B9IC77_POPTR (tr|B9IC77) Pseudo response regulator OS=Populus tr... 116 8e-25
C3UZN6_VITVI (tr|C3UZN6) Cytokinin B-type response regulator 5 (... 116 9e-25
A5BC46_VITVI (tr|A5BC46) Putative uncharacterized protein OS=Vit... 115 2e-24
B8AY09_ORYSI (tr|B8AY09) Putative uncharacterized protein OS=Ory... 115 2e-24
A5BXH6_VITVI (tr|A5BXH6) Putative uncharacterized protein OS=Vit... 114 7e-24
B9GPU2_POPTR (tr|B9GPU2) Predicted protein OS=Populus trichocarp... 112 2e-23
D7MNQ4_ARALY (tr|D7MNQ4) Putative uncharacterized protein OS=Ara... 112 2e-23
B9ID11_POPTR (tr|B9ID11) Type-b response regulator OS=Populus tr... 111 3e-23
B9I9N3_POPTR (tr|B9I9N3) Response regulator OS=Populus trichocar... 110 7e-23
B9R9G8_RICCO (tr|B9R9G8) Two-component system sensor histidine k... 107 7e-22
C3UZN7_VITVI (tr|C3UZN7) Cytokinin B-type response regulator 6 (... 107 8e-22
A5AG16_VITVI (tr|A5AG16) Putative uncharacterized protein OS=Vit... 106 1e-21
D7TMX0_VITVI (tr|D7TMX0) Whole genome shotgun sequence of line P... 105 2e-21
B9RDJ9_RICCO (tr|B9RDJ9) Sensor histidine kinase, putative OS=Ri... 105 2e-21
C1E9S4_9CHLO (tr|C1E9S4) Response regulator receiver/WD40 domain... 104 3e-21
B9I4F7_POPTR (tr|B9I4F7) Type-b response regulator OS=Populus tr... 104 4e-21
A5BFC8_VITVI (tr|A5BFC8) Putative uncharacterized protein OS=Vit... 104 5e-21
C5Z634_SORBI (tr|C5Z634) Putative uncharacterized protein Sb10g0... 103 9e-21
Q00UB8_OSTTA (tr|Q00UB8) OJ1695_H09.29 gene product (ISS) OS=Ost... 103 1e-20
Q00ZH3_OSTTA (tr|Q00ZH3) WD40 repeat-containing protein (ISS) OS... 102 2e-20
D2KK87_BRACM (tr|D2KK87) Pseudo-response regulator 5a OS=Brassic... 102 2e-20
A4S474_OSTLU (tr|A4S474) Predicted protein (Fragment) OS=Ostreoc... 100 7e-20
B9FV24_ORYSJ (tr|B9FV24) Putative uncharacterized protein OS=Ory... 100 7e-20
D2DNK1_PEA (tr|D2DNK1) Pseudo response regulator 59 (Fragment) O... 100 9e-20
B8B6B7_ORYSI (tr|B8B6B7) Putative uncharacterized protein OS=Ory... 99 2e-19
D2DNJ9_PEA (tr|D2DNJ9) Pseudo response regulator 37 OS=Pisum sat... 99 3e-19
Q56XM1_ARATH (tr|Q56XM1) Putative uncharacterized protein At2g46... 98 4e-19
Q2PEF4_LEMGI (tr|Q2PEF4) Pseudo-response regulator 37 homologue ... 98 4e-19
Q2PEF6_9ARAE (tr|Q2PEF6) Pseudo-response regulator 59 homologue ... 98 4e-19
D7LF88_ARALY (tr|D7LF88) Pseudo-response regulator 9 OS=Arabidop... 97 6e-19
Q2PEF3_LEMGI (tr|Q2PEF3) Pseudo-response regulator 59 homologue ... 97 6e-19
Q2PEF7_9ARAE (tr|Q2PEF7) Pseudo-response regulator 37 homologue ... 97 8e-19
D2KK89_BRACM (tr|D2KK89) Pseudo-response regulator 9 OS=Brassica... 97 9e-19
Q2PEF5_9ARAE (tr|Q2PEF5) Pseudo-response regulator 95 homologue ... 97 9e-19
D7TQA8_VITVI (tr|D7TQA8) Whole genome shotgun sequence of line P... 97 1e-18
Q75HW2_ORYSJ (tr|Q75HW2) Putative uncharacterized protein OSJNBa... 97 1e-18
B9SEL0_RICCO (tr|B9SEL0) Putative uncharacterized protein OS=Ric... 96 1e-18
A2Y4D8_ORYSI (tr|A2Y4D8) Putative uncharacterized protein OS=Ory... 96 1e-18
D7U834_VITVI (tr|D7U834) Whole genome shotgun sequence of line P... 96 1e-18
D0PPG9_CASSA (tr|D0PPG9) Pseudo-response regulator 9 OS=Castanea... 96 1e-18
Q56TL2_CASSA (tr|Q56TL2) Timing of CAB expression 1 protein OS=C... 96 1e-18
B9FIB4_ORYSJ (tr|B9FIB4) Putative uncharacterized protein OS=Ory... 96 2e-18
Q2RAB7_ORYSJ (tr|Q2RAB7) CCT motif family protein, expressed OS=... 96 2e-18
B9HM08_POPTR (tr|B9HM08) Pseudo response regulator OS=Populus tr... 96 2e-18
B8A2Q1_MAIZE (tr|B8A2Q1) Putative uncharacterized protein OS=Zea... 96 2e-18
B9HM09_POPTR (tr|B9HM09) Predicted protein OS=Populus trichocarp... 96 2e-18
Q10N33_ORYSJ (tr|Q10N33) Two-component response regulator-like P... 96 2e-18
B9F7P0_ORYSJ (tr|B9F7P0) Putative uncharacterized protein OS=Ory... 96 2e-18
B9I296_POPTR (tr|B9I296) Pseudo response regulator OS=Populus tr... 96 2e-18
D7T497_VITVI (tr|D7T497) Whole genome shotgun sequence of line P... 96 2e-18
Q2PEF2_LEMGI (tr|Q2PEF2) Pseudo-response regulator 95 homologue ... 95 3e-18
A5BJJ5_VITVI (tr|A5BJJ5) Putative uncharacterized protein OS=Vit... 95 3e-18
Q10N32_ORYSJ (tr|Q10N32) Two-component response regulator-like P... 95 3e-18
Q10N31_ORYSJ (tr|Q10N31) Two-component response regulator-like P... 95 3e-18
B4FWH6_MAIZE (tr|B4FWH6) Putative uncharacterized protein OS=Zea... 95 3e-18
D7SKQ6_VITVI (tr|D7SKQ6) Whole genome shotgun sequence of line P... 95 4e-18
Q15FC7_STRAF (tr|Q15FC7) SRR383 OS=Striga asiatica PE=2 SV=1 94 5e-18
A9SIC5_PHYPA (tr|A9SIC5) Circadian clock protein PRR4 OS=Physcom... 94 6e-18
Q0J041_ORYSJ (tr|Q0J041) Os09g0532400 protein OS=Oryza sativa su... 94 6e-18
B9RNK8_RICCO (tr|B9RNK8) Sensory transduction histidine kinase, ... 94 6e-18
B8BDU3_ORYSI (tr|B8BDU3) Putative uncharacterized protein OS=Ory... 94 6e-18
B9SGT0_RICCO (tr|B9SGT0) Sensory transduction histidine kinase, ... 94 7e-18
C5Y541_SORBI (tr|C5Y541) Putative uncharacterized protein Sb05g0... 94 7e-18
D0PPG7_CASSA (tr|D0PPG7) Pseudo-response regulator 7 OS=Castanea... 94 7e-18
B9HU01_POPTR (tr|B9HU01) Pseudo response regulator OS=Populus tr... 94 9e-18
B9T0R7_RICCO (tr|B9T0R7) Sensory transduction histidine kinase, ... 93 1e-17
B6U1H8_MAIZE (tr|B6U1H8) Two-component response regulator-like P... 93 1e-17
A9U170_PHYPA (tr|A9U170) Circadian clock protein PRR1 (Fragment)... 93 1e-17
C8KHJ3_PHYPA (tr|C8KHJ3) Pseudo-response regulator homolog prote... 92 2e-17
D7M7W4_ARALY (tr|D7M7W4) Pseudo-response regulator 7 OS=Arabidop... 92 2e-17
D2KK85_BRACM (tr|D2KK85) Pseudo-response regulator 1a OS=Brassic... 92 3e-17
B6SHA1_MAIZE (tr|B6SHA1) Two-component response regulator-like P... 92 3e-17
D2KK91_BRACM (tr|D2KK91) Pseudo-response regulator 5b OS=Brassic... 91 6e-17
D0PPG8_CASSA (tr|D0PPG8) Pseudo-response regulator 5 OS=Castanea... 91 6e-17
B9GRR4_POPTR (tr|B9GRR4) Pseudo response regulator OS=Populus tr... 90 8e-17
Q2HTB9_MEDTR (tr|Q2HTB9) Response regulator receiver; CCT OS=Med... 90 1e-16
D7MT61_ARALY (tr|D7MT61) Pseudo-response regulator 3 OS=Arabidop... 90 1e-16
B9IDF0_POPTR (tr|B9IDF0) Pseudo response regulator OS=Populus tr... 89 1e-16
D7MUK2_ARALY (tr|D7MUK2) Putative uncharacterized protein OS=Ara... 89 1e-16
D2KK86_BRACM (tr|D2KK86) Pseudo-response regulator 3 OS=Brassica... 89 1e-16
A9SIB9_PHYPA (tr|A9SIB9) Circadian clock protein PRR2 OS=Physcom... 89 2e-16
C5Z637_SORBI (tr|C5Z637) Putative uncharacterized protein Sb10g0... 89 2e-16
D2KK92_BRACM (tr|D2KK92) Pseudo-response regulator 7b OS=Brassic... 89 3e-16
C5WZE9_SORBI (tr|C5WZE9) Putative uncharacterized protein Sb01g0... 89 3e-16
B9N4C8_POPTR (tr|B9N4C8) Pseudo response regulator OS=Populus tr... 89 3e-16
D2KK88_BRACM (tr|D2KK88) Pseudo-response regulator 7a OS=Brassic... 88 3e-16
B9I950_POPTR (tr|B9I950) Pseudo response regulator OS=Populus tr... 88 4e-16
B8AFH0_ORYSI (tr|B8AFH0) Putative uncharacterized protein OS=Ory... 88 4e-16
Q0DZH6_ORYSJ (tr|Q0DZH6) Os02g0618200 protein OS=Oryza sativa su... 88 4e-16
B9I4F8_POPTR (tr|B9I4F8) Predicted protein OS=Populus trichocarp... 87 6e-16
Q6UEI7_MESCR (tr|Q6UEI7) Timing of CAB expression 1 OS=Mesembrya... 87 6e-16
B9RLV6_RICCO (tr|B9RLV6) Sensory transduction histidine kinase, ... 87 7e-16
C1MIF8_MICPS (tr|C1MIF8) Response regulator receiver/WD40 domain... 87 7e-16
B6SVD1_MAIZE (tr|B6SVD1) Two-component response regulator-like P... 87 8e-16
C0SNP3_SOYBN (tr|C0SNP3) Timing of CAB expression 1 OS=Glycine m... 87 8e-16
B8ALJ0_ORYSI (tr|B8ALJ0) Putative uncharacterized protein OS=Ory... 87 9e-16
D2W310_NAEGR (tr|D2W310) 3',5'-cyclic-nucleotide phosphodiestera... 87 1e-15
C5XXQ3_SORBI (tr|C5XXQ3) Putative uncharacterized protein Sb04g0... 87 1e-15
D7SI79_VITVI (tr|D7SI79) Whole genome shotgun sequence of line P... 86 1e-15
D2KK90_BRACM (tr|D2KK90) Pseudo-response regulator 1b OS=Brassic... 86 2e-15
C0PQ18_PICSI (tr|C0PQ18) Putative uncharacterized protein OS=Pic... 85 3e-15
C5WNM8_SORBI (tr|C5WNM8) Putative uncharacterized protein Sb01g0... 85 3e-15
A2E4B2_TRIVA (tr|A2E4B2) Response regulator receiver domain cont... 85 3e-15
A7J5U5_AEGTA (tr|A7J5U5) Pseudo-response regulator OS=Aegilops t... 85 4e-15
D7M353_ARALY (tr|D7M353) Putative uncharacterized protein OS=Ara... 85 4e-15
B5KVP8_TRITU (tr|B5KVP8) Pseudo-response regulator OS=Triticum t... 85 4e-15
A7J5U2_WHEAT (tr|A7J5U2) Pseudo-response regulator OS=Triticum a... 85 4e-15
A7J5U1_WHEAT (tr|A7J5U1) Pseudo-response regulator OS=Triticum a... 85 4e-15
A7J5S8_WHEAT (tr|A7J5S8) Pseudo-response regulator OS=Triticum a... 85 4e-15
B5KW98_TRITU (tr|B5KW98) Pseudo-response regulator OS=Triticum t... 85 4e-15
A7J5T4_WHEAT (tr|A7J5T4) Pseudo-response regulator OS=Triticum a... 85 4e-15
B8YAZ3_HORVD (tr|B8YAZ3) Pseudo-response receiver OS=Hordeum vul... 85 4e-15
B8YAX4_HORSP (tr|B8YAX4) Pseudo-response receiver OS=Hordeum spo... 85 4e-15
B8YAY3_HORSP (tr|B8YAY3) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAN2_HORVD (tr|B8YAN2) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAN0_HORVD (tr|B8YAN0) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAE7_HORVD (tr|B8YAE7) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
Q32SF9_HORVD (tr|Q32SF9) Pseudo-response regulator OS=Hordeum vu... 84 5e-15
B8YB30_HORVD (tr|B8YB30) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAY4_HORVD (tr|B8YAY4) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAX6_HORSP (tr|B8YAX6) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAT1_HORSP (tr|B8YAT1) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAG4_HORVD (tr|B8YAG4) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAF4_HORVD (tr|B8YAF4) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAZ6_HORVD (tr|B8YAZ6) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAT2_HORSP (tr|B8YAT2) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
Q32QD2_HORVU (tr|Q32QD2) Pseudo-response regulator PPD-H1 OS=Hor... 84 5e-15
Q32QD1_HORVD (tr|Q32QD1) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAW2_HORSP (tr|B8YAW2) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAW0_HORSP (tr|B8YAW0) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAU9_HORVD (tr|B8YAU9) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAT4_HORSP (tr|B8YAT4) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAS8_HORSP (tr|B8YAS8) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAR4_HORSP (tr|B8YAR4) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAR0_HORSP (tr|B8YAR0) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YB37_HORVD (tr|B8YB37) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAS5_HORSP (tr|B8YAS5) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YB00_HORVD (tr|B8YB00) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAR6_HORSP (tr|B8YAR6) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAP8_HORSP (tr|B8YAP8) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAP6_HORSP (tr|B8YAP6) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAT3_HORSP (tr|B8YAT3) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAT0_HORSP (tr|B8YAT0) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAS1_HORSP (tr|B8YAS1) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAN4_HORVD (tr|B8YAN4) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAX2_HORSP (tr|B8YAX2) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAS2_HORSP (tr|B8YAS2) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAD9_HORVD (tr|B8YAD9) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAD7_HORVD (tr|B8YAD7) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAV9_HORSP (tr|B8YAV9) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAR9_HORSP (tr|B8YAR9) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAJ6_HORVD (tr|B8YAJ6) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YB38_HORVD (tr|B8YB38) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAQ7_HORSP (tr|B8YAQ7) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAQ2_HORSP (tr|B8YAQ2) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAP4_HORSP (tr|B8YAP4) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAX1_HORSP (tr|B8YAX1) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAP5_HORSP (tr|B8YAP5) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAQ6_HORSP (tr|B8YAQ6) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAP3_HORSP (tr|B8YAP3) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAW8_HORSP (tr|B8YAW8) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAT6_HORSP (tr|B8YAT6) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAS9_HORSP (tr|B8YAS9) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAR3_HORSP (tr|B8YAR3) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAQ0_HORSP (tr|B8YAQ0) Pseudo-response receiver OS=Hordeum spo... 84 5e-15
B8YAM9_HORVD (tr|B8YAM9) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
B8YAM8_HORVD (tr|B8YAM8) Pseudo-response receiver OS=Hordeum vul... 84 5e-15
Q32QD4_HORVD (tr|Q32QD4) Pseudo-response receiver OS=Hordeum vul... 84 6e-15
B8YAQ9_HORSP (tr|B8YAQ9) Pseudo-response receiver OS=Hordeum spo... 84 6e-15
B8YAP2_HORSP (tr|B8YAP2) Pseudo-response receiver OS=Hordeum spo... 84 6e-15
B8YAP1_HORVD (tr|B8YAP1) Pseudo-response receiver OS=Hordeum vul... 84 6e-15
B8YAE0_HORVD (tr|B8YAE0) Pseudo-response receiver OS=Hordeum vul... 84 6e-15
B8YAQ4_HORSP (tr|B8YAQ4) Pseudo-response receiver OS=Hordeum spo... 84 6e-15
B8YAN1_HORVD (tr|B8YAN1) Pseudo-response receiver OS=Hordeum vul... 84 6e-15
B8YAN3_HORVD (tr|B8YAN3) Pseudo-response receiver OS=Hordeum vul... 84 6e-15
Q32QD0_HORSP (tr|Q32QD0) Pseudo-response regulator PPD-H1 OS=Hor... 84 6e-15
A7J5S9_WHEAT (tr|A7J5S9) Pseudo-response regulator OS=Triticum a... 84 9e-15
B5KVP5_TRITU (tr|B5KVP5) Pseudo-response regulator OS=Triticum t... 83 1e-14
A7J5T2_WHEAT (tr|A7J5T2) Pseudo-response regulator OS=Triticum a... 83 1e-14
A7J5T3_WHEAT (tr|A7J5T3) Truncated pseudo-response regulator OS=... 83 1e-14
Q2LWW3_SYNAS (tr|Q2LWW3) Sigma-54-dependent transcriptional regu... 82 4e-14
C0Z9Z8_BREBN (tr|C0Z9Z8) Two-component hybrid sensor and regulat... 81 4e-14
A9AVR8_HERA2 (tr|A9AVR8) Two component transcriptional regulator... 81 4e-14
A1ZFP4_9BACT (tr|A1ZFP4) Two-component hybrid sensor and regulat... 81 5e-14
D0MGD9_RHOM4 (tr|D0MGD9) Two component, sigma54 specific, transc... 81 5e-14
D5A9D6_PICSI (tr|D5A9D6) Putative uncharacterized protein OS=Pic... 81 6e-14
B5E8C8_GEOBB (tr|B5E8C8) Response regulator receiver modulated m... 81 6e-14
A5BZI3_VITVI (tr|A5BZI3) Putative uncharacterized protein OS=Vit... 80 7e-14
C0Z9X4_BREBN (tr|C0Z9X4) Two-component hybrid sensor and regulat... 80 9e-14
C1MZW3_MICPS (tr|C1MZW3) Predicted protein OS=Micromonas pusilla... 80 1e-13
D7TTG7_VITVI (tr|D7TTG7) Whole genome shotgun sequence of line P... 80 1e-13
D3EEU5_GEOS4 (tr|D3EEU5) Integral membrane sensor hybrid histidi... 80 1e-13
D0MYX0_PHYIN (tr|D0MYX0) Protein kinase, putative OS=Phytophthor... 79 2e-13
Q5WAT9_BACSK (tr|Q5WAT9) Putative uncharacterized protein OS=Bac... 79 2e-13
Q6L3G3_SOLDE (tr|Q6L3G3) Putative two-component response regulat... 79 2e-13
A8I9L6_CHLRE (tr|A8I9L6) Response regulator of potential two com... 79 2e-13
A0CXS2_PARTE (tr|A0CXS2) Chromosome undetermined scaffold_30, wh... 79 2e-13
B9MTY4_POPTR (tr|B9MTY4) Pseudo response regulator (Fragment) OS... 79 3e-13
B9SGD1_RICCO (tr|B9SGD1) Two-component response regulator ARR2, ... 78 3e-13
D7DJS3_9PROT (tr|D7DJS3) Two component, sigma54 specific, transc... 78 4e-13
C6MPK8_9DELT (tr|C6MPK8) Response regulator receiver modulated m... 78 4e-13
D3EHY5_GEOS4 (tr|D3EHY5) Integral membrane sensor hybrid histidi... 78 4e-13
A0CYH3_PARTE (tr|A0CYH3) Chromosome undetermined scaffold_31, wh... 78 4e-13
A4EMP7_9RHOB (tr|A4EMP7) DNA-binding response regulator CtrA OS=... 78 5e-13
A6M003_CLOB8 (tr|A6M003) Two component, sigma54 specific, transc... 77 6e-13
A5V247_ROSS1 (tr|A5V247) Two component transcriptional regulator... 77 8e-13
A5C6Q0_VITVI (tr|A5C6Q0) Putative uncharacterized protein OS=Vit... 77 8e-13
C4G8D9_9FIRM (tr|C4G8D9) Putative uncharacterized protein OS=Shu... 77 9e-13
Q22TX5_TETTH (tr|Q22TX5) Protein kinase domain containing protei... 77 1e-12
D6U4B9_9CHLR (tr|D6U4B9) Response regulator receiver sensor sign... 77 1e-12
A8HSN4_CHLRE (tr|A8HSN4) Predicted protein OS=Chlamydomonas rein... 77 1e-12
D7MCX7_ARALY (tr|D7MCX7) Pseudo-response regulator 2 OS=Arabidop... 77 1e-12
A8ZX41_DESOH (tr|A8ZX41) Response regulator receiver protein OS=... 76 1e-12
B9LDH9_CHLSY (tr|B9LDH9) Two component transcriptional regulator... 76 1e-12
C6VYI4_DYAFD (tr|C6VYI4) Response regulator receiver sensor sign... 76 1e-12
C3HA01_BACTU (tr|C3HA01) Putative uncharacterized protein OS=Bac... 76 1e-12
C3HSY3_BACTU (tr|C3HSY3) Putative uncharacterized protein OS=Bac... 76 1e-12
C3FDE1_BACTU (tr|C3FDE1) Putative uncharacterized protein OS=Bac... 76 1e-12
C2NB41_BACCE (tr|C2NB41) Putative uncharacterized protein OS=Bac... 76 2e-12
Q0IUG8_ORYSJ (tr|Q0IUG8) CCT motif family protein OS=Oryza sativ... 76 2e-12
B8BJ76_ORYSI (tr|B8BJ76) Putative uncharacterized protein OS=Ory... 76 2e-12
C3RNI6_9MOLU (tr|C3RNI6) Putative uncharacterized protein OS=Mol... 76 2e-12
B0N3F6_9FIRM (tr|B0N3F6) Putative uncharacterized protein OS=Clo... 76 2e-12
A8J3A1_CHLRE (tr|A8J3A1) Predicted protein (Fragment) OS=Chlamyd... 76 2e-12
B9SNR6_RICCO (tr|B9SNR6) Transcription factor, putative OS=Ricin... 76 2e-12
C6XB93_METSD (tr|C6XB93) Two component, sigma54 specific, transc... 75 2e-12
C0XMR7_LACHI (tr|C0XMR7) Response regulator OS=Lactobacillus hil... 75 2e-12
C8NYW2_9CORY (tr|C8NYW2) DNA-binding response regulator OS=Coryn... 75 3e-12
C2D5K0_LACBR (tr|C2D5K0) Response regulator OS=Lactobacillus bre... 75 3e-12
D7M5K7_ARALY (tr|D7M5K7) Predicted protein OS=Arabidopsis lyrata... 75 3e-12
A7HBQ8_ANADF (tr|A7HBQ8) Two component, sigma54 specific, transc... 75 3e-12
C0WUJ3_LACBU (tr|C0WUJ3) Response regulator OS=Lactobacillus buc... 75 3e-12
B6FSP5_9CLOT (tr|B6FSP5) Putative uncharacterized protein OS=Clo... 75 3e-12
A6G687_9DELT (tr|A6G687) Two component, sigma54 specific, transc... 75 3e-12
D7TMW9_VITVI (tr|D7TMW9) Whole genome shotgun sequence of line P... 75 3e-12
Q01NK3_SOLUE (tr|Q01NK3) Two component, sigma54 specific, transc... 75 4e-12
C0YJA9_9FLAO (tr|C0YJA9) Response regulator/sensory box histidin... 75 4e-12
C5PKM6_9SPHI (tr|C5PKM6) DNA-binding response regulator OS=Sphin... 75 4e-12
Q20XV3_RHOPB (tr|Q20XV3) Response regulator receiver domain prot... 75 5e-12
B7A9I5_THEAQ (tr|B7A9I5) Response regulator receiver modulated m... 75 5e-12
B8GCK7_CHLAD (tr|B8GCK7) Two component transcriptional regulator... 74 5e-12
Q9I529_PSEAE (tr|Q9I529) Two-component response regulator OS=Pse... 74 6e-12
B7UY05_PSEA8 (tr|B7UY05) Two-component response regulator OS=Pse... 74 6e-12
A3LMH3_PSEAE (tr|A3LMH3) Two-component response regulator OS=Pse... 74 6e-12
C6BUQ2_DESAD (tr|C6BUQ2) Response regulator receiver modulated m... 74 7e-12
D3HDI6_STRG3 (tr|D3HDI6) Putative lantibiotic biosynthesis DNA-b... 74 7e-12
Q8DK49_THEEB (tr|Q8DK49) Two-component hybrid sensor & regulator... 74 8e-12
Q6WRU3_CHLRE (tr|Q6WRU3) Chlamyopsin-5 OS=Chlamydomonas reinhard... 74 8e-12
A8I9V1_CHLRE (tr|A8I9V1) Chlamyopsin-5 sensory rhodopsin OS=Chla... 74 8e-12
B8FJB6_DESAA (tr|B8FJB6) PAS/PAC sensor hybrid histidine kinase ... 74 9e-12
Q0BXS7_HYPNA (tr|Q0BXS7) Sigma-54 dependent DNA-binding response... 73 1e-11
A9WAW7_CHLAA (tr|A9WAW7) Response regulator receiver OS=Chlorofl... 73 1e-11
A7NGG5_ROSCS (tr|A7NGG5) Two component transcriptional regulator... 73 1e-11
Q2JUP9_SYNJA (tr|Q2JUP9) DNA-binding response regulator OS=Synec... 73 1e-11
C0GKV4_9FIRM (tr|C0GKV4) Two component transcriptional regulator... 73 1e-11
D0WPH5_9ACTO (tr|D0WPH5) DNA-binding response regulator OS=Actin... 73 2e-11
B4B7W6_9CHRO (tr|B4B7W6) Multi-sensor signal transduction histid... 73 2e-11
Q39ZR4_GEOMG (tr|Q39ZR4) PAS/PAC sensor hybrid histidine kinase ... 73 2e-11
Q118H4_TRIEI (tr|Q118H4) Adenylate/guanylate cyclase OS=Trichode... 73 2e-11
A3V602_9RHOB (tr|A3V602) DNA-binding response regulator CtrA OS=... 73 2e-11
A5FA01_FLAJ1 (tr|A5FA01) Two component transcriptional regulator... 73 2e-11
Q0S7G0_RHOSR (tr|Q0S7G0) Response regulator, two-component syste... 72 2e-11
B1HXG4_LYSSC (tr|B1HXG4) DNA-binding response regulator OS=Lysin... 72 2e-11
D1PI49_9FIRM (tr|D1PI49) Transcriptional activator protein Irlr ... 72 2e-11
C1BBM7_RHOOB (tr|C1BBM7) Two-component response regulator PhoP O... 72 2e-11
C9NV59_9VIBR (tr|C9NV59) Two component transcriptional regulator... 72 2e-11
Q2JIQ6_SYNJB (tr|Q2JIQ6) DNA-binding response regulator OS=Synec... 72 2e-11
Q22P17_TETTH (tr|Q22P17) Protein kinase domain containing protei... 72 2e-11
B4UJK5_ANASK (tr|B4UJK5) Two component, sigma54 specific, transc... 72 2e-11
D5X7P4_THEPJ (tr|D5X7P4) Response regulator receiver modulated d... 72 2e-11
B8JCK3_ANAD2 (tr|B8JCK3) Two component, sigma54 specific, transc... 72 2e-11
B5W8S0_SPIMA (tr|B5W8S0) Two component transcriptional regulator... 72 2e-11
D3B3H3_POLPA (tr|D3B3H3) cAMP phosphodiesterase OS=Polysphondyli... 72 2e-11
C4FBN3_9ACTN (tr|C4FBN3) Putative uncharacterized protein OS=Col... 72 2e-11
C0Z4K6_BREBN (tr|C0Z4K6) Two-component hybrid sensor and regulat... 72 2e-11
B0NIU4_EUBSP (tr|B0NIU4) Putative uncharacterized protein OS=Clo... 72 3e-11
A6VA44_PSEA7 (tr|A6VA44) Two-component response regulator OS=Pse... 72 3e-11
Q2IHF9_ANADE (tr|Q2IHF9) Two component, sigma54 specific, transc... 72 3e-11
B1HSI0_LYSSC (tr|B1HSI0) Putative uncharacterized protein OS=Lys... 72 3e-11
C2BCT1_9FIRM (tr|C2BCT1) Response regulator VanRG OS=Anaerococcu... 72 3e-11
C2CGX0_9FIRM (tr|C2CGX0) Response regulator OS=Anaerococcus tetr... 72 3e-11
Q02I89_PSEAB (tr|Q02I89) Two-component response regulator OS=Pse... 72 3e-11
D2LX23_BACS4 (tr|D2LX23) Two component transcriptional regulator... 72 3e-11
Q67RF8_SYMTH (tr|Q67RF8) Two-component response regulator, proba... 72 3e-11
B9N2R8_POPTR (tr|B9N2R8) Pseudo response regulator OS=Populus tr... 72 3e-11
C8W6G4_DESAS (tr|C8W6G4) Two component transcriptional regulator... 72 3e-11
B6W682_9FIRM (tr|B6W682) Putative uncharacterized protein OS=Ana... 72 3e-11
A3L5J1_PSEAE (tr|A3L5J1) Two-component response regulator OS=Pse... 72 4e-11
A9RHW9_PHYPA (tr|A9RHW9) Predicted protein (Fragment) OS=Physcom... 72 4e-11
D5UZU7_ARCNC (tr|D5UZU7) Putative PAS/PAC sensor protein OS=Arco... 72 4e-11
C7PF20_CHIPD (tr|C7PF20) Response regulator receiver protein OS=... 71 4e-11
A1APJ9_PELPD (tr|A1APJ9) Two component, sigma54 specific, transc... 71 4e-11
Q5SHY7_THET8 (tr|Q5SHY7) Putative uncharacterized protein TTHA15... 71 4e-11
B9N2R7_POPTR (tr|B9N2R7) Predicted protein OS=Populus trichocarp... 71 4e-11
Q72IA3_THET2 (tr|Q72IA3) Probable two-component response regulat... 71 4e-11
B1ZHT7_METPB (tr|B1ZHT7) Two component transcriptional regulator... 71 4e-11
C0ZL02_BREBN (tr|C0ZL02) Two-component response regulator OS=Bre... 71 5e-11
A6LBJ4_PARD8 (tr|A6LBJ4) Two-component system sensor histidine k... 71 5e-11
D7ITV3_9BACE (tr|D7ITV3) Two-component system sensor histidine k... 71 5e-11
D0TBJ5_9BACE (tr|D0TBJ5) Two-component system sensor histidine k... 71 5e-11
Q8DGF3_THEEB (tr|Q8DGF3) Two-component response regulator OS=The... 71 5e-11
C7XB68_9PORP (tr|C7XB68) Two-component system sensor histidine k... 71 5e-11
C5AQ73_METEA (tr|C5AQ73) Putative phoP: DNA-binding response reg... 71 5e-11
B7KP06_METC4 (tr|B7KP06) Two component transcriptional regulator... 71 5e-11
A9W8Y5_METEP (tr|A9W8Y5) Response regulator receiver OS=Methylob... 71 5e-11
A4XQE6_PSEMY (tr|A4XQE6) Two component transcriptional regulator... 71 5e-11
D3RN71_ALLVD (tr|D3RN71) Response regulator receiver protein OS=... 71 5e-11
Q726A4_DESVH (tr|Q726A4) Sensory box histidine kinase/response r... 71 5e-11
A7HBU8_ANADF (tr|A7HBU8) Response regulator receiver modulated m... 71 5e-11
C5U454_DESVU (tr|C5U454) PAS/PAC sensor hybrid histidine kinase ... 71 5e-11
Q118H3_TRIEI (tr|Q118H3) Adenylate/guanylate cyclase OS=Trichode... 71 5e-11
A1V9M8_DESVV (tr|A1V9M8) PAS/PAC sensor hybrid histidine kinase ... 71 5e-11
B7KLK5_CYAP7 (tr|B7KLK5) Two component transcriptional regulator... 71 5e-11
B6R732_9RHOB (tr|B6R732) Response regulatory protein OS=Pseudovi... 71 6e-11
Q2CEA6_9RHOB (tr|Q2CEA6) DNA-binding response regulator CtrA OS=... 71 6e-11
B8FLT8_DESAA (tr|B8FLT8) Response regulator receiver modulated d... 71 6e-11
C0Z6C7_BREBN (tr|C0Z6C7) Two-component response regulator OS=Bre... 71 6e-11
A2BTK1_PROMS (tr|A2BTK1) Two-component response regulator OS=Pro... 71 6e-11
B8F9C2_DESAA (tr|B8F9C2) PAS/PAC sensor hybrid histidine kinase ... 71 6e-11
A8G7C5_PROM2 (tr|A8G7C5) Two-component response regulator OS=Pro... 71 7e-11
B9NYW2_PROMA (tr|B9NYW2) Two-component response regulator OS=Pro... 71 7e-11
Q0ARM8_MARMM (tr|Q0ARM8) Two component transcriptional regulator... 71 7e-11
C7GFS0_9FIRM (tr|C7GFS0) Regulatory protein VanR OS=Roseburia in... 71 7e-11
B8FAW9_DESAA (tr|B8FAW9) Response regulator receiver protein OS=... 70 7e-11
B0JG33_MICAN (tr|B0JG33) Two-component response regulator OmpR s... 70 7e-11
D2EWX7_9BACE (tr|D2EWX7) Two-component system sensor kinase/resp... 70 7e-11
B5J542_9RHOB (tr|B5J542) Response regulator receiver domain prot... 70 7e-11
B3EB67_GEOLS (tr|B3EB67) Response regulator receiver sensor sign... 70 7e-11
A1AUQ2_PELPD (tr|A1AUQ2) Response regulator receiver protein OS=... 70 8e-11
Q2IIX5_ANADE (tr|Q2IIX5) Response regulator receiver (CheY-like)... 70 9e-11
C6ITF2_9BACE (tr|C6ITF2) Two-component system sensor histidine k... 70 9e-11
B8J936_ANAD2 (tr|B8J936) Response regulator receiver modulated m... 70 9e-11
B4UC28_ANASK (tr|B4UC28) Response regulator receiver modulated m... 70 9e-11
C9L096_9BACE (tr|C9L096) Two-component system sensor histidine k... 70 9e-11
B1XJC2_SYNP2 (tr|B1XJC2) Two-component DNA binding response regu... 70 1e-10
D6XZM2_9BACI (tr|D6XZM2) Integral membrane sensor hybrid histidi... 70 1e-10
B6GD78_9ACTN (tr|B6GD78) Putative uncharacterized protein OS=Col... 70 1e-10
D7K2Z3_9BACE (tr|D7K2Z3) Two-component system sensor histidine k... 70 1e-10
D4WKU6_BACOV (tr|D4WKU6) Response regulator receiver domain prot... 70 1e-10
C3QNL2_9BACE (tr|C3QNL2) Two-component system sensor histidine k... 70 1e-10
A7M2N4_BACOV (tr|A7M2N4) Putative uncharacterized protein OS=Bac... 70 1e-10
Q8ETA4_OCEIH (tr|Q8ETA4) Two-component response regulator OS=Oce... 70 1e-10
B1BZR9_9FIRM (tr|B1BZR9) Putative uncharacterized protein OS=Clo... 70 1e-10
Q8A790_BACTN (tr|Q8A790) Two-component system sensor histidine k... 70 1e-10
B8J2L7_DESDA (tr|B8J2L7) Two component, sigma54 specific, transc... 70 1e-10
B0C768_ACAM1 (tr|B0C768) Putative uncharacterized protein OS=Aca... 70 1e-10
O68596_PSEAE (tr|O68596) Response regulator OS=Pseudomonas aerug... 70 1e-10
A9SMD9_PHYPA (tr|A9SMD9) Predicted protein (Fragment) OS=Physcom... 70 1e-10
Q318C2_PROM9 (tr|Q318C2) Two component transcriptional regulator... 70 1e-10
A8YDV4_MICAE (tr|A8YDV4) Ycf27 protein OS=Microcystis aeruginosa... 70 1e-10
B8FDX8_DESAA (tr|B8FDX8) Response regulator receiver protein OS=... 70 1e-10
A4CPK1_ROBBH (tr|A4CPK1) Two-component system response regulator... 70 1e-10
Q67QL7_SYMTH (tr|Q67QL7) Two-component response regulator OS=Sym... 70 1e-10
D5EWG8_PRER2 (tr|D5EWG8) Sensor histidine kinase/DNA-binding res... 70 1e-10
B1LTD3_METRJ (tr|B1LTD3) Two component transcriptional regulator... 70 1e-10
Q0FZ72_9RHIZ (tr|Q0FZ72) Putative transcription regulator (With ... 70 1e-10
A3PFA9_PROM0 (tr|A3PFA9) Two-component response regulator OS=Pro... 70 1e-10
Q2S380_SALRD (tr|Q2S380) Response regulatory protein OS=Saliniba... 70 1e-10
D6TYQ0_9CHLR (tr|D6TYQ0) Multi-sensor signal transduction histid... 70 1e-10
A5YRT7_9PSED (tr|A5YRT7) Response regulator OS=Pseudomonas alkyl... 70 1e-10
C7RI96_ANAPD (tr|C7RI96) Two component transcriptional regulator... 70 1e-10
A8T9A1_9VIBR (tr|A8T9A1) Sensor histidine kinase/response regula... 70 1e-10
D5H8I1_SALRM (tr|D5H8I1) Member of the two-component regulatory ... 70 1e-10
D5E4F6_BACMQ (tr|D5E4F6) DNA-binding response regulator OS=Bacil... 70 1e-10
C3R1B7_9BACE (tr|C3R1B7) Two-component system sensor histidine k... 69 2e-10
D4LRP8_9FIRM (tr|D4LRP8) Response regulators consisting of a Che... 69 2e-10
Q894P5_CLOTE (tr|Q894P5) Transcriptional regulatory protein OS=C... 69 2e-10
D5DII2_BACMD (tr|D5DII2) Two-component response regulator OS=Bac... 69 2e-10
D1YRJ8_9FIRM (tr|D1YRJ8) Response regulator receiver domain prot... 69 2e-10
Q180G4_CLOD6 (tr|Q180G4) Two-component response regulator OS=Clo... 69 2e-10
C9YRG3_CLODR (tr|C9YRG3) Two-component response regulator OS=Clo... 69 2e-10
C9XRS0_CLODC (tr|C9XRS0) Two-component response regulator OS=Clo... 69 2e-10
D4L0Y5_9FIRM (tr|D4L0Y5) Response regulators consisting of a Che... 69 2e-10
C0BZP6_9CLOT (tr|C0BZP6) Putative uncharacterized protein OS=Clo... 69 2e-10
D4WPU3_BACOV (tr|D4WPU3) Response regulator receiver domain prot... 69 2e-10
A7HIN1_ANADF (tr|A7HIN1) Two component, sigma54 specific, transc... 69 2e-10
B0KL86_PSEPG (tr|B0KL86) Two component transcriptional regulator... 69 2e-10
D6D5B4_9BACE (tr|D6D5B4) Signal transduction histidine kinase OS... 69 2e-10
D0TYF6_9BACE (tr|D0TYF6) Two-component system sensor histidine k... 69 2e-10
C3QLI3_9BACE (tr|C3QLI3) Two-component system sensor histidine k... 69 2e-10
B1ZNI9_OPITP (tr|B1ZNI9) PAS/PAC sensor hybrid histidine kinase ... 69 2e-10
Q46IJ2_PROMT (tr|Q46IJ2) Two component transcriptional regulator... 69 2e-10
Q7UZN9_PROMP (tr|Q7UZN9) Two-component response regulator OS=Pro... 69 2e-10
A2BZ04_PROM5 (tr|A2BZ04) Two-component response regulator OS=Pro... 69 2e-10
D4VIP6_9BACE (tr|D4VIP6) Response regulator receiver domain prot... 69 2e-10
A9KRS1_CLOPH (tr|A9KRS1) Two component transcriptional regulator... 69 2e-10
B9M529_GEOSF (tr|B9M529) Two component, sigma54 specific, transc... 69 2e-10
Q65LK4_BACLD (tr|Q65LK4) Putative uncharacterized protein OS=Bac... 69 3e-10
C3AF36_BACMY (tr|C3AF36) DNA-binding response regulator OS=Bacil... 69 3e-10
C2ZZE5_BACCE (tr|C2ZZE5) DNA-binding response regulator OS=Bacil... 69 3e-10
C2Z9H3_BACCE (tr|C2Z9H3) DNA-binding response regulator OS=Bacil... 69 3e-10
C9YME3_CLODR (tr|C9YME3) Two-component response regulator OS=Clo... 69 3e-10
B5IKQ4_9CHRO (tr|B5IKQ4) DNA-binding response regulator OS=Cyano... 69 3e-10
D5MLE5_9BACT (tr|D5MLE5) Putative Sensor protein OS=NC10 bacteri... 69 3e-10
C4FQE2_9FIRM (tr|C4FQE2) Putative uncharacterized protein OS=Vei... 69 3e-10
D5QKS3_METTR (tr|D5QKS3) Multi-sensor hybrid histidine kinase OS... 69 3e-10
C6IX82_9BACL (tr|C6IX82) Two component transcriptional regulator... 69 3e-10
>B9RZK5_RICCO (tr|B9RZK5) Sensor histidine kinase, putative OS=Ricinus communis
GN=RCOM_0999330 PE=4 SV=1
Length = 682
Score = 358 bits (920), Expect = 1e-97, Method: Compositional matrix adjust.
Identities = 168/185 (90%), Positives = 177/185 (95%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
MNLSNGKGSMSTASSSVAWKAG+VV DQFP GLRVLVVDDDPTCLMILEKML+TCLY+VT
Sbjct: 1 MNLSNGKGSMSTASSSVAWKAGEVVPDQFPAGLRVLVVDDDPTCLMILEKMLRTCLYEVT 60
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LRENKNGYDIVISDVHMPDMDGFKLLE+IGLEMDLPVIMMSAD+ K+VV
Sbjct: 61 KCNRAETALSLLRENKNGYDIVISDVHMPDMDGFKLLEHIGLEMDLPVIMMSADEAKSVV 120
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADY 180
MKGVTHGACDYLIKPVRIEALKNIWQHVVRKK+NE KDLEQSGSVEEGDRQ +QSEDADY
Sbjct: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKRNEWKDLEQSGSVEEGDRQPKQSEDADY 180
Query: 181 SSSVN 185
SSS N
Sbjct: 181 SSSAN 185
>D7SY70_VITVI (tr|D7SY70) Whole genome shotgun sequence of line PN40024,
scaffold_77.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00035051001 PE=4 SV=1
Length = 533
Score = 343 bits (879), Expect = 6e-93, Method: Compositional matrix adjust.
Identities = 162/185 (87%), Positives = 174/185 (94%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
MNL +G+GSMSTASSS AWKAGDVV DQFP GLRVLVVDDDPTCLMILEKML+TCLY+VT
Sbjct: 1 MNLGSGQGSMSTASSSGAWKAGDVVPDQFPAGLRVLVVDDDPTCLMILEKMLRTCLYEVT 60
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LR NK+G+DIVISDVHMPDMDGFKLLE+IGLEMDLPVIMMSADDGK+VV
Sbjct: 61 KCNRAETALSLLRGNKSGFDIVISDVHMPDMDGFKLLEHIGLEMDLPVIMMSADDGKHVV 120
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADY 180
MKGVTHGACDYLIKPVRIEALKNIWQHVVRK+KNE KDLEQSGSVE+GDRQQ+ SED DY
Sbjct: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKRKNEWKDLEQSGSVEDGDRQQKPSEDVDY 180
Query: 181 SSSVN 185
SSS N
Sbjct: 181 SSSAN 185
>D7GN43_POPCA (tr|D7GN43) Putative B-type response regulator 12 OS=Populus
canadensis GN=rr12 PE=2 SV=1
Length = 690
Score = 337 bits (863), Expect = 5e-91, Method: Compositional matrix adjust.
Identities = 160/186 (86%), Positives = 170/186 (91%), Gaps = 1/186 (0%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
MNL+N KGSMSTA+S WKA D SDQFP GLRVLVVDDDPTCL+ILEKML+TC Y+VT
Sbjct: 2 MNLANCKGSMSTATSGGVWKASDGASDQFPAGLRVLVVDDDPTCLVILEKMLRTCRYEVT 61
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LRENKNGYDIVISDVHMPDMDGFKLLE IGLEMDLPVIMMSADDGKNVV
Sbjct: 62 KCNRAEIALSLLRENKNGYDIVISDVHMPDMDGFKLLEQIGLEMDLPVIMMSADDGKNVV 121
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQSEDAD 179
MKGVTHGACDYLIKP+RIEALKNIWQHVVRK+KNE +DLEQSGSVEE GDRQQ+Q EDAD
Sbjct: 122 MKGVTHGACDYLIKPIRIEALKNIWQHVVRKRKNEWRDLEQSGSVEEGGDRQQKQPEDAD 181
Query: 180 YSSSVN 185
YSSS N
Sbjct: 182 YSSSAN 187
>B9MZZ8_POPTR (tr|B9MZZ8) Type-b response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_742301 PE=4 SV=1
Length = 671
Score = 332 bits (850), Expect = 2e-89, Method: Composition-based stats.
Identities = 161/186 (86%), Positives = 170/186 (91%), Gaps = 1/186 (0%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
MNL+N KGSMSTA+S WKA D SDQFP GLRVLVVDDDPTCL+ILEKML+TC Y+VT
Sbjct: 2 MNLANCKGSMSTATSGGVWKASDGASDQFPAGLRVLVVDDDPTCLVILEKMLRTCRYEVT 61
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LRENKNGYDIVISDVHMPDMDGFKLLE IGLEMDLPVIMMSADDGKNVV
Sbjct: 62 KCNRAEIALSLLRENKNGYDIVISDVHMPDMDGFKLLEQIGLEMDLPVIMMSADDGKNVV 121
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQSEDAD 179
MKGVTHGACDYLIKP+RIEALKNIWQHVVRK+KNE KDLEQSGSVEE GDRQQ+Q EDAD
Sbjct: 122 MKGVTHGACDYLIKPIRIEALKNIWQHVVRKRKNEWKDLEQSGSVEEGGDRQQKQPEDAD 181
Query: 180 YSSSVN 185
YSSS N
Sbjct: 182 YSSSAN 187
>B9HX92_POPTR (tr|B9HX92) Type-b response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_725513 PE=4 SV=1
Length = 634
Score = 322 bits (825), Expect = 1e-86, Method: Compositional matrix adjust.
Identities = 158/186 (84%), Positives = 167/186 (89%), Gaps = 8/186 (4%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
+NL KGSMSTASS VSDQFP GLRVLVVDDDPTCL+ILEKML+TCLY+VT
Sbjct: 2 LNLGYCKGSMSTASSGG-------VSDQFPAGLRVLVVDDDPTCLVILEKMLRTCLYEVT 54
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LREN+NGYDIVISDVHMPDMDGFKLLE IGLEMDLPVIMMSADDGKNVV
Sbjct: 55 KCNRAEIALSLLRENRNGYDIVISDVHMPDMDGFKLLELIGLEMDLPVIMMSADDGKNVV 114
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQSEDAD 179
MKGVTHGACDYLIKP+RIEALKNIWQHVVRK+KNE KDLEQSGSVEE GDRQQ+QSEDAD
Sbjct: 115 MKGVTHGACDYLIKPIRIEALKNIWQHVVRKRKNEWKDLEQSGSVEEGGDRQQKQSEDAD 174
Query: 180 YSSSVN 185
YSSS N
Sbjct: 175 YSSSAN 180
>D7GN44_POPCA (tr|D7GN44) Putative B-type response regulator 13 OS=Populus
canadensis GN=rr13 PE=2 SV=1
Length = 670
Score = 306 bits (783), Expect = 8e-82, Method: Composition-based stats.
Identities = 152/177 (85%), Positives = 160/177 (90%), Gaps = 8/177 (4%)
Query: 10 MSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQAL 69
MSTASS VSDQFP GLRVLVVDDDPTCL+ILEKML+TCLY+VTKC RAE AL
Sbjct: 1 MSTASSGG-------VSDQFPAGLRVLVVDDDPTCLVILEKMLRTCLYEVTKCNRAEIAL 53
Query: 70 SMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGAC 129
S+LREN+NGYDIVISDVHMPDMDGFKLLE IGLEMDLPVIMMSADDGKNVVMKGVTHGAC
Sbjct: 54 SLLRENRNGYDIVISDVHMPDMDGFKLLELIGLEMDLPVIMMSADDGKNVVMKGVTHGAC 113
Query: 130 DYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQSEDADYSSSVN 185
DYLIKP+RIEALKNIWQHVVRK+KNE KDLEQSGSVEE GDR Q+QSEDADYSSS N
Sbjct: 114 DYLIKPIRIEALKNIWQHVVRKRKNEWKDLEQSGSVEEGGDRPQKQSEDADYSSSAN 170
>Q71BZ1_CATRO (tr|Q71BZ1) Type-B response regulator OS=Catharanthus roseus GN=RR5
PE=2 SV=1
Length = 643
Score = 305 bits (782), Expect = 1e-81, Method: Compositional matrix adjust.
Identities = 150/190 (78%), Positives = 164/190 (86%), Gaps = 5/190 (2%)
Query: 1 MNLSNGK--GSMSTASSSVAWKAG-DVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLY 57
MNL G+ SM+ SSS +WK+G D VSDQFP GLRVLVVDDDPTCL ILEKMLK CLY
Sbjct: 1 MNLGGGQLVKSMAVPSSSASWKSGGDGVSDQFPAGLRVLVVDDDPTCLRILEKMLKNCLY 60
Query: 58 KVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGK 117
+VTKC RAE AL +LR+N+NGYDIVISDVHMPDMDGFKLLE +GLEMDLPVIMMSADD K
Sbjct: 61 EVTKCNRAEIALKLLRDNRNGYDIVISDVHMPDMDGFKLLEQVGLEMDLPVIMMSADDSK 120
Query: 118 NVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEM--KDLEQSGSVEEGDRQQRQS 175
NVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRK K+E KD EQSGSVE+G+RQQ+ +
Sbjct: 121 NVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKGKHEWKEKDYEQSGSVEDGERQQKPN 180
Query: 176 EDADYSSSVN 185
ED DYSSS N
Sbjct: 181 EDVDYSSSAN 190
>Q680A8_ARATH (tr|Q680A8) ARR2 OS=Arabidopsis thaliana GN=ARR2 PE=2 SV=1
Length = 664
Score = 265 bits (678), Expect = 1e-69, Method: Compositional matrix adjust.
Identities = 136/191 (71%), Positives = 153/191 (80%), Gaps = 12/191 (6%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
+N +G+G S + AG SD FP LRVLVVDDDPTCLMILE+ML TCLY+VT
Sbjct: 2 VNPGHGRGPDSGTA------AGGSNSDPFPANLRVLVVDDDPTCLMILERMLMTCLYRVT 55
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LR+NKNG+DIVISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV
Sbjct: 56 KCNRAESALSLLRKNKNGFDIVISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVV 115
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQS-GSVEEG----DRQQRQS 175
+KGVTHGA DYLIKPVRIEALKNIWQHVVRKK+NE E S GS+E+ DRQQ+
Sbjct: 116 LKGVTHGAVDYLIKPVRIEALKNIWQHVVRKKRNEWNVSEHSGGSIEDTGGDRDRQQQHR 175
Query: 176 EDAD-YSSSVN 185
EDAD SSSVN
Sbjct: 176 EDADNNSSSVN 186
>C3PTB4_ARATH (tr|C3PTB4) ARR2 OS=Arabidopsis thaliana GN=ARR2 PE=2 SV=1
Length = 664
Score = 264 bits (675), Expect = 3e-69, Method: Compositional matrix adjust.
Identities = 136/191 (71%), Positives = 153/191 (80%), Gaps = 12/191 (6%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
+N +G+G S + AG SD FP LRVLVVDDDPTCLMILE+ML TCLY+VT
Sbjct: 2 VNPGHGRGPDSGTA------AGGSNSDPFPANLRVLVVDDDPTCLMILERMLMTCLYRVT 55
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LR+NKNG+DIVISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV
Sbjct: 56 KCNRAEIALSLLRKNKNGFDIVISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVV 115
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQS-GSVEEG----DRQQRQS 175
+KGVTHGA DYLIKPVRIEALKNIWQHVVRKK+NE E S GS+E+ DRQQ+
Sbjct: 116 LKGVTHGAVDYLIKPVRIEALKNIWQHVVRKKRNEWNVSEHSGGSIEDTGGDRDRQQQHR 175
Query: 176 EDAD-YSSSVN 185
EDAD SSSVN
Sbjct: 176 EDADNNSSSVN 186
>D7MA81_ARALY (tr|D7MA81) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_915160 PE=4 SV=1
Length = 676
Score = 264 bits (675), Expect = 3e-69, Method: Compositional matrix adjust.
Identities = 133/188 (70%), Positives = 152/188 (80%), Gaps = 11/188 (5%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
+N +G+G S + AG SD FP LRVLVVDDDPTCLMILE+ML TCLY+VT
Sbjct: 2 INPGHGRGPDSGTT------AGGSNSDPFPANLRVLVVDDDPTCLMILERMLMTCLYRVT 55
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LR+NKNG+DIVISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV
Sbjct: 56 KCNRAEIALSLLRKNKNGFDIVISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVV 115
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQS-GSVEEG----DRQQRQS 175
+KGVTHGA DYLIKPVRIEALKNIWQHVVRKK+N+ E S GS+E+ DRQQ+Q
Sbjct: 116 LKGVTHGAVDYLIKPVRIEALKNIWQHVVRKKRNDWNVSEHSGGSIEDTGGDRDRQQQQR 175
Query: 176 EDADYSSS 183
EDAD +SS
Sbjct: 176 EDADNNSS 183
>B9DFS4_ARATH (tr|B9DFS4) AT3G16857 protein OS=Arabidopsis thaliana GN=At3g16857
PE=2 SV=1
Length = 669
Score = 263 bits (672), Expect = 6e-69, Method: Compositional matrix adjust.
Identities = 129/180 (71%), Positives = 149/180 (82%), Gaps = 15/180 (8%)
Query: 21 AGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYD 80
G+ V + FP GLRVLVVDDDPTCLMILE+ML+TCLY+VTKC RAE ALS+LR+NK+G+D
Sbjct: 25 GGETVVEMFPSGLRVLVVDDDPTCLMILERMLRTCLYEVTKCNRAEMALSLLRKNKHGFD 84
Query: 81 IVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEA 140
IVISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV+KGVTHGA DYLIKPVR+EA
Sbjct: 85 IVISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVVLKGVTHGAVDYLIKPVRMEA 144
Query: 141 LKNIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQ------------SEDA--DYSSSVN 185
LKNIWQHVVRK+++E E SGS+EE G+RQQ+Q EDA D SSSVN
Sbjct: 145 LKNIWQHVVRKRRSEWSVPEHSGSIEETGERQQQQHRGGGGGAAVSGGEDAVDDNSSSVN 204
>Q15FC8_STRAF (tr|Q15FC8) SRR384 OS=Striga asiatica PE=2 SV=1
Length = 569
Score = 263 bits (671), Expect = 9e-69, Method: Compositional matrix adjust.
Identities = 133/187 (71%), Positives = 151/187 (80%), Gaps = 9/187 (4%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
MNL G MS AS + WK+G+ +SDQFP GLRVLVVDDDPTCL ILEKMLK CLY+VT
Sbjct: 1 MNL--GVTPMSFASVNALWKSGNGLSDQFPAGLRVLVVDDDPTCLRILEKMLKNCLYEVT 58
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
C RA AL LR+ +N YDIVISDVHMPDMDGFKLLE++GLEMDLPV MMSADD KNVV
Sbjct: 59 TCNRAGIALKFLRDKRNVYDIVISDVHMPDMDGFKLLEHVGLEMDLPVTMMSADDSKNVV 118
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEM--KDLEQS-GSVEEGDRQQRQSED 177
MKGVTHGACDYLIKP+R+EALKNIWQH+VRK+++E KDL+Q GSV+E Q+ ED
Sbjct: 119 MKGVTHGACDYLIKPIRMEALKNIWQHLVRKRQHEWKEKDLDQHLGSVDE----QKLPED 174
Query: 178 ADYSSSV 184
DYS SV
Sbjct: 175 LDYSLSV 181
>Q67YH9_ARATH (tr|Q67YH9) Putative ARR1 protein OS=Arabidopsis thaliana
GN=At3g16857 PE=2 SV=1
Length = 690
Score = 262 bits (670), Expect = 9e-69, Method: Compositional matrix adjust.
Identities = 129/180 (71%), Positives = 149/180 (82%), Gaps = 15/180 (8%)
Query: 21 AGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYD 80
G+ V + FP GLRVLVVDDDPTCLMILE+ML+TCLY+VTKC RAE ALS+LR+NK+G+D
Sbjct: 25 GGETVVEMFPSGLRVLVVDDDPTCLMILERMLRTCLYEVTKCNRAEMALSLLRKNKHGFD 84
Query: 81 IVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEA 140
IVISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV+KGVTHGA DYLIKPVR+EA
Sbjct: 85 IVISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVVLKGVTHGAVDYLIKPVRMEA 144
Query: 141 LKNIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQ------------SEDA--DYSSSVN 185
LKNIWQHVVRK+++E E SGS+EE G+RQQ+Q EDA D SSSVN
Sbjct: 145 LKNIWQHVVRKRRSEWSVPEHSGSIEETGERQQQQHRGGGGGAAVSGGEDAVDDNSSSVN 204
>Q682I9_ARATH (tr|Q682I9) Putative uncharacterized protein At4g16110
OS=Arabidopsis thaliana GN=At4g16110 PE=2 SV=1
Length = 664
Score = 262 bits (670), Expect = 1e-68, Method: Compositional matrix adjust.
Identities = 135/191 (70%), Positives = 152/191 (79%), Gaps = 12/191 (6%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
+N +G+G S + AG SD FP LRVLVVD DPTCLMILE+ML TCLY+VT
Sbjct: 2 VNPGHGRGPDSGTA------AGGSNSDPFPANLRVLVVDGDPTCLMILERMLMTCLYRVT 55
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC RAE ALS+LR+NKNG+DIVISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV
Sbjct: 56 KCNRAESALSLLRKNKNGFDIVISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVV 115
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQS-GSVEEG----DRQQRQS 175
+KGVTHGA DYLIKPVRIEALKNIWQHVVRKK+NE E S GS+E+ DRQQ+
Sbjct: 116 LKGVTHGAVDYLIKPVRIEALKNIWQHVVRKKRNEWNVSEHSGGSIEDTGGDRDRQQQHR 175
Query: 176 EDAD-YSSSVN 185
EDAD SSSVN
Sbjct: 176 EDADNNSSSVN 186
>D7L683_ARALY (tr|D7L683) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_479152 PE=4 SV=1
Length = 687
Score = 260 bits (665), Expect = 4e-68, Method: Compositional matrix adjust.
Identities = 128/178 (71%), Positives = 148/178 (83%), Gaps = 15/178 (8%)
Query: 23 DVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIV 82
+ V + FP GLRVLVVDDDPTCLMILE+ML+TCLY+VTKC RAE ALS+LR+NK+G+DIV
Sbjct: 25 ETVVEMFPSGLRVLVVDDDPTCLMILERMLRTCLYEVTKCNRAEMALSLLRKNKHGFDIV 84
Query: 83 ISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALK 142
ISDVHMPDMDGFKLLE++GLEMDLPVIMMSADD K+VV+KGVTHGA DYLIKPVR+EALK
Sbjct: 85 ISDVHMPDMDGFKLLEHVGLEMDLPVIMMSADDSKSVVLKGVTHGAVDYLIKPVRMEALK 144
Query: 143 NIWQHVVRKKKNEMKDLEQSGSVEE-GDRQQRQ------------SEDA--DYSSSVN 185
NIWQHVVRK+++E E SGS+EE G+RQQ+Q EDA D SSSVN
Sbjct: 145 NIWQHVVRKRRSEWSVPEHSGSIEETGERQQQQHRGGGGGAAVSGGEDAVDDNSSSVN 202
>B9T4M7_RICCO (tr|B9T4M7) Two-component sensor histidine kinase bacteria,
putative OS=Ricinus communis GN=RCOM_0053570 PE=4 SV=1
Length = 669
Score = 249 bits (637), Expect = 7e-65, Method: Compositional matrix adjust.
Identities = 121/185 (65%), Positives = 151/185 (81%), Gaps = 7/185 (3%)
Query: 2 NLSNGKGS-MSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
N S+ KG+ + TA++ VA VSDQFP GLRVLVVDDD TCL ILE+ML+ CLY VT
Sbjct: 17 NYSSCKGNGVVTATADVA------VSDQFPAGLRVLVVDDDTTCLRILEQMLRRCLYHVT 70
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
C++A+ AL++LRE K +D+V+SDVHMPDMDGFKLLE++GLEMDLPVIMMSAD + V
Sbjct: 71 TCSQAKVALNLLRERKGCFDVVLSDVHMPDMDGFKLLEHVGLEMDLPVIMMSADGRTSAV 130
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADY 180
M+G+ HGACDYLIKP+R E LKNIWQHVVRKK +E K++E SGS+E+ DR +R +EDA+Y
Sbjct: 131 MRGIRHGACDYLIKPIREEELKNIWQHVVRKKWHENKEIEHSGSLEDNDRHKRGNEDAEY 190
Query: 181 SSSVN 185
+SSVN
Sbjct: 191 TSSVN 195
>D7T8K3_VITVI (tr|D7T8K3) Whole genome shotgun sequence of line PN40024,
scaffold_11.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00011650001 PE=4 SV=1
Length = 428
Score = 248 bits (632), Expect = 3e-64, Method: Compositional matrix adjust.
Identities = 118/175 (67%), Positives = 143/175 (81%)
Query: 11 STASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALS 70
S+ ++ + KA VVSDQFP GLRVLVVDDD TCL ILE+ML+ CLY VT C++A AL+
Sbjct: 11 SSGGTNGSCKADVVVSDQFPAGLRVLVVDDDVTCLKILEQMLRRCLYHVTTCSQATIALN 70
Query: 71 MLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACD 130
+LRE K +DIV+SDVHMPDMDG+KLLE++GLEMDLPVIMMSAD + VM+G+ HGACD
Sbjct: 71 ILREKKGCFDIVLSDVHMPDMDGYKLLEHVGLEMDLPVIMMSADGRTSAVMRGIRHGACD 130
Query: 131 YLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
YLIKP+R E LKNIWQHVVRKK NE K+ E SGS+E+ DR +R EDA+Y+SSVN
Sbjct: 131 YLIKPIREEELKNIWQHVVRKKWNENKEHEHSGSLEDNDRHKRGGEDAEYASSVN 185
>C5WSM4_SORBI (tr|C5WSM4) Putative uncharacterized protein Sb01g042400 OS=Sorghum
bicolor GN=Sb01g042400 PE=4 SV=1
Length = 686
Score = 241 bits (615), Expect = 2e-62, Method: Compositional matrix adjust.
Identities = 106/165 (64%), Positives = 135/165 (81%)
Query: 21 AGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYD 80
A + +FP+G++VLVVDDDPTCL++L++ML C Y VT C +A +AL+MLREN+ G+D
Sbjct: 3 AAEARGGEFPVGMKVLVVDDDPTCLLVLKRMLLDCRYDVTTCPQATRALTMLRENRRGFD 62
Query: 81 IVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEA 140
++ISDVHMPDMDGF+LLE +GLEMDLPVIMMSAD ++VMKG+ HGACDYLIKPVR+E
Sbjct: 63 VIISDVHMPDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMKGIKHGACDYLIKPVRMEE 122
Query: 141 LKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
LKNIWQHVVRKK NE KD E SGS+++ DR + + D +Y+SS N
Sbjct: 123 LKNIWQHVVRKKFNENKDHEHSGSLDDTDRNRPTNNDNEYASSAN 167
>Q9AV93_MAIZE (tr|Q9AV93) Response regulator 8 OS=Zea mays GN=ZmRR8 PE=2 SV=1
Length = 684
Score = 237 bits (604), Expect = 5e-61, Method: Compositional matrix adjust.
Identities = 104/157 (66%), Positives = 131/157 (83%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP+G++VLVVDDDPTCL++L++ML C Y VT C +A +AL+MLREN+ G+D++ISDVHM
Sbjct: 11 FPVGMKVLVVDDDPTCLVVLKRMLLECRYDVTTCPQATRALTMLRENRRGFDVIISDVHM 70
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGF+LLE +GLEMDLPVIMMSAD ++VMKG+ HGACDYLIKPVR+E LKNIWQHV
Sbjct: 71 PDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMKGIKHGACDYLIKPVRMEELKNIWQHV 130
Query: 149 VRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
VRKK N KD E SGS+++ DR + + D +Y+SS N
Sbjct: 131 VRKKFNGNKDHEHSGSLDDTDRNRPTNNDNEYASSAN 167
>Q8H7S7_ORYSJ (tr|Q8H7S7) B-type response regulator OS=Oryza sativa subsp.
japonica GN=OSJNBa0081P02.4 PE=2 SV=1
Length = 691
Score = 236 bits (602), Expect = 9e-61, Method: Compositional matrix adjust.
Identities = 102/158 (64%), Positives = 132/158 (83%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP+G++VLVVDDDPTCL +L++ML C Y T C++A +AL+MLREN+ G+D++ISDVH
Sbjct: 11 EFPVGMKVLVVDDDPTCLAVLKRMLLECRYDATTCSQATRALTMLRENRRGFDVIISDVH 70
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGF+LLE +GLEMDLPVIMMSAD ++VMKG+ HGACDYLIKPVR+E LKNIWQH
Sbjct: 71 MPDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMKGIKHGACDYLIKPVRMEELKNIWQH 130
Query: 148 VVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
V+RKK NE K+ E SGS+++ DR + + D +Y+SS N
Sbjct: 131 VIRKKFNENKEHEHSGSLDDTDRTRPTNNDNEYASSAN 168
>A2XE31_ORYSI (tr|A2XE31) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_10579 PE=4 SV=1
Length = 691
Score = 236 bits (602), Expect = 9e-61, Method: Compositional matrix adjust.
Identities = 102/158 (64%), Positives = 132/158 (83%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP+G++VLVVDDDPTCL +L++ML C Y T C++A +AL+MLREN+ G+D++ISDVH
Sbjct: 11 EFPVGMKVLVVDDDPTCLAVLKRMLLECRYDATTCSQATRALTMLRENRRGFDVIISDVH 70
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGF+LLE +GLEMDLPVIMMSAD ++VMKG+ HGACDYLIKPVR+E LKNIWQH
Sbjct: 71 MPDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMKGIKHGACDYLIKPVRMEELKNIWQH 130
Query: 148 VVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
V+RKK NE K+ E SGS+++ DR + + D +Y+SS N
Sbjct: 131 VIRKKFNENKEHEHSGSLDDTDRTRPTNNDNEYASSAN 168
>Q948L2_MAIZE (tr|Q948L2) Response regulator 10 OS=Zea mays GN=ZmRR10 PE=2 SV=1
Length = 686
Score = 235 bits (600), Expect = 1e-60, Method: Composition-based stats.
Identities = 105/165 (63%), Positives = 134/165 (81%)
Query: 21 AGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYD 80
A + +FP+G++VLVVDDDPTCL++L++ML C Y VT C +A +AL+MLREN+ G+D
Sbjct: 3 AAEARGGEFPVGMKVLVVDDDPTCLVVLKRMLLECRYDVTTCPQATRALTMLRENRRGFD 62
Query: 81 IVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEA 140
++ISDVHMPDMDGF+LLE +GLEMDLPVIMMSAD ++VM GV HGACDYLIKPVR+E
Sbjct: 63 VIISDVHMPDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMNGVKHGACDYLIKPVRMEE 122
Query: 141 LKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
LKNIWQHV+RKK NE KD E SGS+++ DR + + D +Y+SS N
Sbjct: 123 LKNIWQHVIRKKFNENKDHEHSGSLDDTDRNRPTNNDNEYASSAN 167
>D7GN45_POPCA (tr|D7GN45) Putative B-type response regulator 15 OS=Populus
canadensis GN=rr15 PE=2 SV=1
Length = 671
Score = 235 bits (599), Expect = 2e-60, Method: Compositional matrix adjust.
Identities = 114/177 (64%), Positives = 136/177 (76%), Gaps = 1/177 (0%)
Query: 9 SMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQA 68
S ST S A +VSDQFP GLRVLVVDDD TCL +LEKM + CLY VT C++A A
Sbjct: 14 SASTYGSCKGAGADVIVSDQFPAGLRVLVVDDDITCLRLLEKMPRRCLYHVTTCSQATAA 73
Query: 69 LSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGA 128
L +LRE K +D+V+SDVHMPDMDGFKLLE +GLEMDLPVIMMSAD + VM+G++HGA
Sbjct: 74 LKLLRERKGCFDVVLSDVHMPDMDGFKLLELVGLEMDLPVIMMSADGRTSAVMRGISHGA 133
Query: 129 CDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
CDYLIKP+R E LKNIWQHV+RKK NE K+ E SGS E+ DR +R DA+ +SSV+
Sbjct: 134 CDYLIKPIREEELKNIWQHVIRKKWNENKEQEHSGSFEDNDRHKR-GNDAENASSVS 189
>C0HE02_MAIZE (tr|C0HE02) Putative uncharacterized protein OS=Zea mays PE=2 SV=1
Length = 686
Score = 234 bits (597), Expect = 3e-60, Method: Composition-based stats.
Identities = 103/158 (65%), Positives = 132/158 (83%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP+G++VLVVDDDPTCL++L++ML C Y VT C +A +AL+MLREN+ G+D++ISDVH
Sbjct: 10 EFPVGMKVLVVDDDPTCLVVLKRMLLECRYDVTTCPQATRALTMLRENRRGFDVIISDVH 69
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGF+LLE +GLEMDLPVIMMSAD ++VM G+ HGACDYLIKPVR+E LKNIWQH
Sbjct: 70 MPDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMNGIKHGACDYLIKPVRMEELKNIWQH 129
Query: 148 VVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
V+RKK NE KD E SGS+++ DR + + D +Y+SS N
Sbjct: 130 VIRKKFNENKDHEHSGSLDDTDRNRPTNNDNEYASSAN 167
>B9HJH2_POPTR (tr|B9HJH2) Type-b response regulator (Fragment) OS=Populus
trichocarpa GN=POPTRDRAFT_419669 PE=4 SV=1
Length = 303
Score = 232 bits (592), Expect = 1e-59, Method: Compositional matrix adjust.
Identities = 110/161 (68%), Positives = 131/161 (81%), Gaps = 1/161 (0%)
Query: 25 VSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVIS 84
VSDQFP GLRVLVVDDD TCL +LEKML+ CLY VT C++A AL +LRE K +D+V+S
Sbjct: 1 VSDQFPAGLRVLVVDDDITCLRLLEKMLRRCLYHVTTCSQATAALKLLRERKGCFDVVLS 60
Query: 85 DVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
DVHMPDMDGFKLLE +GLEMDLPVIMMSAD + VM+G++HGACDYLIKP+R E LKNI
Sbjct: 61 DVHMPDMDGFKLLELVGLEMDLPVIMMSADGRTSAVMRGISHGACDYLIKPIREEELKNI 120
Query: 145 WQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
WQHV+RKK NE K+ E SGS E+ DR +R DA+ +SSV+
Sbjct: 121 WQHVIRKKWNENKEQEHSGSFEDNDRHKR-GNDAENASSVS 160
>B9HVU5_POPTR (tr|B9HVU5) Type-b response regulator OS=Populus trichocarpa
GN=PtRR16 PE=4 SV=1
Length = 663
Score = 230 bits (587), Expect = 5e-59, Method: Compositional matrix adjust.
Identities = 108/162 (66%), Positives = 129/162 (79%)
Query: 24 VVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVI 83
+ SDQFP GLRVLVVDDD TCL +LEKML CLY VT C++A AL +LRE K +D+V+
Sbjct: 29 MFSDQFPAGLRVLVVDDDITCLRLLEKMLCRCLYNVTTCSQATAALKLLRERKGCFDVVL 88
Query: 84 SDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
SDVHMPDMDGFKLLE +GLEMDLPVIMMSAD + VM+G+ HGACDYLIKP+R E LKN
Sbjct: 89 SDVHMPDMDGFKLLELVGLEMDLPVIMMSADGRTSAVMRGIRHGACDYLIKPIREEELKN 148
Query: 144 IWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
IWQHV+RKK NE K+ E SGS E+ D +R ++D + +SSVN
Sbjct: 149 IWQHVIRKKWNENKEQEHSGSFEDNDWYKRGNDDTENASSVN 190
>D7GN46_POPCA (tr|D7GN46) Putative B-type response regulator 16 OS=Populus
canadensis GN=rr16 PE=2 SV=1
Length = 663
Score = 230 bits (586), Expect = 5e-59, Method: Compositional matrix adjust.
Identities = 108/162 (66%), Positives = 129/162 (79%)
Query: 24 VVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVI 83
+ SDQFP GLRVLVVDDD TCL +LEKML CLY VT C++A AL +LRE K +D+V+
Sbjct: 29 MFSDQFPAGLRVLVVDDDITCLRLLEKMLCRCLYNVTTCSQATAALKLLRERKGCFDVVL 88
Query: 84 SDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
SDVHMPDMDGFKLLE +GLEMDLPVIMMSAD + VM+G+ HGACDYLIKP+R E LKN
Sbjct: 89 SDVHMPDMDGFKLLELVGLEMDLPVIMMSADGRTSAVMRGIKHGACDYLIKPIREEELKN 148
Query: 144 IWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
IWQHV+RKK NE K+ E SGS E+ D +R ++D + +SSVN
Sbjct: 149 IWQHVIRKKWNENKEQEHSGSFEDNDWYKRGNDDTENASSVN 190
>B9SAX2_RICCO (tr|B9SAX2) Two-component sensor histidine kinase bacteria,
putative OS=Ricinus communis GN=RCOM_1180150 PE=4 SV=1
Length = 473
Score = 223 bits (567), Expect = 1e-56, Method: Compositional matrix adjust.
Identities = 110/167 (65%), Positives = 128/167 (76%), Gaps = 1/167 (0%)
Query: 2 NLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTK 61
N N KG SS K D VS++FP GLRVLVVDDD TCL+ILEKML+ CLYKVTK
Sbjct: 4 NNDNNKGKAIIQGSSSLEKTSDCVSNEFPAGLRVLVVDDDRTCLLILEKMLRNCLYKVTK 63
Query: 62 CTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVM 121
C +A+ ALSMLRE+KN +DIV+ D+HMPDMDGF+LLE EM LPV+MMS+DD V+
Sbjct: 64 CRKAKDALSMLREDKNKFDIVVIDLHMPDMDGFELLEIAEFEMGLPVVMMSSDDDHEVIK 123
Query: 122 KGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKD-LEQSGSVEE 167
KGV HGACDYLIKPVR+EALK IWQHV+RKKKN KD LEQ +E+
Sbjct: 124 KGVLHGACDYLIKPVRMEALKMIWQHVIRKKKNTAKDELEQLIGLED 170
>B9RNX8_RICCO (tr|B9RNX8) Two-component system sensor histidine kinase/response
regulator, putative OS=Ricinus communis GN=RCOM_0922020
PE=4 SV=1
Length = 663
Score = 214 bits (545), Expect = 4e-54, Method: Compositional matrix adjust.
Identities = 103/170 (60%), Positives = 126/170 (74%), Gaps = 4/170 (2%)
Query: 16 SVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLREN 75
+V AG+ DQFPIG+RVL VDDDPTCL++LE L+ C Y VT ++A AL MLREN
Sbjct: 2 TVEQGAGEA-KDQFPIGMRVLAVDDDPTCLLVLETFLRRCQYHVTTTSQAISALKMLREN 60
Query: 76 KNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKP 135
KN +D+VISDVHMPDMDGFKLLE +GLEMDLPVIM+SA +VMKG+THGACDYL+KP
Sbjct: 61 KNKFDLVISDVHMPDMDGFKLLELVGLEMDLPVIMLSAYSDPKLVMKGITHGACDYLLKP 120
Query: 136 VRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
VRIE LKNIWQHV+R+KK + KD + + D+ R S +A +N
Sbjct: 121 VRIEELKNIWQHVIRRKKVDNKD---QNNFDNQDKLPRGSGEATADQKLN 167
>D7TAK2_VITVI (tr|D7TAK2) Whole genome shotgun sequence of line PN40024,
scaffold_10.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00010300001 PE=4 SV=1
Length = 594
Score = 210 bits (535), Expect = 4e-53, Method: Compositional matrix adjust.
Identities = 101/154 (65%), Positives = 122/154 (79%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+D FP GLRVLVVDDDPT L ILEKMLK CLY+VT C A AL++LRE K+GYDIVISD
Sbjct: 10 TDVFPAGLRVLVVDDDPTWLKILEKMLKKCLYEVTICGLARDALNLLRERKDGYDIVISD 69
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
V+MPDMDGFKLLE +GLEMDLPVIMMS D + VMKGV HGACDYL+KP+R++ L+NIW
Sbjct: 70 VNMPDMDGFKLLELVGLEMDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELRNIW 129
Query: 146 QHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDAD 179
QHV RKK NE++D+E S+++ + E +D
Sbjct: 130 QHVFRKKINEVRDIESHESIDDFQIMRNGPEQSD 163
>A9TXP3_PHYPA (tr|A9TXP3) Predicted protein (Fragment) OS=Physcomitrella patens
subsp. patens GN=PHYPADRAFT_152341 PE=4 SV=1
Length = 268
Score = 209 bits (532), Expect = 1e-52, Method: Compositional matrix adjust.
Identities = 102/166 (61%), Positives = 128/166 (77%), Gaps = 10/166 (6%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
D+FP+G+RVLVVDDDPTCL++LE+ML C Y+VT C RA AL +LRE+ +D+VISDV
Sbjct: 6 DEFPVGMRVLVVDDDPTCLVLLERMLILCSYRVTTCGRATDALLLLREDIGKFDLVISDV 65
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
MPDMDGFKLLE +GLEMDLPVIMMS + + VM+GV HGACDYLIKPV I+ L+N+WQ
Sbjct: 66 DMPDMDGFKLLELVGLEMDLPVIMMSGNGETSAVMEGVIHGACDYLIKPVGIKELRNVWQ 125
Query: 147 HVVRKKKNE-----MKDLEQSGSVEEGDRQQRQ--SEDADYSSSVN 185
HVVRKK+ E MK +E++G E RQ+R ++DADY+SS
Sbjct: 126 HVVRKKRQEVKAVSMKSIEEAGGCE---RQKRAGGADDADYTSSAT 168
>D7U2E5_VITVI (tr|D7U2E5) Whole genome shotgun sequence of line PN40024,
scaffold_5.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00028069001 PE=4 SV=1
Length = 543
Score = 208 bits (529), Expect = 3e-52, Method: Compositional matrix adjust.
Identities = 95/185 (51%), Positives = 136/185 (73%), Gaps = 15/185 (8%)
Query: 1 MNLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVT 60
MN+ G+GSMS ++ V QFP G+RVL VDDD TCL I+ +ML+ C+YKVT
Sbjct: 1 MNVETGEGSMSVTAA---------VPLQFPEGIRVLAVDDDQTCLQIMGRMLERCMYKVT 51
Query: 61 KCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVV 120
KC AE+ALS+LRE+ + +DIV+SD+HMPD+ G KLLE IGLEMD+PV+MMS+D+ + +
Sbjct: 52 KCRNAEEALSLLREDSSRFDIVLSDLHMPDISGLKLLEIIGLEMDMPVVMMSSDEKRETI 111
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQS------GSVEEGDRQQRQ 174
MKG+ HGACDY +KPVR++A++ +WQHV+RK++N +K++E + G EEG R ++
Sbjct: 112 MKGIIHGACDYWVKPVRMDAIQLVWQHVIRKRRNGLKEMEHAMEDDVEGGNEEGSRSMKR 171
Query: 175 SEDAD 179
+D +
Sbjct: 172 KKDRE 176
>A9RHS9_PHYPA (tr|A9RHS9) Predicted protein OS=Physcomitrella patens subsp.
patens GN=PHYPADRAFT_114358 PE=4 SV=1
Length = 311
Score = 208 bits (529), Expect = 3e-52, Method: Compositional matrix adjust.
Identities = 100/163 (61%), Positives = 126/163 (77%), Gaps = 4/163 (2%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
D FP GLRVLVVDD+P LM+LEKML C Y+VT C RA AL +LRE+ + +D+VISDV
Sbjct: 44 DAFPAGLRVLVVDDEPVTLMVLEKMLTNCSYRVTTCGRATDALCLLREDIDKFDLVISDV 103
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
+MPDMDGFKLLE +GLEMDLPVIMMS + + VMKG+THGACDYL+KPVR + L+NIWQ
Sbjct: 104 NMPDMDGFKLLELVGLEMDLPVIMMSGNGETSAVMKGITHGACDYLLKPVRQKELRNIWQ 163
Query: 147 HVVRKKKNEMKDLEQSGSVEEGD---RQQRQ-SEDADYSSSVN 185
HVVRK++ ++K ++ SVEEG R++R +D DY+SS
Sbjct: 164 HVVRKRRQDVKIARETKSVEEGGVCVREKRTGPDDVDYTSSAT 206
>D7SSN8_VITVI (tr|D7SSN8) Whole genome shotgun sequence of line PN40024,
scaffold_206.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00003721001 PE=4 SV=1
Length = 655
Score = 208 bits (529), Expect = 3e-52, Method: Compositional matrix adjust.
Identities = 93/141 (65%), Positives = 114/141 (80%)
Query: 23 DVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIV 82
D V D FP+G+RVL VDDDPTCLM+L+ +L+ C Y+VT +A AL MLRENKN +D+V
Sbjct: 14 DGVKDPFPVGMRVLAVDDDPTCLMLLDGLLRRCQYQVTTTNQAITALKMLRENKNNFDLV 73
Query: 83 ISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALK 142
ISDV MPDMDGFKLLE +GLEMDLPVIM+S+ +VM+G+THGACDYL+KPVRIE LK
Sbjct: 74 ISDVSMPDMDGFKLLELVGLEMDLPVIMLSSHSDPKLVMRGITHGACDYLLKPVRIEELK 133
Query: 143 NIWQHVVRKKKNEMKDLEQSG 163
NIWQHV+R+KK + KD +S
Sbjct: 134 NIWQHVIRRKKIDSKDQNKSA 154
>B9RMP7_RICCO (tr|B9RMP7) Two-component sensor histidine kinase bacteria,
putative OS=Ricinus communis GN=RCOM_1082510 PE=4 SV=1
Length = 584
Score = 207 bits (528), Expect = 3e-52, Method: Compositional matrix adjust.
Identities = 97/135 (71%), Positives = 113/135 (83%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
SD FP GLRVLVVDDDPT L ILEKMLK C Y+VT C A AL +LRE K+GYDIVISD
Sbjct: 10 SDAFPAGLRVLVVDDDPTWLKILEKMLKKCSYEVTTCGLARDALYLLRERKDGYDIVISD 69
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
V+MPDMDGFKLLE++GLEMDLPVIMMS D + VMKGV HGACDYL+KP+R++ L+NIW
Sbjct: 70 VNMPDMDGFKLLEHVGLEMDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELRNIW 129
Query: 146 QHVVRKKKNEMKDLE 160
QHV RKK +E++D+E
Sbjct: 130 QHVFRKKIHEVRDIE 144
>D7GN50_POPCA (tr|D7GN50) Putative B-type response regulator 14 OS=Populus
canadensis GN=rr14 PE=2 SV=1
Length = 594
Score = 207 bits (526), Expect = 6e-52, Method: Compositional matrix adjust.
Identities = 98/141 (69%), Positives = 114/141 (80%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+D FP GLRVLVVDDDPT L ILEKMLK C Y+VT C A AL++LRE K GYDIVISD
Sbjct: 11 NDSFPAGLRVLVVDDDPTWLKILEKMLKKCSYEVTTCGLARDALNLLRERKGGYDIVISD 70
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
V+MPDMDGFKLLE +GLEMDLPVIMMS D + VMKGV HGACDYL+KP+R++ L+NIW
Sbjct: 71 VYMPDMDGFKLLEQVGLEMDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELRNIW 130
Query: 146 QHVVRKKKNEMKDLEQSGSVE 166
QHV RKK +E++D+E VE
Sbjct: 131 QHVFRKKIHEVRDIETLERVE 151
>B9SBZ1_RICCO (tr|B9SBZ1) Two-component system sensor histidine kinase/response
regulator, putative OS=Ricinus communis GN=RCOM_0700880
PE=4 SV=1
Length = 676
Score = 206 bits (525), Expect = 7e-52, Method: Compositional matrix adjust.
Identities = 93/136 (68%), Positives = 112/136 (82%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
D+FP+G+RVL VDDDP CL +L+ +LK C Y+VT +A QAL MLREN+N YD+VISDV
Sbjct: 12 DKFPVGMRVLAVDDDPICLKVLDTLLKKCQYQVTTTNQAIQALKMLRENRNKYDLVISDV 71
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
+MPDMDGFKLLE +GLEMDLPVIM+SA K +V KGVTHGA DYL+KPVRIE LKNIWQ
Sbjct: 72 NMPDMDGFKLLELVGLEMDLPVIMLSAHSDKELVYKGVTHGAVDYLLKPVRIEELKNIWQ 131
Query: 147 HVVRKKKNEMKDLEQS 162
HV+R+KK + KD +S
Sbjct: 132 HVIRRKKLQPKDQSRS 147
>D7SHB4_VITVI (tr|D7SHB4) Whole genome shotgun sequence of line PN40024,
scaffold_0.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00007550001 PE=4 SV=1
Length = 592
Score = 206 bits (523), Expect = 1e-51, Method: Compositional matrix adjust.
Identities = 101/154 (65%), Positives = 121/154 (78%), Gaps = 2/154 (1%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
++ FP GLRVLVVDDDPT L ILEKMLK C Y+VT C A AL+MLRE K+G+DIVISD
Sbjct: 10 TEAFPAGLRVLVVDDDPTWLKILEKMLKKCSYEVTTCCLARDALNMLRERKDGFDIVISD 69
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
V+MPDMDGFKLLE++GLEMDLPVIMMS D + VMKGV HGACDYL+KPVR++ LKNIW
Sbjct: 70 VNMPDMDGFKLLEHVGLEMDLPVIMMSVDGETSRVMKGVQHGACDYLLKPVRMKELKNIW 129
Query: 146 QHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDAD 179
QHV RKK +E KDL + + D + R+ +D +
Sbjct: 130 QHVFRKKIHEGKDL--GATRKRKDMENRRHDDQE 161
>D7GN48_POPCA (tr|D7GN48) Putative B-type response regulator 21 OS=Populus
canadensis GN=rr21 PE=2 SV=1
Length = 563
Score = 206 bits (523), Expect = 1e-51, Method: Compositional matrix adjust.
Identities = 96/135 (71%), Positives = 112/135 (82%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+D FP GLRVLVVDDDPT L ILEKMLK C Y+VT C A AL++LRE K GYDIVISD
Sbjct: 10 NDSFPAGLRVLVVDDDPTWLKILEKMLKRCSYEVTTCGLARDALNLLRERKGGYDIVISD 69
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
V MPDMDGFKLLE++GLEMDLPVIMMS D + VMKGV HGACDYL+KP+R++ L+NIW
Sbjct: 70 VFMPDMDGFKLLEHVGLEMDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELRNIW 129
Query: 146 QHVVRKKKNEMKDLE 160
QHV RKK +E++D+E
Sbjct: 130 QHVFRKKIHEVRDIE 144
>B9HTE3_POPTR (tr|B9HTE3) Type-b response regulator (Fragment) OS=Populus
trichocarpa GN=PtRR21 PE=4 SV=1
Length = 250
Score = 204 bits (520), Expect = 2e-51, Method: Compositional matrix adjust.
Identities = 97/141 (68%), Positives = 115/141 (81%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+D FP GLRVLVVDDDPT L ILEKMLK C Y+VT C A AL++LRE K GYDIVISD
Sbjct: 3 NDSFPAGLRVLVVDDDPTWLKILEKMLKRCSYEVTTCGLARDALNLLRERKGGYDIVISD 62
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
V+MPDMDGFKLLE++GLEMDLPVIMMS D + VMKGV HGACDYL+KP+R++ L+NIW
Sbjct: 63 VYMPDMDGFKLLEHVGLEMDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELRNIW 122
Query: 146 QHVVRKKKNEMKDLEQSGSVE 166
QHV RKK +E++D+E +E
Sbjct: 123 QHVFRKKIHEVRDIEILEGIE 143
>D7KVN1_ARALY (tr|D7KVN1) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_894522 PE=4 SV=1
Length = 529
Score = 203 bits (516), Expect = 8e-51, Method: Compositional matrix adjust.
Identities = 98/147 (66%), Positives = 116/147 (78%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P+GLRVLVVDDDPT L ILEKMLK C Y+VT C A +AL +LRE K+GYDIVISDV+MP
Sbjct: 8 PVGLRVLVVDDDPTWLKILEKMLKKCSYEVTTCGLAREALRLLRERKDGYDIVISDVNMP 67
Query: 90 DMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
DMDGFKLLE++GLE+DLPVIMMS D + VMKGV HGACDYL+KP+R++ LK IWQHV+
Sbjct: 68 DMDGFKLLEHVGLELDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELKIIWQHVL 127
Query: 150 RKKKNEMKDLEQSGSVEEGDRQQRQSE 176
RKK E++D+E G GD R E
Sbjct: 128 RKKLQEVRDIEGCGYEGGGDWITRYDE 154
>C5XWW5_SORBI (tr|C5XWW5) Putative uncharacterized protein Sb04g005580 OS=Sorghum
bicolor GN=Sb04g005580 PE=4 SV=1
Length = 631
Score = 203 bits (516), Expect = 8e-51, Method: Compositional matrix adjust.
Identities = 94/150 (62%), Positives = 113/150 (75%), Gaps = 4/150 (2%)
Query: 18 AWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKN 77
A G DQFP+G+RVL VDDDPTCL +LEK+L+ C Y VT +A AL +LRE K+
Sbjct: 13 ANGGGHGAKDQFPVGMRVLAVDDDPTCLKLLEKLLQHCQYHVTTTGQAATALKLLREKKD 72
Query: 78 GYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVR 137
+D+VISDVHMPDMDGFKLLE +GLEMDLPVIM+SA+ VMKG+THGACDYL+KPVR
Sbjct: 73 QFDLVISDVHMPDMDGFKLLELVGLEMDLPVIMLSANGETQTVMKGITHGACDYLLKPVR 132
Query: 138 IEALKNIWQHVVRKK----KNEMKDLEQSG 163
IE L+ IWQHVVR++ KN D + SG
Sbjct: 133 IEQLRTIWQHVVRRRSCDAKNNGNDNDDSG 162
>C5Z5H6_SORBI (tr|C5Z5H6) Putative uncharacterized protein Sb10g005580 OS=Sorghum
bicolor GN=Sb10g005580 PE=4 SV=1
Length = 659
Score = 201 bits (512), Expect = 2e-50, Method: Compositional matrix adjust.
Identities = 91/136 (66%), Positives = 109/136 (80%), Gaps = 2/136 (1%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDP CL +LE +L+ C Y VT +A AL MLREN++ YD+VISDV
Sbjct: 14 DQFPVGMRVLAVDDDPVCLKVLETLLRRCQYHVTTTNQAITALKMLRENRDTYDLVISDV 73
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+S + VMKG+THGACDYL+KPVRIE L+NIWQ
Sbjct: 74 HMPDMDGFKLLELVGLEMDLPVIMLSVNGETKSVMKGITHGACDYLLKPVRIEELRNIWQ 133
Query: 147 HVVRKK--KNEMKDLE 160
HVVR+K K E +L+
Sbjct: 134 HVVRRKFSKRERSNLD 149
>C6T9N0_SOYBN (tr|C6T9N0) Putative uncharacterized protein (Fragment) OS=Glycine
max PE=2 SV=1
Length = 220
Score = 201 bits (510), Expect = 4e-50, Method: Compositional matrix adjust.
Identities = 90/142 (63%), Positives = 115/142 (80%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
D+FP+G+RVL VDDDP CL +LE +L+ C Y VT +A +AL+MLREN+N +D+VISDV
Sbjct: 13 DRFPVGMRVLAVDDDPICLKVLENLLRKCQYHVTTTNQAVEALTMLRENRNKFDLVISDV 72
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
+MPD+DGFKLLE +GLEMDLPVIM+SA +VMKGVTHGACDYL+KPVRIE LKNIWQ
Sbjct: 73 NMPDIDGFKLLELVGLEMDLPVIMLSAHGDTKLVMKGVTHGACDYLLKPVRIEELKNIWQ 132
Query: 147 HVVRKKKNEMKDLEQSGSVEEG 168
HVVR+K + +D ++ + E+
Sbjct: 133 HVVRRKNFDSRDQNKASNEEKA 154
>A1A6A7_ORYSJ (tr|A1A6A7) Putative uncharacterized protein OS=Oryza sativa subsp.
japonica GN=ORR6 PE=4 SV=1
Length = 582
Score = 201 bits (510), Expect = 4e-50, Method: Compositional matrix adjust.
Identities = 96/139 (69%), Positives = 114/139 (82%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLRVLVVDDDPT L ILEKML+ C Y+VT C A AL +LRE KN +DIVISDV+M
Sbjct: 6 FPYGLRVLVVDDDPTWLKILEKMLRKCSYEVTTCGLARVALDILRERKNKFDIVISDVNM 65
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE+IGLEMDLPVIMMS D + VMKGV HGACDYL+KPVR++ L+NIWQHV
Sbjct: 66 PDMDGFKLLEHIGLEMDLPVIMMSIDGETSRVMKGVQHGACDYLLKPVRMKELRNIWQHV 125
Query: 149 VRKKKNEMKDLEQSGSVEE 167
RKK +E+K++E + S ++
Sbjct: 126 YRKKMHEVKEIEGNDSCDD 144
>Q5N6V8_ORYSJ (tr|Q5N6V8) Putative response regulator 11 OS=Oryza sativa subsp.
japonica GN=OSJNOa013M08.3 PE=4 SV=1
Length = 586
Score = 201 bits (510), Expect = 4e-50, Method: Compositional matrix adjust.
Identities = 96/139 (69%), Positives = 114/139 (82%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLRVLVVDDDPT L ILEKML+ C Y+VT C A AL +LRE KN +DIVISDV+M
Sbjct: 6 FPYGLRVLVVDDDPTWLKILEKMLRKCSYEVTTCGLARVALDILRERKNKFDIVISDVNM 65
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE+IGLEMDLPVIMMS D + VMKGV HGACDYL+KPVR++ L+NIWQHV
Sbjct: 66 PDMDGFKLLEHIGLEMDLPVIMMSIDGETSRVMKGVQHGACDYLLKPVRMKELRNIWQHV 125
Query: 149 VRKKKNEMKDLEQSGSVEE 167
RKK +E+K++E + S ++
Sbjct: 126 YRKKMHEVKEIEGNDSCDD 144
>B8A7T0_ORYSI (tr|B8A7T0) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_04831 PE=4 SV=1
Length = 582
Score = 200 bits (509), Expect = 4e-50, Method: Compositional matrix adjust.
Identities = 96/139 (69%), Positives = 114/139 (82%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLRVLVVDDDPT L ILEKML+ C Y+VT C A AL +LRE KN +DIVISDV+M
Sbjct: 6 FPYGLRVLVVDDDPTWLKILEKMLRKCSYEVTTCGLARVALDILRERKNKFDIVISDVNM 65
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE+IGLEMDLPVIMMS D + VMKGV HGACDYL+KPVR++ L+NIWQHV
Sbjct: 66 PDMDGFKLLEHIGLEMDLPVIMMSIDGETSRVMKGVQHGACDYLLKPVRMKELRNIWQHV 125
Query: 149 VRKKKNEMKDLEQSGSVEE 167
RKK +E+K++E + S ++
Sbjct: 126 YRKKMHEVKEIEGNDSCDD 144
>Q0WRT0_ARATH (tr|Q0WRT0) Response regulator 11 OS=Arabidopsis thaliana
GN=At1g67710 PE=2 SV=1
Length = 521
Score = 200 bits (509), Expect = 5e-50, Method: Compositional matrix adjust.
Identities = 94/134 (70%), Positives = 112/134 (83%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P+GLRVLVVDDDPT L ILEKMLK C Y+VT C A +AL +LRE K+GYDIVISDV+MP
Sbjct: 8 PVGLRVLVVDDDPTWLKILEKMLKKCSYEVTTCGLAREALRLLRERKDGYDIVISDVNMP 67
Query: 90 DMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
DMDGFKLLE++GLE+DLPVIMMS D + VMKGV HGACDYL+KP+R++ LK IWQHV+
Sbjct: 68 DMDGFKLLEHVGLELDLPVIMMSVDGETSRVMKGVQHGACDYLLKPIRMKELKIIWQHVL 127
Query: 150 RKKKNEMKDLEQSG 163
RKK E++D+E G
Sbjct: 128 RKKLQEVRDIEGCG 141
>A5AD81_VITVI (tr|A5AD81) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_005486 PE=4 SV=1
Length = 706
Score = 199 bits (507), Expect = 9e-50, Method: Compositional matrix adjust.
Identities = 99/186 (53%), Positives = 125/186 (67%), Gaps = 23/186 (12%)
Query: 23 DVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYK----------------VTKCTRAE 66
D V D FP+G+RVL VDDDPTCLM+L+ +L+ C Y+ VT +A
Sbjct: 14 DGVKDPFPVGMRVLAVDDDPTCLMLLDGLLRRCQYQGLVLLCFARLLLYMNFVTTTNQAI 73
Query: 67 QALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTH 126
AL MLRENKN +D+VISDV MPDMDGFKLLE +GLEMDLPVIM+S+ + +VM+G+TH
Sbjct: 74 TALKMLRENKNNFDLVISDVSMPDMDGFKLLELVGLEMDLPVIMLSSHSDQKLVMRGITH 133
Query: 127 GACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVE-------EGDRQQRQSEDAD 179
GACDYL+KPVRIE LKNIWQHV+R+KK + KD +S + EG S +AD
Sbjct: 134 GACDYLLKPVRIEELKNIWQHVIRRKKIDSKDQNKSADQDNALHADGEGGEGPPSSSNAD 193
Query: 180 YSSSVN 185
+ +N
Sbjct: 194 QNGKLN 199
>C5XUH1_SORBI (tr|C5XUH1) Putative uncharacterized protein Sb04g035980 OS=Sorghum
bicolor GN=Sb04g035980 PE=4 SV=1
Length = 675
Score = 199 bits (506), Expect = 1e-49, Method: Compositional matrix adjust.
Identities = 86/128 (67%), Positives = 106/128 (82%)
Query: 25 VSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVIS 84
V DQFP+G+RVL VDDDP CL +LE +L+ C Y+VT +A AL MLR+N++ +D+VIS
Sbjct: 13 VRDQFPVGMRVLAVDDDPVCLKVLENLLRRCQYRVTTTNQAVVALRMLRQNRDLFDLVIS 72
Query: 85 DVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
DVHMPDMDGFKLLE +GLEMDLPVIM+S + VMKG+THGACDYL+KPVR+E L+NI
Sbjct: 73 DVHMPDMDGFKLLELVGLEMDLPVIMLSVNGETKTVMKGITHGACDYLLKPVRLEELRNI 132
Query: 145 WQHVVRKK 152
WQHVVR+K
Sbjct: 133 WQHVVRRK 140
>C5XFH1_SORBI (tr|C5XFH1) Putative uncharacterized protein Sb03g043080 OS=Sorghum
bicolor GN=Sb03g043080 PE=4 SV=1
Length = 579
Score = 198 bits (504), Expect = 2e-49, Method: Compositional matrix adjust.
Identities = 95/139 (68%), Positives = 113/139 (81%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLRVLVVDDDPT L ILEKML+ C Y+VT C A AL +LRE +N +DIVISDV+M
Sbjct: 9 FPYGLRVLVVDDDPTWLKILEKMLRKCSYEVTTCGLASVALQILRERRNKFDIVISDVNM 68
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE IGLEMDLPVIMMS D + VMKGV HGACDYL+KPVR++ L+NIWQHV
Sbjct: 69 PDMDGFKLLELIGLEMDLPVIMMSIDGETSRVMKGVQHGACDYLLKPVRMKELRNIWQHV 128
Query: 149 VRKKKNEMKDLEQSGSVEE 167
RKK +E+K++E + S ++
Sbjct: 129 YRKKMHEVKEIEGNDSCDD 147
>Q15FC9_STRAF (tr|Q15FC9) SRR391 OS=Striga asiatica PE=2 SV=1
Length = 541
Score = 198 bits (503), Expect = 2e-49, Method: Compositional matrix adjust.
Identities = 88/140 (62%), Positives = 113/140 (80%), Gaps = 4/140 (2%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
+ FP+G+RVL VDDDP CL +L+ +L+ C Y V+ ++A AL MLRENK+ +D+VISDV
Sbjct: 14 ENFPVGMRVLAVDDDPICLKLLDTLLRKCQYHVSTTSQARMALKMLRENKDRFDLVISDV 73
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLL+ +GLEMDLPVIM+SA+ +VMKGVTHGACDYL+KPVRIE L+NIWQ
Sbjct: 74 HMPDMDGFKLLDQVGLEMDLPVIMLSANSDPKLVMKGVTHGACDYLVKPVRIEELRNIWQ 133
Query: 147 HVVRKKK----NEMKDLEQS 162
HV+R++K NE K +Q+
Sbjct: 134 HVIRRRKSVTRNENKSADQA 153
>B9HAQ8_POPTR (tr|B9HAQ8) Predicted protein (Fragment) OS=Populus trichocarpa
GN=POPTRDRAFT_1081075 PE=4 SV=1
Length = 437
Score = 198 bits (503), Expect = 3e-49, Method: Compositional matrix adjust.
Identities = 91/151 (60%), Positives = 119/151 (78%), Gaps = 1/151 (0%)
Query: 20 KAGDVVSDQ-FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNG 78
+ G+ V+++ FP+G+R+L VDDDP CL +LE +L+ C Y+VT +A AL MLREN+N
Sbjct: 7 RGGNSVNEKKFPVGMRILAVDDDPICLKVLENLLRKCQYEVTTTNQAVTALEMLRENRNK 66
Query: 79 YDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRI 138
YD+VISDV+MPDMDGFKLLE +GLEMDLPVIM+S+ K V KGVTHGA DYL+KPVR+
Sbjct: 67 YDLVISDVNMPDMDGFKLLELVGLEMDLPVIMLSSHGDKEFVYKGVTHGAVDYLLKPVRM 126
Query: 139 EALKNIWQHVVRKKKNEMKDLEQSGSVEEGD 169
E LKNIWQHV+R+KK +D +S + ++GD
Sbjct: 127 EELKNIWQHVIRRKKWYPEDQNRSPNQDKGD 157
>D7LK57_ARALY (tr|D7LK57) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_481375 PE=4 SV=1
Length = 611
Score = 197 bits (500), Expect = 5e-49, Method: Composition-based stats.
Identities = 97/159 (61%), Positives = 114/159 (71%), Gaps = 5/159 (3%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDD TCL ILE +L+ C Y VT A++AL +LRENKN +D+VISDV
Sbjct: 11 DQFPVGMRVLAVDDDQTCLKILETLLRHCQYHVTTTNEAQKALELLRENKNKFDLVISDV 70
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
MPDMDGFKLLE +GLEMDLPVIM+SA VMKGVTHGACDYL+KPVRIE LKNIWQ
Sbjct: 71 DMPDMDGFKLLELVGLEMDLPVIMLSAHSDPKFVMKGVTHGACDYLLKPVRIEELKNIWQ 130
Query: 147 HVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
HVVR + ++ + GS R +E YS N
Sbjct: 131 HVVRSRFDKNR-----GSNNGDKRDGSGNEGVGYSDQNN 164
>B6UC09_MAIZE (tr|B6UC09) Two-component response regulator ARR11 OS=Zea mays PE=2
SV=1
Length = 584
Score = 197 bits (500), Expect = 6e-49, Method: Compositional matrix adjust.
Identities = 94/139 (67%), Positives = 113/139 (81%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLRVLVVDDDPT L ILEKML+ C Y+VT C A A+ +LRE +N +DIVISDV+M
Sbjct: 9 FPYGLRVLVVDDDPTWLKILEKMLRKCSYEVTTCGLASVAIQILRERRNKFDIVISDVNM 68
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE IGLEMDLPVIMMS D + VMKGV HGACDYL+KPVR++ L+NIWQHV
Sbjct: 69 PDMDGFKLLELIGLEMDLPVIMMSIDGETSRVMKGVQHGACDYLLKPVRMKELRNIWQHV 128
Query: 149 VRKKKNEMKDLEQSGSVEE 167
RKK +E+K++E + S ++
Sbjct: 129 YRKKMHEVKEIEGNDSYDD 147
>Q6K8X6_ORYSJ (tr|Q6K8X6) Os02g0796500 protein OS=Oryza sativa subsp. japonica
GN=OJ1695_H09.29 PE=2 SV=1
Length = 688
Score = 196 bits (498), Expect = 1e-48, Method: Compositional matrix adjust.
Identities = 85/126 (67%), Positives = 103/126 (81%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDP CL +LE +L C Y VT +A AL MLREN++ +D+VISDV
Sbjct: 18 DQFPVGMRVLAVDDDPVCLKVLETLLLRCQYHVTTTNQAAIALKMLRENRDMFDLVISDV 77
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+S + V+KG+THGACDYL+KPVRIE L+NIWQ
Sbjct: 78 HMPDMDGFKLLELVGLEMDLPVIMLSVNGETKTVLKGITHGACDYLLKPVRIEELRNIWQ 137
Query: 147 HVVRKK 152
HV+R+K
Sbjct: 138 HVIRRK 143
>B8AEH1_ORYSI (tr|B8AEH1) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_09283 PE=4 SV=1
Length = 688
Score = 196 bits (498), Expect = 1e-48, Method: Compositional matrix adjust.
Identities = 85/126 (67%), Positives = 103/126 (81%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDP CL +LE +L C Y VT +A AL MLREN++ +D+VISDV
Sbjct: 18 DQFPVGMRVLAVDDDPVCLKVLETLLLRCQYHVTTTNQAAIALKMLRENRDMFDLVISDV 77
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+S + V+KG+THGACDYL+KPVRIE L+NIWQ
Sbjct: 78 HMPDMDGFKLLELVGLEMDLPVIMLSVNGETKTVLKGITHGACDYLLKPVRIEELRNIWQ 137
Query: 147 HVVRKK 152
HV+R+K
Sbjct: 138 HVIRRK 143
>B9IMH1_POPTR (tr|B9IMH1) Type-b response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_825974 PE=4 SV=1
Length = 707
Score = 196 bits (497), Expect = 1e-48, Method: Compositional matrix adjust.
Identities = 89/139 (64%), Positives = 111/139 (79%), Gaps = 2/139 (1%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP+G+RVL VDDDP CL +LE +L+ C Y+VT +A AL MLREN+N YD+VISDV+M
Sbjct: 17 FPVGMRVLAVDDDPICLKVLENLLRKCQYEVTTTNQAVTALEMLRENRNKYDLVISDVNM 76
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE +GLEMDLPVIM+S+ K V KG+THGA DYL+KPVR+E LKNIWQHV
Sbjct: 77 PDMDGFKLLELVGLEMDLPVIMLSSHGDKEFVFKGITHGAVDYLLKPVRLEELKNIWQHV 136
Query: 149 VRKKKNEMKDLEQSGSVEE 167
+R+KK +D Q+GS ++
Sbjct: 137 IRRKKWYPQD--QNGSPDQ 153
>Q0WRZ4_ARATH (tr|Q0WRZ4) Predicted protein OS=Arabidopsis thaliana GN=At4g31920
PE=2 SV=1
Length = 552
Score = 195 bits (496), Expect = 2e-48, Method: Compositional matrix adjust.
Identities = 89/126 (70%), Positives = 102/126 (80%)
Query: 25 VSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVIS 84
V DQFP+G+RVL VDDD TCL IL+ +L+ C Y VT +A+ AL +LRENKN +D+VIS
Sbjct: 9 VLDQFPVGMRVLAVDDDQTCLRILQTLLQRCQYHVTTTNQAQTALELLRENKNKFDLVIS 68
Query: 85 DVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
DV MPDMDGFKLLE +GLEMDLPVIM+SA VMKGV HGACDYL+KPVRIE LKNI
Sbjct: 69 DVDMPDMDGFKLLELVGLEMDLPVIMLSAHSDPKYVMKGVKHGACDYLLKPVRIEELKNI 128
Query: 145 WQHVVR 150
WQHVVR
Sbjct: 129 WQHVVR 134
>Q94LW1_MAIZE (tr|Q94LW1) Response regulator 9 OS=Zea mays GN=ZmRR9 PE=2 SV=1
Length = 631
Score = 195 bits (495), Expect = 2e-48, Method: Composition-based stats.
Identities = 93/147 (63%), Positives = 110/147 (74%), Gaps = 4/147 (2%)
Query: 21 AGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYD 80
G DQFP+G+RVL VDDDPTCL ILE +L C Y VT +A AL +LRE K+ +D
Sbjct: 14 GGHGAKDQFPVGMRVLAVDDDPTCLKILENLLLRCQYHVTTTGQAATALKLLREKKDQFD 73
Query: 81 IVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEA 140
+VISDVHMPDMDGFKLLE +GLEMDLPVIM+SA+ VMKG+THGACDYL+KPVRIE
Sbjct: 74 LVISDVHMPDMDGFKLLELVGLEMDLPVIMLSANGETQTVMKGITHGACDYLLKPVRIEQ 133
Query: 141 LKNIWQHVVRKK----KNEMKDLEQSG 163
L+ IWQHVVR++ KN D + SG
Sbjct: 134 LRTIWQHVVRRRSCDAKNSGNDNDDSG 160
>C1FH07_9CHLO (tr|C1FH07) G2-like myb-transcription factor with a n-terminal
response regulator receiver domain OS=Micromonas sp.
RCC299 GN=MICPUN_106146 PE=4 SV=1
Length = 488
Score = 195 bits (495), Expect = 2e-48, Method: Compositional matrix adjust.
Identities = 90/140 (64%), Positives = 112/140 (80%)
Query: 24 VVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVI 83
VS FPIGLRVLVVDDDP CL I+EKMLK C Y+VT +R +AL LRE K+ +DIV+
Sbjct: 5 AVSKGFPIGLRVLVVDDDPLCLKIVEKMLKRCQYEVTTFSRGAEALKTLRERKDDFDIVL 64
Query: 84 SDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
SDVHMPDMDGFKLLE+I LE+D+PV+MMSA+ +VV++G+ HGA DYL+KPVRIE L+N
Sbjct: 65 SDVHMPDMDGFKLLEHIALELDIPVMMMSANCATDVVLRGIIHGAVDYLLKPVRIEELRN 124
Query: 144 IWQHVVRKKKNEMKDLEQSG 163
IWQHVVR+K+ + +SG
Sbjct: 125 IWQHVVRRKRESSQGNLRSG 144
>D7MAT8_ARALY (tr|D7MAT8) Predicted protein OS=Arabidopsis lyrata subsp. lyrata
GN=ARALYDRAFT_656852 PE=4 SV=1
Length = 550
Score = 194 bits (494), Expect = 2e-48, Method: Compositional matrix adjust.
Identities = 94/153 (61%), Positives = 111/153 (72%)
Query: 25 VSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVIS 84
V DQFP+G+RVL VDDD TCL IL+ +L C Y VT +A+ AL +LRENKN +D+VIS
Sbjct: 9 VLDQFPVGMRVLAVDDDQTCLRILQTLLHRCQYHVTTTNQAQTALELLRENKNKFDLVIS 68
Query: 85 DVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
DV MPDMDGFKLLE +GLEMDLPVIM+SA VMKGV HGACDYL+KPVRIE LKNI
Sbjct: 69 DVDMPDMDGFKLLELVGLEMDLPVIMLSAHSDPKYVMKGVKHGACDYLLKPVRIEELKNI 128
Query: 145 WQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSED 177
WQHVVRK K + S D+ R+ ++
Sbjct: 129 WQHVVRKSKLKKNKSSVSNGAANSDKANRKRKE 161
>D7GN47_POPCA (tr|D7GN47) Putative B-type response regulator 19 OS=Populus
canadensis GN=rr19 PE=2 SV=1
Length = 685
Score = 194 bits (494), Expect = 3e-48, Method: Compositional matrix adjust.
Identities = 88/140 (62%), Positives = 110/140 (78%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP+G+RVL VDDDP CL +LE +L+ C Y+VT +A AL MLREN+N YD+VISDV+M
Sbjct: 17 FPVGMRVLAVDDDPICLKVLENLLRKCQYEVTTTNQAVTALEMLRENRNKYDLVISDVNM 76
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE +GLEMDLPVIM+S+ K V KG+THGA DYL+KPVR+E LKNIWQHV
Sbjct: 77 PDMDGFKLLELVGLEMDLPVIMLSSHGDKEFVYKGITHGAVDYLLKPVRLEELKNIWQHV 136
Query: 149 VRKKKNEMKDLEQSGSVEEG 168
+R+KK +D S + ++G
Sbjct: 137 IRRKKWYPQDQNGSPNQDKG 156
>Q5SML5_ORYSJ (tr|Q5SML5) Os06g0183100 protein OS=Oryza sativa subsp. japonica
GN=OSJNBb0036B04.15 PE=2 SV=1
Length = 696
Score = 194 bits (492), Expect = 5e-48, Method: Composition-based stats.
Identities = 93/156 (59%), Positives = 115/156 (73%), Gaps = 7/156 (4%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDP CL +LE +L+ C Y VT +A AL +LREN++ +D+VISDV
Sbjct: 20 DQFPVGMRVLAVDDDPVCLKVLETLLRRCQYHVTSTNQAITALKLLRENRDMFDLVISDV 79
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+S + VMKG+THGACDYL+KPVRIE L+NIWQ
Sbjct: 80 HMPDMDGFKLLELVGLEMDLPVIMLSVNGETKTVMKGITHGACDYLLKPVRIEELRNIWQ 139
Query: 147 HVVRKK--KNEMKDLEQSGSVEEGDRQQRQSEDADY 180
HVVR+K E +L+ S + QS D D+
Sbjct: 140 HVVRRKFGNRERNNLDFSKEC-----NKPQSADTDH 170
>B8B3I4_ORYSI (tr|B8B3I4) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_21925 PE=4 SV=1
Length = 696
Score = 194 bits (492), Expect = 5e-48, Method: Composition-based stats.
Identities = 93/156 (59%), Positives = 115/156 (73%), Gaps = 7/156 (4%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDP CL +LE +L+ C Y VT +A AL +LREN++ +D+VISDV
Sbjct: 20 DQFPVGMRVLAVDDDPVCLKVLETLLRRCQYHVTSTNQAITALKLLRENRDMFDLVISDV 79
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+S + VMKG+THGACDYL+KPVRIE L+NIWQ
Sbjct: 80 HMPDMDGFKLLELVGLEMDLPVIMLSVNGETKTVMKGITHGACDYLLKPVRIEELRNIWQ 139
Query: 147 HVVRKK--KNEMKDLEQSGSVEEGDRQQRQSEDADY 180
HVVR+K E +L+ S + QS D D+
Sbjct: 140 HVVRRKFGNRERNNLDFSKEC-----NKPQSADTDH 170
>B9HAU8_POPTR (tr|B9HAU8) Type-b response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_763573 PE=4 SV=1
Length = 588
Score = 193 bits (491), Expect = 6e-48, Method: Compositional matrix adjust.
Identities = 99/147 (67%), Positives = 119/147 (80%)
Query: 16 SVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLREN 75
+V GD DQFPIG+RVL VDDDPTCL++LE +L+ C Y VT ++A ALSMLREN
Sbjct: 2 TVEQGIGDSNIDQFPIGMRVLAVDDDPTCLLLLETLLRRCQYTVTTTSQAITALSMLREN 61
Query: 76 KNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKP 135
KN +D+VISDVHMPDMDGFKLLE +GLEMDLPVIM+SA+ +VMKG+THGACDYL+KP
Sbjct: 62 KNKFDLVISDVHMPDMDGFKLLELVGLEMDLPVIMLSANGDPKLVMKGITHGACDYLLKP 121
Query: 136 VRIEALKNIWQHVVRKKKNEMKDLEQS 162
VRIE LKNIWQHV+R++K + KD S
Sbjct: 122 VRIEELKNIWQHVIRRRKYDNKDRNSS 148
>Q6H805_ORYSJ (tr|Q6H805) Os02g0182100 protein OS=Oryza sativa subsp. japonica
GN=OJ1297_C09.26 PE=2 SV=1
Length = 626
Score = 193 bits (491), Expect = 6e-48, Method: Composition-based stats.
Identities = 96/169 (56%), Positives = 119/169 (70%), Gaps = 16/169 (9%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDPTCL ILE +L C Y VT +A AL +LRENK+ +D+VISDV
Sbjct: 23 DQFPVGMRVLAVDDDPTCLKILENLLLRCQYHVTTTGQAATALKLLRENKDQFDLVISDV 82
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+SA+ VMKG+THGACDYL+KPVR+E L+ IWQ
Sbjct: 83 HMPDMDGFKLLELVGLEMDLPVIMLSANGETQTVMKGITHGACDYLLKPVRLEQLRTIWQ 142
Query: 147 HVVRKKKNEMKD--------LEQSGSVEEGD--------RQQRQSEDAD 179
HV+R+K + K+ + G EG+ RQ R+S D +
Sbjct: 143 HVIRRKNCDAKNRGNDDDAGQKAQGMNNEGESIGANRNKRQSRKSRDEN 191
>A2X1N2_ORYSI (tr|A2X1N2) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_06112 PE=4 SV=1
Length = 626
Score = 193 bits (491), Expect = 6e-48, Method: Composition-based stats.
Identities = 96/169 (56%), Positives = 119/169 (70%), Gaps = 16/169 (9%)
Query: 27 DQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDV 86
DQFP+G+RVL VDDDPTCL ILE +L C Y VT +A AL +LRENK+ +D+VISDV
Sbjct: 23 DQFPVGMRVLAVDDDPTCLKILENLLLRCQYHVTTTGQAATALKLLRENKDQFDLVISDV 82
Query: 87 HMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
HMPDMDGFKLLE +GLEMDLPVIM+SA+ VMKG+THGACDYL+KPVR+E L+ IWQ
Sbjct: 83 HMPDMDGFKLLELVGLEMDLPVIMLSANGETQTVMKGITHGACDYLLKPVRLEQLRTIWQ 142
Query: 147 HVVRKKKNEMKD--------LEQSGSVEEGD--------RQQRQSEDAD 179
HV+R+K + K+ + G EG+ RQ R+S D +
Sbjct: 143 HVIRRKNCDAKNRGNDDDAGQKAQGMNNEGESIGANRNKRQSRKSRDEN 191
>A5BGD4_VITVI (tr|A5BGD4) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_010435 PE=4 SV=1
Length = 693
Score = 192 bits (489), Expect = 9e-48, Method: Compositional matrix adjust.
Identities = 99/157 (63%), Positives = 123/157 (78%), Gaps = 3/157 (1%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+DQFPIG+RVL VDDDPTCL +L+ +L+ C Y VT ++A AL MLRENKN +D+VISD
Sbjct: 11 NDQFPIGMRVLAVDDDPTCLRLLDTLLRRCQYHVTTTSQAITALKMLRENKNQFDLVISD 70
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
VHMPDMDGFKLLE +GLEMDLPVIM+SA+D +VMKG+THGACDYL+KPVRIE LKNIW
Sbjct: 71 VHMPDMDGFKLLELVGLEMDLPVIMLSANDDPKLVMKGITHGACDYLLKPVRIEQLKNIW 130
Query: 146 QHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSS 182
QHV+R+++ + +D S S D++Q E SS
Sbjct: 131 QHVIRRRRFDPRDQNNSDSR---DKRQGPGEGGQGSS 164
>D7SUY5_VITVI (tr|D7SUY5) Whole genome shotgun sequence of line PN40024,
scaffold_8.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00035903001 PE=4 SV=1
Length = 667
Score = 192 bits (488), Expect = 1e-47, Method: Compositional matrix adjust.
Identities = 99/157 (63%), Positives = 123/157 (78%), Gaps = 3/157 (1%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+DQFPIG+RVL VDDDPTCL +L+ +L+ C Y VT ++A AL MLRENKN +D+VISD
Sbjct: 11 NDQFPIGMRVLAVDDDPTCLRLLDTLLRRCQYHVTTTSQAITALKMLRENKNQFDLVISD 70
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
VHMPDMDGFKLLE +GLEMDLPVIM+SA+D +VMKG+THGACDYL+KPVRIE LKNIW
Sbjct: 71 VHMPDMDGFKLLELVGLEMDLPVIMLSANDDPKLVMKGITHGACDYLLKPVRIEQLKNIW 130
Query: 146 QHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSS 182
QHV+R+++ + +D S S D++Q E SS
Sbjct: 131 QHVIRRRRFDPRDQNNSDSR---DKRQGPGEGGQGSS 164
>A9RVL9_PHYPA (tr|A9RVL9) Predicted protein (Fragment) OS=Physcomitrella patens
subsp. patens GN=PHYPADRAFT_23467 PE=4 SV=1
Length = 239
Score = 190 bits (482), Expect = 7e-47, Method: Compositional matrix adjust.
Identities = 94/156 (60%), Positives = 120/156 (76%), Gaps = 6/156 (3%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P GL+VLVVDD+P LMI+E+ML+ C Y VT C A +AL+MLREN+N +D+VISDV+MP
Sbjct: 1 PAGLKVLVVDDEPLALMIVERMLQICQYTVTTCNSATKALAMLRENRNYFDLVISDVYMP 60
Query: 90 DMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
DMDGFKLLE IGLE+DLPVIMMS D + VMKG+ HGACDYL+KPVR++ L NIWQHVV
Sbjct: 61 DMDGFKLLEAIGLELDLPVIMMSGDGETDSVMKGIRHGACDYLLKPVRLKELINIWQHVV 120
Query: 150 RKKKNEMKDL--EQSGSVEEGDRQQRQSEDADYSSS 183
RK +D+ E+SG +E + Q ++AD+ S+
Sbjct: 121 RKLVTP-RDIPKEESGEWDEFPKHQ---DNADFDST 152
>D7GN49_POPCA (tr|D7GN49) Putative B-type response regulator 22 OS=Populus
canadensis GN=rr22 PE=2 SV=1
Length = 668
Score = 189 bits (479), Expect = 1e-46, Method: Compositional matrix adjust.
Identities = 97/147 (65%), Positives = 117/147 (79%)
Query: 16 SVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLREN 75
+V GD DQFPIG+RVL VDDDPTCL++LE +L+ C Y VT ++A AL MLREN
Sbjct: 2 TVEQGIGDSNIDQFPIGMRVLAVDDDPTCLLLLETLLRRCQYNVTTTSQAITALRMLREN 61
Query: 76 KNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKP 135
KN +D+VISDVHMPDMDGFKLLE +GLEMDLPVIM+SA+ +VMKG+THGAC YL+KP
Sbjct: 62 KNKFDLVISDVHMPDMDGFKLLELVGLEMDLPVIMLSANGDPKLVMKGITHGACYYLLKP 121
Query: 136 VRIEALKNIWQHVVRKKKNEMKDLEQS 162
VRIE LK IWQHV+R+KK++ KD S
Sbjct: 122 VRIEELKTIWQHVIRRKKSDNKDRNSS 148
>B9IL37_POPTR (tr|B9IL37) Type-b response regulator OS=Populus trichocarpa
GN=PtRR22 PE=4 SV=1
Length = 661
Score = 189 bits (479), Expect = 2e-46, Method: Compositional matrix adjust.
Identities = 97/147 (65%), Positives = 117/147 (79%)
Query: 16 SVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLREN 75
+V GD DQFPIG+RVL VDDDPTCL++LE +L+ C Y VT ++A AL MLREN
Sbjct: 2 TVEQGIGDSNIDQFPIGMRVLAVDDDPTCLLLLETLLRRCQYNVTTTSQAITALRMLREN 61
Query: 76 KNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKP 135
KN +D+VISDVHMPDMDGFKLLE +GLEMDLPVIM+SA+ +VMKG+THGAC YL+KP
Sbjct: 62 KNKFDLVISDVHMPDMDGFKLLELVGLEMDLPVIMLSANGDPKLVMKGITHGACYYLLKP 121
Query: 136 VRIEALKNIWQHVVRKKKNEMKDLEQS 162
VRIE LK IWQHV+R+KK++ KD S
Sbjct: 122 VRIEELKTIWQHVIRRKKSDNKDRNSS 148
>D7LPV7_ARALY (tr|D7LPV7) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_904389 PE=4 SV=1
Length = 386
Score = 188 bits (478), Expect = 2e-46, Method: Compositional matrix adjust.
Identities = 86/144 (59%), Positives = 115/144 (79%), Gaps = 1/144 (0%)
Query: 25 VSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVIS 84
++DQFP GLR+L+VDDD +CL ILEKML +Y+VT C++A+ AL++LRE K+ +D+V+S
Sbjct: 3 INDQFPSGLRILLVDDDTSCLFILEKMLLRLMYQVTICSQADVALTILRERKDSFDLVLS 62
Query: 85 DVHMPDMDGFKLLEYIG-LEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
DVHMP M+G+KLL+ +G LE+DLPVIMMS D VM G+ HGACDYLIKP+R E LKN
Sbjct: 63 DVHMPGMNGYKLLQQVGLLELDLPVIMMSVDGRTTTVMTGINHGACDYLIKPIRPEELKN 122
Query: 144 IWQHVVRKKKNEMKDLEQSGSVEE 167
IWQHVVR+K + K+L S ++E+
Sbjct: 123 IWQHVVRRKCVKKKELRNSQALED 146
>C1N4R3_MICPS (tr|C1N4R3) G2-like myb-transcription factor with a n-terminal
response regulator receiver domain OS=Micromonas pusilla
CCMP1545 GN=MICPUCDRAFT_52653 PE=4 SV=1
Length = 544
Score = 187 bits (476), Expect = 3e-46, Method: Compositional matrix adjust.
Identities = 83/130 (63%), Positives = 106/130 (81%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLRVLVVDDDP CL I+EKMLK C Y+VT +R +AL LR ++ +DIV+SDVHM
Sbjct: 11 FPAGLRVLVVDDDPLCLRIVEKMLKRCQYEVTTFSRGAEALETLRARRDDFDIVLSDVHM 70
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE+I LE+D+PV+MMSA+ +VV++G+ HGA DYL+KPVR+E L+NIWQHV
Sbjct: 71 PDMDGFKLLEHIALELDVPVMMMSANCATDVVLRGIIHGAVDYLLKPVRLEELRNIWQHV 130
Query: 149 VRKKKNEMKD 158
VR+++ KD
Sbjct: 131 VRRQREPSKD 140
>A9S224_PHYPA (tr|A9S224) Predicted protein (Fragment) OS=Physcomitrella patens
subsp. patens GN=PHYPADRAFT_123034 PE=4 SV=1
Length = 262
Score = 186 bits (472), Expect = 9e-46, Method: Compositional matrix adjust.
Identities = 91/155 (58%), Positives = 119/155 (76%), Gaps = 4/155 (2%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P GL+VLVVDDD L ILE+ML+ C Y VT C A +AL+MLREN++ +D+VISDV+MP
Sbjct: 12 PAGLKVLVVDDDNVILKILERMLRECKYAVTTCNSATKALAMLRENRSYFDLVISDVYMP 71
Query: 90 DMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
DMDGFKLLE IGLE+DLPVIMMS D + VM+G+ HGACDYL+KPVR+E L+NIWQHVV
Sbjct: 72 DMDGFKLLEAIGLELDLPVIMMSRDGEIDSVMRGIKHGACDYLLKPVRLEELRNIWQHVV 131
Query: 150 RKKKNE-MKDLEQSGSVEEGDRQQRQSEDADYSSS 183
RK + + E+SG ++E + Q ++AD+ ++
Sbjct: 132 RKLVSPILVSKEESGELDEYPKHQ---DNADFDAT 163
>B9HLB7_POPTR (tr|B9HLB7) Type-b response regulator OS=Populus trichocarpa
GN=PtRR14 PE=4 SV=1
Length = 642
Score = 182 bits (461), Expect = 2e-44, Method: Compositional matrix adjust.
Identities = 97/189 (51%), Positives = 114/189 (60%), Gaps = 48/189 (25%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+D FP GLRVLVVDDDPT L ILEKMLK C Y+VT C A AL++LRE K GYDIVISD
Sbjct: 11 NDSFPAGLRVLVVDDDPTWLKILEKMLKKCSYEVTTCGLARDALNLLRERKGGYDIVISD 70
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVI------------------------------------ 109
V+MPDMDGFKLLE +GLEMDLPVI
Sbjct: 71 VYMPDMDGFKLLEQVGLEMDLPVISRFFSLTLEFYFNANIFYLRIHIPMSCLHYIYIGIL 130
Query: 110 ------------MMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMK 157
+MS D + VMKGV HGACDYL+KP+R++ L+NIWQHV RKK +E++
Sbjct: 131 IQLLTSCACQLTVMSVDGETSRVMKGVQHGACDYLLKPIRMKELRNIWQHVFRKKIHEVR 190
Query: 158 DLEQSGSVE 166
D+E VE
Sbjct: 191 DIETLERVE 199
>A4RR47_OSTLU (tr|A4RR47) Predicted protein (Fragment) OS=Ostreococcus
lucimarinus (strain CCE9901) GN=OSTLU_5500 PE=4 SV=1
Length = 270
Score = 181 bits (459), Expect = 3e-44, Method: Compositional matrix adjust.
Identities = 89/162 (54%), Positives = 114/162 (70%), Gaps = 7/162 (4%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GL VLVVDDD CL ++EKMLK C YKVT C+ A+ AL +LR K +DIV+SDVHM
Sbjct: 1 FPAGLGVLVVDDDLLCLKVVEKMLKACKYKVTACSTAKTALEILRTRKEEFDIVLSDVHM 60
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGFKLLE I E+ LPV+MMSA+ +VV++G+ HGA DYL+KPVRIE L+NIWQHV
Sbjct: 61 PDMDGFKLLEIIQFELALPVLMMSANSDSSVVLRGIIHGAVDYLLKPVRIEELRNIWQHV 120
Query: 149 VRK-----KKNEMKDLEQSGSVEEGDR--QQRQSEDADYSSS 183
VR+ K + +D+E S + +SE+ D ++S
Sbjct: 121 VRRDYSSAKSSGSEDVEASSPSKRAKTSGSNSKSEEVDRTAS 162
>A8I580_CHLRE (tr|A8I580) Predicted protein (Fragment) OS=Chlamydomonas
reinhardtii GN=CHLREDRAFT_113139 PE=4 SV=1
Length = 235
Score = 181 bits (458), Expect = 4e-44, Method: Compositional matrix adjust.
Identities = 79/121 (65%), Positives = 102/121 (84%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FP GLR+LVVDDDP CL ++E+ML+ C Y+VT C+ A AL++LR+ YD+V+SDV+M
Sbjct: 1 FPAGLRLLVVDDDPLCLKVVEQMLRKCSYEVTVCSNATTALNILRDKNTEYDLVLSDVYM 60
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDMDGF+LLE +GLEMDLPVIMMS++ + V++GVTHGACDYLIKPVR+E L+N+WQHV
Sbjct: 61 PDMDGFRLLELVGLEMDLPVIMMSSNGDTSNVLRGVTHGACDYLIKPVRLEELRNLWQHV 120
Query: 149 V 149
V
Sbjct: 121 V 121
>C5Y5J4_SORBI (tr|C5Y5J4) Putative uncharacterized protein Sb05g004150 OS=Sorghum
bicolor GN=Sb05g004150 PE=4 SV=1
Length = 694
Score = 178 bits (452), Expect = 2e-43, Method: Compositional matrix adjust.
Identities = 84/141 (59%), Positives = 104/141 (73%), Gaps = 2/141 (1%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNG--YDIVI 83
+D FP GLRVL VDDD CL ILE+ LK C Y T T A AL MLRE K+G +D+VI
Sbjct: 3 ADTFPAGLRVLAVDDDRVCLKILERQLKYCNYNATVVTDARTALDMLRERKDGNQFDLVI 62
Query: 84 SDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
SDV MP+MDGFKLLE IGLEMDLPVIM+SA++ +MKG+ HGACDY++KPVR+E L+
Sbjct: 63 SDVVMPNMDGFKLLELIGLEMDLPVIMLSANNETQTIMKGIKHGACDYIVKPVRLEQLRG 122
Query: 144 IWQHVVRKKKNEMKDLEQSGS 164
IW HVV+ K + ++ SG+
Sbjct: 123 IWTHVVKNGKTDPRNTISSGN 143
>C5YTJ4_SORBI (tr|C5YTJ4) Putative uncharacterized protein Sb08g006300 OS=Sorghum
bicolor GN=Sb08g006300 PE=4 SV=1
Length = 551
Score = 176 bits (445), Expect = 1e-42, Method: Compositional matrix adjust.
Identities = 84/141 (59%), Positives = 102/141 (72%), Gaps = 2/141 (1%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNG--YDIVI 83
+D FP GLRVL VDDD CL ILE+ LK C Y T + A AL MLRE K G +D+VI
Sbjct: 3 ADTFPAGLRVLAVDDDRVCLKILERQLKYCNYNATVVSDARTALDMLRERKEGNQFDLVI 62
Query: 84 SDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
SDV MP+MDGFKLLE IGLEMDLPVIM+SA+ +MKG+ HGACDY++KPVR+E L+
Sbjct: 63 SDVIMPNMDGFKLLELIGLEMDLPVIMLSANSETQTIMKGIKHGACDYMVKPVRLEQLRG 122
Query: 144 IWQHVVRKKKNEMKDLEQSGS 164
IW HVV+ N+ ++ SGS
Sbjct: 123 IWTHVVKNSMNDPQNNINSGS 143
>A5BHX8_VITVI (tr|A5BHX8) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_039080 PE=4 SV=1
Length = 650
Score = 172 bits (437), Expect = 1e-41, Method: Compositional matrix adjust.
Identities = 80/124 (64%), Positives = 98/124 (79%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
QFP GLRVL VDD+ CL IL +L+ C YKVT T+A +AL MLREN+ +DIVI+DV
Sbjct: 151 QFPDGLRVLAVDDNIVCLKILVTLLEQCRYKVTATTKACEALEMLRENRXNFDIVITDVK 210
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGF LL+ IGLEMD+PVIM S +D ++ V+KG+ HGA DYL+KPVR+ +KNIWQH
Sbjct: 211 MPDMDGFTLLKIIGLEMDIPVIMTSVNDDRSTVLKGIRHGARDYLLKPVRVLEIKNIWQH 270
Query: 148 VVRK 151
VVRK
Sbjct: 271 VVRK 274
>Q0DAK5_ORYSJ (tr|Q0DAK5) Os06g0647200 protein OS=Oryza sativa subsp. japonica
GN=Os06g0647200 PE=4 SV=1
Length = 663
Score = 172 bits (436), Expect = 1e-41, Method: Composition-based stats.
Identities = 81/131 (61%), Positives = 100/131 (76%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP GLRVL VDD P CLM+LE +L+ C Y+ T A AL MLRE +D+VISDVH
Sbjct: 26 KFPEGLRVLAVDDSPVCLMLLEALLRRCKYQPTMTRDAATALRMLRERPGDFDLVISDVH 85
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
M DMDGFKLLE IGLEMDLPVIM SA+ +MKGVTHGACDYL+KPV ++ ++NIWQH
Sbjct: 86 MLDMDGFKLLELIGLEMDLPVIMQSANGELETMMKGVTHGACDYLVKPVSLKDIQNIWQH 145
Query: 148 VVRKKKNEMKD 158
V RK+K ++++
Sbjct: 146 VWRKRKLDIRN 156
>Q67W50_ORYSJ (tr|Q67W50) Putative response regulator 9 OS=Oryza sativa subsp.
japonica GN=OJ1226_A12.26 PE=4 SV=1
Length = 694
Score = 172 bits (436), Expect = 2e-41, Method: Composition-based stats.
Identities = 81/131 (61%), Positives = 100/131 (76%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP GLRVL VDD P CLM+LE +L+ C Y+ T A AL MLRE +D+VISDVH
Sbjct: 11 KFPEGLRVLAVDDSPVCLMLLEALLRRCKYQPTMTRDAATALRMLRERPGDFDLVISDVH 70
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
M DMDGFKLLE IGLEMDLPVIM SA+ +MKGVTHGACDYL+KPV ++ ++NIWQH
Sbjct: 71 MLDMDGFKLLELIGLEMDLPVIMQSANGELETMMKGVTHGACDYLVKPVSLKDIQNIWQH 130
Query: 148 VVRKKKNEMKD 158
V RK+K ++++
Sbjct: 131 VWRKRKLDIRN 141
>A2YFL8_ORYSI (tr|A2YFL8) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_23901 PE=4 SV=1
Length = 684
Score = 172 bits (435), Expect = 2e-41, Method: Composition-based stats.
Identities = 81/131 (61%), Positives = 100/131 (76%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP GLRVL VDD P CLM+LE +L+ C Y+ T A AL MLRE +D+VISDVH
Sbjct: 11 KFPEGLRVLAVDDSPVCLMLLEALLRRCKYQPTMTRDAATALRMLRERPGDFDLVISDVH 70
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
M DMDGFKLLE IGLEMDLPVIM SA+ +MKGVTHGACDYL+KPV ++ ++NIWQH
Sbjct: 71 MLDMDGFKLLELIGLEMDLPVIMQSANGELETMMKGVTHGACDYLVKPVSLKDIQNIWQH 130
Query: 148 VVRKKKNEMKD 158
V RK+K ++++
Sbjct: 131 VWRKRKLDIRN 141
>A1A6A6_ORYSJ (tr|A1A6A6) Response regulator OS=Oryza sativa subsp. japonica
GN=ORR5 PE=4 SV=1
Length = 690
Score = 172 bits (435), Expect = 2e-41, Method: Composition-based stats.
Identities = 81/131 (61%), Positives = 100/131 (76%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP GLRVL VDD P CLM+LE +L+ C Y+ T A AL MLRE +D+VISDVH
Sbjct: 11 KFPEGLRVLAVDDSPVCLMLLEALLRRCKYQPTMTRDAATALRMLRERPGDFDLVISDVH 70
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
M DMDGFKLLE IGLEMDLPVIM SA+ +MKGVTHGACDYL+KPV ++ ++NIWQH
Sbjct: 71 MLDMDGFKLLELIGLEMDLPVIMQSANGELETMMKGVTHGACDYLVKPVSLKDIQNIWQH 130
Query: 148 VVRKKKNEMKD 158
V RK+K ++++
Sbjct: 131 VWRKRKLDIRN 141
>D7SQ85_VITVI (tr|D7SQ85) Whole genome shotgun sequence of line PN40024,
scaffold_52.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00029177001 PE=4 SV=1
Length = 216
Score = 171 bits (434), Expect = 3e-41, Method: Compositional matrix adjust.
Identities = 80/124 (64%), Positives = 98/124 (79%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
QFP GLRVL VDD+ CL IL +L+ C YKVT T+A +AL MLREN+ +DIVI+DV
Sbjct: 14 QFPDGLRVLAVDDNIVCLKILVTLLEQCRYKVTATTKACEALEMLRENRENFDIVITDVK 73
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGF LL+ IGLEMD+PVIM S +D ++ V+KG+ HGA DYL+KPVR+ +KNIWQH
Sbjct: 74 MPDMDGFTLLKIIGLEMDIPVIMTSVNDDRSTVLKGIRHGARDYLLKPVRVLEIKNIWQH 133
Query: 148 VVRK 151
VVRK
Sbjct: 134 VVRK 137
>A3BE31_ORYSJ (tr|A3BE31) Putative uncharacterized protein OS=Oryza sativa subsp.
japonica GN=OsJ_22159 PE=4 SV=1
Length = 713
Score = 171 bits (433), Expect = 3e-41, Method: Composition-based stats.
Identities = 81/131 (61%), Positives = 100/131 (76%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP GLRVL VDD P CLM+LE +L+ C Y+ T A AL MLRE +D+VISDVH
Sbjct: 11 KFPEGLRVLAVDDSPVCLMLLEALLRRCKYQPTMTRDAATALRMLRERPGDFDLVISDVH 70
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
M DMDGFKLLE IGLEMDLPVIM SA+ +MKGVTHGACDYL+KPV ++ ++NIWQH
Sbjct: 71 MLDMDGFKLLELIGLEMDLPVIMQSANGELETMMKGVTHGACDYLVKPVSLKDIQNIWQH 130
Query: 148 VVRKKKNEMKD 158
V RK+K ++++
Sbjct: 131 VWRKRKLDIRN 141
>D7MPK5_ARALY (tr|D7MPK5) Predicted protein OS=Arabidopsis lyrata subsp. lyrata
GN=ARALYDRAFT_685456 PE=4 SV=1
Length = 642
Score = 166 bits (419), Expect = 1e-39, Method: Compositional matrix adjust.
Identities = 81/129 (62%), Positives = 100/129 (77%), Gaps = 1/129 (0%)
Query: 23 DVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIV 82
D D+FP+G+RVL VDD+PTCL LE++L C Y VTK + +AL +LREN N +D+V
Sbjct: 8 DGRHDKFPVGMRVLAVDDNPTCLRKLEELLLRCKYHVTKTMESRKALELLRENSNMFDLV 67
Query: 83 ISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALK 142
ISDV MPD DGFKLLE IGLEMDLPVIM+SA + VMKG+ HGACDYL+KPV ++ L+
Sbjct: 68 ISDVEMPDTDGFKLLE-IGLEMDLPVIMLSAHSDYDSVMKGIIHGACDYLVKPVGLKELQ 126
Query: 143 NIWQHVVRK 151
NIW HVV+K
Sbjct: 127 NIWHHVVKK 135
>A5ASY3_VITVI (tr|A5ASY3) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_039966 PE=4 SV=1
Length = 570
Score = 166 bits (419), Expect = 1e-39, Method: Compositional matrix adjust.
Identities = 85/148 (57%), Positives = 104/148 (70%), Gaps = 15/148 (10%)
Query: 26 SDQFPIGLRVLVVDDDPT----CLMILEKML-----------KTCLYKVTKCTRAEQALS 70
+D FP GLRVL VDDDP L+I K L K L +VT C A ALS
Sbjct: 7 TDAFPAGLRVLAVDDDPAWLKILLIIFRKKLNFAGVICRMFPKLYLARVTTCCVARDALS 66
Query: 71 MLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACD 130
ML+E KN +DI+ISDV+MPDMDGF+LLE++ +EMDLPVI++S D N VMKG+ GACD
Sbjct: 67 MLQERKNSFDIIISDVNMPDMDGFQLLEHLEVEMDLPVILISVDGEMNRVMKGIQSGACD 126
Query: 131 YLIKPVRIEALKNIWQHVVRKKKNEMKD 158
YL+KPVR+E LKNIWQHV+RKK +E K+
Sbjct: 127 YLLKPVRMEELKNIWQHVLRKKIHEGKN 154
>B9IM11_POPTR (tr|B9IM11) Type-b response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_779453 PE=4 SV=1
Length = 517
Score = 162 bits (410), Expect = 2e-38, Method: Compositional matrix adjust.
Identities = 75/123 (60%), Positives = 95/123 (77%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P LRVL +D + CL L +L+ C Y+VT T A +AL MLRENKN Y +VI+DV
Sbjct: 24 PADLRVLAIDANVVCLKYLVAILQKCQYRVTSTTLAAEALKMLRENKNDYHVVITDVKRL 83
Query: 90 DMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
DMDGFKLLE IGLEMDLPVI++SA+D ++ +MKG+ HGA DYL+KPVRI+ ++NIWQHVV
Sbjct: 84 DMDGFKLLEIIGLEMDLPVILVSAEDSQSSIMKGIRHGARDYLLKPVRIQEMQNIWQHVV 143
Query: 150 RKK 152
RK+
Sbjct: 144 RKR 146
>B9RMP9_RICCO (tr|B9RMP9) Two-component sensor histidine kinase bacteria,
putative OS=Ricinus communis GN=RCOM_1082530 PE=4 SV=1
Length = 419
Score = 162 bits (409), Expect = 2e-38, Method: Compositional matrix adjust.
Identities = 84/153 (54%), Positives = 109/153 (71%), Gaps = 1/153 (0%)
Query: 25 VSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVIS 84
+++ FP GLRVLVVD+DPT ILEKMLK C Y+V C + AL+MLR K+ YDIVI
Sbjct: 10 LNNDFPAGLRVLVVDNDPTWSRILEKMLKKCSYQVATCG-SRDALNMLRGRKDEYDIVIC 68
Query: 85 DVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
DV DMDGF+LLE+IGL+MD PVI SA + + KGV HGACDYL+KP+R++ L+NI
Sbjct: 69 DVTTSDMDGFRLLEHIGLKMDCPVINASALXXASALQKGVRHGACDYLLKPIRMKELRNI 128
Query: 145 WQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSED 177
WQHV RK+ +E+++ E GS + D + ED
Sbjct: 129 WQHVFRKRIHEVRECEILGSDQACDGPLLRGED 161
>Q1W4D7_STRAF (tr|Q1W4D7) SRR392 OS=Striga asiatica PE=2 SV=1
Length = 453
Score = 158 bits (400), Expect = 2e-37, Method: Compositional matrix adjust.
Identities = 80/100 (80%), Positives = 89/100 (89%), Gaps = 3/100 (3%)
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGFKLLE++GLEMDLPVIMMSADD KNVVMKGVTHGACDYLIKPVR+EALKNIWQH
Sbjct: 1 MPDMDGFKLLEHVGLEMDLPVIMMSADDSKNVVMKGVTHGACDYLIKPVRMEALKNIWQH 60
Query: 148 VVR--KKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
VVR K + + K+ EQSGSVE+G+RQ +Q ED DYSSS N
Sbjct: 61 VVRKKKYEWKEKEQEQSGSVEDGERQPKQ-EDVDYSSSAN 99
>D7SHB3_VITVI (tr|D7SHB3) Whole genome shotgun sequence of line PN40024,
scaffold_0.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00007549001 PE=4 SV=1
Length = 468
Score = 152 bits (385), Expect = 1e-35, Method: Compositional matrix adjust.
Identities = 71/108 (65%), Positives = 88/108 (81%)
Query: 51 MLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIM 110
MLK C Y++T C A ALSML+E KN +DI+ISDV+MPDMDGF+LLE++ +EMDLPVI+
Sbjct: 1 MLKKCSYEMTTCCVARDALSMLQERKNSFDIIISDVNMPDMDGFQLLEHLEVEMDLPVIL 60
Query: 111 MSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKD 158
+S D N VMKGV GACDYL+KPVR+E LKNIWQHV+RKK +E K+
Sbjct: 61 ISVDGEMNRVMKGVQSGACDYLLKPVRMEELKNIWQHVLRKKIHEGKN 108
>A2Y4D9_ORYSI (tr|A2Y4D9) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_19867 PE=4 SV=1
Length = 315
Score = 147 bits (370), Expect = 6e-34, Method: Compositional matrix adjust.
Identities = 78/168 (46%), Positives = 111/168 (66%), Gaps = 5/168 (2%)
Query: 8 GSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQ 67
GS S ASS+ + A + S P+G+RVL++D+ T L I+ K+L C YKVT T A
Sbjct: 3 GSCSVASSNKSKLADEEFS---PVGMRVLLIDESTTYLKIITKLLLNCGYKVTPKTAARD 59
Query: 68 ALSMLRENKNGYDIVISDVHMP-DMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTH 126
A+ L EN YD+V+++VH P +DGF LL+Y G +MDLPV++ SADD K V+K V
Sbjct: 60 AVEELHENPWSYDMVLTEVHAPAGIDGFNLLQYAGTDMDLPVVVFSADDDKRTVLKCVNS 119
Query: 127 GACDYLIKPVRIEALKNIWQHVVRKK-KNEMKDLEQSGSVEEGDRQQR 173
GACDYL+KP+R E LKNIWQHV R+ ++ + +G+ +G+ ++R
Sbjct: 120 GACDYLVKPLRHEELKNIWQHVYRRNLRSGGRRAAAAGNSSKGEIKKR 167
>C5Z636_SORBI (tr|C5Z636) Putative uncharacterized protein Sb10g024180 OS=Sorghum
bicolor GN=Sb10g024180 PE=4 SV=1
Length = 685
Score = 144 bits (362), Expect = 6e-33, Method: Composition-based stats.
Identities = 74/155 (47%), Positives = 97/155 (62%), Gaps = 23/155 (14%)
Query: 24 VVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENK---NGYD 80
+ +D FP GLRVL V+ D C +LE+ L+ C Y T T A+ AL MLRE K N +D
Sbjct: 1 MAADTFPAGLRVLAVEHDRVCRKVLERQLQYCNYNATMVTNAQTALDMLRERKEYGNQFD 60
Query: 81 IVISDVHMP--DMDGFKLLEYIGLEMDLPVI------------------MMSADDGKNVV 120
+VIS+V MP +MDGFKLLE IGLEMDLPVI ++SA+ +
Sbjct: 61 LVISNVVMPKPNMDGFKLLELIGLEMDLPVICNKALAQTYFLHFYGTLYVLSANSETQTI 120
Query: 121 MKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNE 155
MKG+ HGAC+Y++KPVR+E L+ IW HVV+ K +
Sbjct: 121 MKGIKHGACEYMVKPVRLEQLRGIWTHVVKNSKTD 155
>B9RMP8_RICCO (tr|B9RMP8) Two-component response regulator ARR14, putative
OS=Ricinus communis GN=RCOM_1082520 PE=4 SV=1
Length = 338
Score = 142 bits (358), Expect = 2e-32, Method: Compositional matrix adjust.
Identities = 72/139 (51%), Positives = 95/139 (68%), Gaps = 4/139 (2%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+D FP GLRV+VVDDDPT L ILE+MLK C +VT C A L++LREN+ GYDIVISD
Sbjct: 10 TDAFPAGLRVVVVDDDPTWLSILERMLKRCSCEVTTCCSARDVLALLRENRYGYDIVISD 69
Query: 86 VHMPDMDGFKLLEYIG----LEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEAL 141
V MP MD F L +IG E ++S D ++ VM+G+ GAC+YL+KP+R++ L
Sbjct: 70 VIMPGMDVFLHLLFIGSMLLTEHLYRFTVISVDGERSRVMRGIQLGACEYLLKPIRMKEL 129
Query: 142 KNIWQHVVRKKKNEMKDLE 160
+NI QHV R+K + D+E
Sbjct: 130 RNICQHVFRRKIQKEIDIE 148
>Q6AU68_ORYSJ (tr|Q6AU68) Putative uncharacterized protein OS=Oryza sativa subsp.
japonica GN=OSJNBa0014C03.15 PE=4 SV=1
Length = 368
Score = 138 bits (347), Expect = 3e-31, Method: Compositional matrix adjust.
Identities = 79/185 (42%), Positives = 112/185 (60%), Gaps = 22/185 (11%)
Query: 8 GSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYK--------- 58
GS S ASS+ + A + S P+G+RVL++D+ T L I+ K+L C YK
Sbjct: 3 GSCSVASSNKSKLADEEFS---PVGMRVLLIDESTTYLKIITKLLLNCGYKGLTVTNFEI 59
Query: 59 --------VTKCTRAEQALSMLRENKNGYDIVISDVHMP-DMDGFKLLEYIGLEMDLPVI 109
VT T A A+ L EN YD+V+++VH P +DGF LL+Y G +MDLPV+
Sbjct: 60 TYVWRVDEVTPKTAARDAVEELHENPWSYDMVLTEVHAPAGIDGFNLLQYAGTDMDLPVV 119
Query: 110 MMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKK-KNEMKDLEQSGSVEEG 168
+ SADD K V+K V GACDYL+KP+R E LKNIWQHV R+K ++ + +G+ +G
Sbjct: 120 VFSADDDKRTVLKCVNSGACDYLVKPLRHEELKNIWQHVYRRKLRSGGRRAAAAGNSSKG 179
Query: 169 DRQQR 173
+ ++R
Sbjct: 180 EIKKR 184
>D7KE14_ARALY (tr|D7KE14) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_474061 PE=4 SV=1
Length = 530
Score = 125 bits (315), Expect = 1e-27, Method: Compositional matrix adjust.
Identities = 61/124 (49%), Positives = 86/124 (69%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
QFP VLVVD + T L+ +++++K Y+VT T AE+AL+ L K+ +IVI D H
Sbjct: 29 QFPGNTNVLVVDTNFTTLLNMKQIMKQYAYQVTIETDAEKALAYLTSCKHEINIVIWDFH 88
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MP +DG + L+ IG +MDLPV++MS D+ VMK +GACDY++KPV+ E + NIWQH
Sbjct: 89 MPGIDGLQALKSIGSKMDLPVVIMSDDNQTESVMKATINGACDYVVKPVKEEVIANIWQH 148
Query: 148 VVRK 151
+VRK
Sbjct: 149 IVRK 152
>A5AQH6_VITVI (tr|A5AQH6) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_031283 PE=4 SV=1
Length = 609
Score = 125 bits (313), Expect = 2e-27, Method: Composition-based stats.
Identities = 65/178 (36%), Positives = 104/178 (58%), Gaps = 7/178 (3%)
Query: 8 GSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQ 67
G ++T+S S+ K V GL ++VVDDD CL I+ +LKT Y+V A+
Sbjct: 3 GEINTSSQSLEIKTSHV-------GLHIMVVDDDVICLSIVAGILKTWKYEVVTVNSAQD 55
Query: 68 ALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHG 127
AL+ LR N + ++++DVHMP+MDGF+ + E LPV+MMSADD ++ +++G+ G
Sbjct: 56 ALTTLRTRSNFFHLIVTDVHMPEMDGFEFQRLVHEEFHLPVVMMSADDKESSMLRGLEAG 115
Query: 128 ACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
A Y++KPV + LKN+WQ+ V KK + + Q +G ++ + + S +N
Sbjct: 116 AAFYIVKPVNYDDLKNLWQYAVGXKKGKSHIVMQEIERTQGASXLEKTSNNEVESLMN 173
>Q15FC6_STRAF (tr|Q15FC6) SRR380 OS=Striga asiatica PE=2 SV=1
Length = 432
Score = 124 bits (310), Expect = 6e-27, Method: Compositional matrix adjust.
Identities = 57/79 (72%), Positives = 66/79 (83%), Gaps = 4/79 (5%)
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPDMDGFKLLE +GLEMDLPVIM+SA+ +VMKGVTHGACDYL+KPVRIE L+NIWQH
Sbjct: 1 MPDMDGFKLLEQVGLEMDLPVIMLSANSDPKLVMKGVTHGACDYLVKPVRIEELRNIWQH 60
Query: 148 VVRKK----KNEMKDLEQS 162
V+R+K KNE K +QS
Sbjct: 61 VIRRKKFVSKNENKSADQS 79
>D7LT85_ARALY (tr|D7LT85) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_486765 PE=4 SV=1
Length = 431
Score = 122 bits (307), Expect = 1e-26, Method: Compositional matrix adjust.
Identities = 61/143 (42%), Positives = 93/143 (65%), Gaps = 3/143 (2%)
Query: 27 DQFPI-GLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
++FP +RVL+VD D L+ ++ ++ Y+VTK E+A++ L +NK D+VI D
Sbjct: 34 EEFPTTSIRVLLVDADSNSLLPMKNLMIQYSYQVTKYEDGEEAMAFLMKNKQEIDLVIWD 93
Query: 86 VHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIW 145
HMPD++G L IG EMDLPV++MS D K VM+ + +GACD+L+KPV E + +W
Sbjct: 94 FHMPDINGLDALNTIGKEMDLPVVIMSHDHKKETVMESIKYGACDFLVKPVSKEVIAVLW 153
Query: 146 QHVVRKK--KNEMKDLEQSGSVE 166
+HV RK+ K+ + +SG+VE
Sbjct: 154 RHVYRKRMSKSGLDKPGESGTVE 176
>Q7Y0W2_ORYGL (tr|Q7Y0W2) B-type response regulator OS=Oryza glaberrima GN=Ehd1
PE=4 SV=1
Length = 341
Score = 121 bits (303), Expect = 4e-26, Method: Compositional matrix adjust.
Identities = 57/139 (41%), Positives = 87/139 (62%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
+P GLRVLV+DDD + L ++E +L C YKVT +A+ + +N D+VISD
Sbjct: 7 WPYGLRVLVIDDDCSYLSVMEDLLLKCSYKVTTYKNVREAVPFILDNPQIVDLVISDAFF 66
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
P DG +L+ + + +P ++M++ N VMK V +GA D+L+KPVRIE L NIWQH+
Sbjct: 67 PTEDGLLILQEVTSKFGIPTVIMASSGDTNTVMKYVANGASDFLLKPVRIEELSNIWQHI 126
Query: 149 VRKKKNEMKDLEQSGSVEE 167
RK+ + K+ G++E+
Sbjct: 127 FRKQMQDHKNNNMVGNLEK 145
>B9IC77_POPTR (tr|B9IC77) Pseudo response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_774312 PE=4 SV=1
Length = 504
Score = 116 bits (291), Expect = 8e-25, Method: Compositional matrix adjust.
Identities = 55/147 (37%), Positives = 92/147 (62%)
Query: 29 FPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHM 88
FPIG+R+LVV+ DPTCL I+ KML+ Y+VT TRA AL +LRE ++ ++++ + +
Sbjct: 19 FPIGVRILVVESDPTCLRIVSKMLQAFGYEVTTATRATDALRILREKEDEINLILIETRL 78
Query: 89 PDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
PDM+ +++LE +G LP+++ SAD+ ++ ++ + GA YL+KP+ +KN+WQ
Sbjct: 79 PDMNQYEILETLGELSSLPIVVFSADNNESAMLGCLYKGAALYLMKPIIKNDVKNLWQLT 138
Query: 149 VRKKKNEMKDLEQSGSVEEGDRQQRQS 175
R K + S S G +++ S
Sbjct: 139 YRTKIKTAVSGKGSNSFHGGSSEEKAS 165
>C3UZN6_VITVI (tr|C3UZN6) Cytokinin B-type response regulator 5 (Fragment)
OS=Vitis vinifera GN=RRb5 PE=2 SV=1
Length = 81
Score = 116 bits (291), Expect = 9e-25, Method: Compositional matrix adjust.
Identities = 59/81 (72%), Positives = 66/81 (81%)
Query: 41 DPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYI 100
DPT L ILEKMLK CLY+VT C A AL++LRE K+GYDIVISDV+MPDMDGFKLLE +
Sbjct: 1 DPTWLKILEKMLKKCLYEVTICGLARDALNLLRERKDGYDIVISDVNMPDMDGFKLLELV 60
Query: 101 GLEMDLPVIMMSADDGKNVVM 121
GLEMDLPVIMMS D + VM
Sbjct: 61 GLEMDLPVIMMSVDGETSRVM 81
>A5BC46_VITVI (tr|A5BC46) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_005693 PE=4 SV=1
Length = 790
Score = 115 bits (288), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 58/131 (44%), Positives = 87/131 (66%), Gaps = 1/131 (0%)
Query: 35 VLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGF 94
VLVVD DPTCLMI+ ML+ Y+V RA AL+M E G D+V++++HMPDM G
Sbjct: 523 VLVVDCDPTCLMIVSGMLRALTYEVLTVDRAVDALAMTLEGGCGVDLVMTELHMPDMYGL 582
Query: 95 KLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKN 154
LL+ I LPV++MSAD ++V++K + GA YL+KPV +E + N WQ+V ++++
Sbjct: 583 DLLDEIRRTSKLPVVIMSADSNEDVMLKSLRRGAEYYLVKPVLMEDVTNFWQYVFKRRRQ 642
Query: 155 EMK-DLEQSGS 164
++ + E+ GS
Sbjct: 643 KLSLETEKKGS 653
Score = 101 bits (252), Expect = 3e-20, Method: Compositional matrix adjust.
Identities = 53/141 (37%), Positives = 86/141 (60%), Gaps = 14/141 (9%)
Query: 35 VLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGF 94
VLVVD DPT LM + ML+ Y+V R AL+M+ E K+ D+V++++HMPDMDG
Sbjct: 23 VLVVDCDPTSLMTISGMLRALTYQVVTVERVTDALAMILERKDEVDLVMTELHMPDMDGL 82
Query: 95 KLLEYIGLEMDLPVI------------MMSADDGKNVVMKGVTHGACDYLIKPVRIEALK 142
+LL+ I LPV+ +MSAD ++ +++ + GA Y+ KPV + ++K
Sbjct: 83 QLLDEIQKTSKLPVVNFFFFLDGNGNPVMSADAEEDAMLRSLNKGATYYMXKPVEMGSIK 142
Query: 143 NIWQHVVRKKKNEMKDLEQSG 163
N+WQ+V +++ K L+++G
Sbjct: 143 NLWQYVFLNRRD--KQLQKTG 161
>B8AY09_ORYSI (tr|B8AY09) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_19863 PE=4 SV=1
Length = 385
Score = 115 bits (288), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 57/117 (48%), Positives = 80/117 (68%), Gaps = 2/117 (1%)
Query: 59 VTKCTRAEQALSMLRENKNGYDIVISDVHMP-DMDGFKLLEYIGLEMDLPVIMMSADDGK 117
VT T A A+ L EN YD+V+++VH P +DGF LL+Y G +MDLPV++ SADD K
Sbjct: 6 VTPKTAARDAVEELHENPWSYDMVLTEVHAPAGIDGFNLLQYAGTDMDLPVVVFSADDDK 65
Query: 118 NVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKK-KNEMKDLEQSGSVEEGDRQQR 173
V+K V GACDYL+KP+R E LKNIWQHV R+K ++ + +G+ +G+ ++R
Sbjct: 66 RTVLKCVNSGACDYLVKPLRHEELKNIWQHVYRRKLRSGGRRAAAAGNSSKGEIKKR 122
>A5BXH6_VITVI (tr|A5BXH6) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_027774 PE=4 SV=1
Length = 137
Score = 114 bits (284), Expect = 7e-24, Method: Compositional matrix adjust.
Identities = 61/111 (54%), Positives = 79/111 (71%), Gaps = 4/111 (3%)
Query: 19 WKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNG 78
+K VVSDQF GL+VLVVDDD T L ILE+ML+ Y VT C++A AL++LRE K+
Sbjct: 26 YKVNVVVSDQFSTGLKVLVVDDDVTRLRILEQMLR---YHVTTCSQATIALNILREKKDC 82
Query: 79 YDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGAC 129
+DIV+SD +P M +KLLE++GLE DLP+IMMSAD VM+ +H C
Sbjct: 83 FDIVLSDARVPGMIDYKLLEHVGLETDLPIIMMSADGRTGAVMRD-SHSWC 132
>B9GPU2_POPTR (tr|B9GPU2) Predicted protein OS=Populus trichocarpa GN=PtpRR1 PE=4
SV=1
Length = 458
Score = 112 bits (280), Expect = 2e-23, Method: Compositional matrix adjust.
Identities = 51/129 (39%), Positives = 85/129 (65%), Gaps = 1/129 (0%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISD 85
+ F G+R+LVV+ DPTCL I+ KML+ Y+VT TRA AL +LRE ++ ++++ +
Sbjct: 16 ASSFAEGVRILVVESDPTCLRIVSKMLQAFGYEVTTATRATDALHILREKEDEINLILIE 75
Query: 86 VHMPDMDGFKLLEYI-GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
H+PDMD ++++E + + LP+++ SAD+ + ++ + GA YL+KP+ +KN+
Sbjct: 76 THLPDMDQYEIIETVRAMSSSLPIVVFSADNNVSAMLGWLYKGAALYLMKPIVKNDVKNL 135
Query: 145 WQHVVRKKK 153
WQ RKKK
Sbjct: 136 WQLTYRKKK 144
>D7MNQ4_ARALY (tr|D7MNQ4) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_357174 PE=4 SV=1
Length = 280
Score = 112 bits (280), Expect = 2e-23, Method: Compositional matrix adjust.
Identities = 56/130 (43%), Positives = 82/130 (63%)
Query: 22 GDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDI 81
D+ FP GLR+LV D+D + L +LE L+ Y+VT C +A+ LR ++N +DI
Sbjct: 28 SDMFPSNFPEGLRMLVFDEDSSHLQMLETNLQKFQYQVTICNEENKAMYALRNHRNRFDI 87
Query: 82 VISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEAL 141
I + D D F+ L IG EMDLP+I++S D VMK + +GA DYLIKP++ E L
Sbjct: 88 AIIQGNNSDGDMFRFLSEIGSEMDLPIIIISEDKSVQSVMKWMINGATDYLIKPIKPEEL 147
Query: 142 KNIWQHVVRK 151
+ I++H+V+K
Sbjct: 148 RIIFKHLVKK 157
>B9ID11_POPTR (tr|B9ID11) Type-b response regulator OS=Populus trichocarpa
GN=PtRR20 PE=4 SV=1
Length = 716
Score = 111 bits (278), Expect = 3e-23, Method: Composition-based stats.
Identities = 59/157 (37%), Positives = 94/157 (59%), Gaps = 10/157 (6%)
Query: 20 KAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYK--------VTKCTRAEQALSM 71
++ +++ + + +++LVVDDD T L I+ MLKTC YK V ALS
Sbjct: 5 QSSNIIQNSSLLKIKILVVDDDSTSLSIVSAMLKTCSYKENRKLELFVVTVKNPFDALST 64
Query: 72 LRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDY 131
LR K +D+V++D+HMP+M+G +L + + E LPVI+MS+DD + V+++ + GA Y
Sbjct: 65 LRLKKGLFDLVVTDLHMPEMNGMELQQQVDEEFKLPVIIMSSDDSEKVILRTLEGGAAFY 124
Query: 132 LIKPVRIEALKNIWQHVVRKK--KNEMKDLEQSGSVE 166
++KP+ + LKN+WQ+ V K K + E GS E
Sbjct: 125 IVKPINKDDLKNVWQYAVATKTGKYSLSIKEIGGSQE 161
>B9I9N3_POPTR (tr|B9I9N3) Response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_572656 PE=4 SV=1
Length = 144
Score = 110 bits (275), Expect = 7e-23, Method: Compositional matrix adjust.
Identities = 55/98 (56%), Positives = 75/98 (76%), Gaps = 1/98 (1%)
Query: 71 MLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACD 130
MLRE+KN +D++ +D+ M +MDG +LL+ I EMDLPV+++S+DD + +V+KGV GACD
Sbjct: 1 MLREDKNRFDVLGNDLQMHEMDGIQLLKIIRSEMDLPVVIISSDDEQELVLKGVLQGACD 60
Query: 131 YLIKPVRIEALKNIWQHVVRKK-KNEMKDLEQSGSVEE 167
LIKPV++EALK WQHVVRKK N ++ LEQ EE
Sbjct: 61 CLIKPVKMEALKVFWQHVVRKKINNTLERLEQPIRKEE 98
>B9R9G8_RICCO (tr|B9R9G8) Two-component system sensor histidine kinase/response
regulator, putative OS=Ricinus communis GN=RCOM_1497420
PE=4 SV=1
Length = 754
Score = 107 bits (266), Expect = 7e-22, Method: Composition-based stats.
Identities = 55/162 (33%), Positives = 89/162 (54%), Gaps = 9/162 (5%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+++L+VDDD L I+ MLKTC +V ALS L+ + +D+VI+D+HMP M+
Sbjct: 21 VQILIVDDDAPTLGIVSSMLKTCSLQVVTVKNPLDALSSLQSSDGAFDLVITDLHMPGMN 80
Query: 93 GFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKK 152
G +L + I E +PV++MS+D ++ +++ + GA Y++KPV + LKN+WQ+ + K
Sbjct: 81 GIQLQKQIDEEFKIPVVIMSSDGKRSAILESLESGAVYYMVKPVNLRDLKNVWQYAMASK 140
Query: 153 KN---------EMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
K E D E S S E+ + S + N
Sbjct: 141 KGKEVVVAEEPENNDGEASASTEKDSCEDNNSASVSANEESN 182
>C3UZN7_VITVI (tr|C3UZN7) Cytokinin B-type response regulator 6 (Fragment)
OS=Vitis vinifera GN=RRb6 PE=2 SV=1
Length = 58
Score = 107 bits (266), Expect = 8e-22, Method: Composition-based stats.
Identities = 49/58 (84%), Positives = 55/58 (94%)
Query: 44 CLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIG 101
CLMILEKML+TCLY+VTKC RAE ALS+LR NK+G+DIVISDVHMPDMDGFKLLE+IG
Sbjct: 1 CLMILEKMLRTCLYEVTKCNRAETALSLLRGNKSGFDIVISDVHMPDMDGFKLLEHIG 58
>A5AG16_VITVI (tr|A5AG16) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_019100 PE=4 SV=1
Length = 659
Score = 106 bits (264), Expect = 1e-21, Method: Composition-based stats.
Identities = 54/146 (36%), Positives = 87/146 (59%), Gaps = 4/146 (2%)
Query: 44 CLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLE 103
CL I+ +L+T Y+V AL+ LR + + +V++DVHMP++DGF+ + + E
Sbjct: 33 CLSIVAGILRTRRYQVVTVKNPLDALATLRSGSDFFHLVVTDVHMPELDGFEFQKKVQEE 92
Query: 104 MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSG 163
LPV+MMSADD ++ ++KG+ GA Y++KPV + LKNIWQ+ V +K+ D++ G
Sbjct: 93 FQLPVVMMSADDKESSMLKGLEAGAAFYIVKPVNYDDLKNIWQYAVGPRKDNSVDMQDVG 152
Query: 164 SVEEGDRQQRQSE----DADYSSSVN 185
E + ++ D + SSVN
Sbjct: 153 PAPEEESPVEKTPDDPVDIESVSSVN 178
>D7TMX0_VITVI (tr|D7TMX0) Whole genome shotgun sequence of line PN40024,
scaffold_100.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00010627001 PE=4 SV=1
Length = 592
Score = 105 bits (263), Expect = 2e-21, Method: Composition-based stats.
Identities = 54/146 (36%), Positives = 87/146 (59%), Gaps = 4/146 (2%)
Query: 44 CLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLE 103
CL I+ +L+T Y+V AL+ LR + + +V++DVHMP++DGF+ + + E
Sbjct: 33 CLSIVAGILRTRRYQVVTVKNPLDALATLRSGSDFFHLVVTDVHMPELDGFEFQKKVQEE 92
Query: 104 MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKNEMKDLEQSG 163
LPV+MMSADD ++ ++KG+ GA Y++KPV + LKNIWQ+ V +K+ D++ G
Sbjct: 93 FQLPVVMMSADDKESSMLKGLEAGAAFYIVKPVNYDDLKNIWQYAVGPRKDNSVDMQDVG 152
Query: 164 SVEEGDRQQRQSE----DADYSSSVN 185
E + ++ D + SSVN
Sbjct: 153 PAPEEESPVEKTPDDPVDIESVSSVN 178
>B9RDJ9_RICCO (tr|B9RDJ9) Sensor histidine kinase, putative OS=Ricinus communis
GN=RCOM_1613700 PE=4 SV=1
Length = 437
Score = 105 bits (262), Expect = 2e-21, Method: Compositional matrix adjust.
Identities = 51/124 (41%), Positives = 81/124 (65%), Gaps = 1/124 (0%)
Query: 32 GLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDM 91
G+ +LVVD D CL I+ KML YKV RA AL +LRE + D+++++VH+PDM
Sbjct: 18 GVSILVVDCDSACLAIVSKMLYISGYKVITAKRATDALHILRERQYELDLILTEVHLPDM 77
Query: 92 DGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH-VVR 150
D ++LLE + LP++++SADD +N ++ + GA YL+KP+ + +K++WQ V+
Sbjct: 78 DKYELLETMAEVSCLPIVILSADDDENAMLGCLFKGAVFYLLKPITMNDVKSLWQFSCVK 137
Query: 151 KKKN 154
+KN
Sbjct: 138 NRKN 141
>C1E9S4_9CHLO (tr|C1E9S4) Response regulator receiver/WD40 domain fusion protein
OS=Micromonas sp. RCC299 GN=MICPUN_59822 PE=4 SV=1
Length = 1414
Score = 104 bits (260), Expect = 3e-21, Method: Composition-based stats.
Identities = 51/127 (40%), Positives = 84/127 (66%), Gaps = 4/127 (3%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P + VL+VDDD C ++ MLK C Y+VT + E+A+++L E ++++++DV MP
Sbjct: 6 PADVHVLLVDDDRVCRTLVAGMLKKCNYQVTTASSGEEAMALL-ERGTQFNLLLTDVMMP 64
Query: 90 DMDGFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
D+DG LL Y+ ++PV+MMS+++ + VM + GA DYL+KPV +A+K++W
Sbjct: 65 DVDGPTLLHYVRNNPFYQEMPVVMMSSNEHADTVMNCIRLGAEDYLLKPVTKKAVKHMWA 124
Query: 147 HVVRKKK 153
HV R+K+
Sbjct: 125 HVWRRKQ 131
>B9I4F7_POPTR (tr|B9I4F7) Type-b response regulator OS=Populus trichocarpa
GN=PtRR17 PE=4 SV=1
Length = 658
Score = 104 bits (260), Expect = 4e-21, Method: Composition-based stats.
Identities = 64/179 (35%), Positives = 100/179 (55%), Gaps = 14/179 (7%)
Query: 20 KAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYK--------VTKCTRAEQALSM 71
++ + +S P + +L+VDDD T L ++ LKT YK V + ALS+
Sbjct: 5 QSSNALSSSLP-KIHILIVDDDSTSLSVVSATLKTVSYKDNRNLELIVVTVKKPFDALSI 63
Query: 72 LRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDY 131
LR K +D+V+SD+HMP+M+G +L + + E LPVI+MS+D+ KNV+ + + GA Y
Sbjct: 64 LRLKKGLFDLVVSDLHMPEMNGMELQKQVEEEFKLPVIIMSSDESKNVISRSLEGGAAFY 123
Query: 132 LIKPVRIEALKNIWQHVVR-KKKNEMKDLEQSGSVEEGDRQ---QRQS-EDADYSSSVN 185
++KP LKN+W + V K N + E GS E +R S ED + ++S+N
Sbjct: 124 IVKPANKVDLKNVWHYAVAIKTGNSLSIKEIEGSREPSYSSTLVERLSLEDVNSATSIN 182
>A5BFC8_VITVI (tr|A5BFC8) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_003290 PE=4 SV=1
Length = 594
Score = 104 bits (259), Expect = 5e-21, Method: Composition-based stats.
Identities = 62/187 (33%), Positives = 94/187 (50%), Gaps = 45/187 (24%)
Query: 32 GLRVLVVDDDPTCLMILEKMLKTCLYK--------------------------------- 58
+RV+VVDDD CL I+ MLKT Y+
Sbjct: 20 AIRVMVVDDDIICLSIVAGMLKTWKYQDMLNVVFCNFIKIIRQGCIRGEEASTRNGISSS 79
Query: 59 VTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKN 118
V AE AL LR N + +V++DVHMP MDGF+ + + E +LPV+MMSADD ++
Sbjct: 80 VVSVKNAEDALITLRTRSNFFHLVVTDVHMPKMDGFEFQKQVREEFNLPVVMMSADDKES 139
Query: 119 VVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKK-------NEMKDLEQS-----GSVE 166
+++G+ GA Y++KPV + LK++WQ+ + +K EM++ S V
Sbjct: 140 SILRGLEAGAAFYIVKPVNYDDLKDLWQYALSPRKGSVSVXHEEMQNKRDSKKKAGKKVN 199
Query: 167 EGDRQQR 173
EG+ Q++
Sbjct: 200 EGNEQEK 206
>C5Z634_SORBI (tr|C5Z634) Putative uncharacterized protein Sb10g024170 OS=Sorghum
bicolor GN=Sb10g024170 PE=4 SV=1
Length = 158
Score = 103 bits (257), Expect = 9e-21, Method: Compositional matrix adjust.
Identities = 63/121 (52%), Positives = 75/121 (61%), Gaps = 16/121 (13%)
Query: 18 AWKAGD-VVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENK 76
A K G+ + +D FP GLRVL V+ D C ILE+ LK C Y T T A+ AL MLRE K
Sbjct: 17 AAKTGEEMAADTFPAGLRVLAVEHDRVCSKILERQLKYCNYNATMVTNAQTALDMLRERK 76
Query: 77 ---NGYDIVISDVHM--PDMDGFKLLEYIGLEMDLPVI----------MMSADDGKNVVM 121
N +D+VIS+V M P+MDGFKLLE IGLEMDLPVI MSA G N ++
Sbjct: 77 EYGNQFDLVISNVAMPKPNMDGFKLLELIGLEMDLPVINSEVATRGGNCMSAARGGNHML 136
Query: 122 K 122
K
Sbjct: 137 K 137
>Q00UB8_OSTTA (tr|Q00UB8) OJ1695_H09.29 gene product (ISS) OS=Ostreococcus tauri
GN=Ot16g01320 PE=4 SV=1
Length = 297
Score = 103 bits (256), Expect = 1e-20, Method: Compositional matrix adjust.
Identities = 43/64 (67%), Positives = 55/64 (85%)
Query: 88 MPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQH 147
MPD+DGFKLLE I E++LPV+MMSA+ +VV++G+ HGA DYL+KPVRIE L+NIWQH
Sbjct: 1 MPDVDGFKLLEIIQFELNLPVLMMSANSDSSVVLRGIIHGAVDYLLKPVRIEELRNIWQH 60
Query: 148 VVRK 151
VVR+
Sbjct: 61 VVRR 64
>Q00ZH3_OSTTA (tr|Q00ZH3) WD40 repeat-containing protein (ISS) OS=Ostreococcus
tauri GN=Ot10g03510 PE=4 SV=1
Length = 878
Score = 102 bits (254), Expect = 2e-20, Method: Compositional matrix adjust.
Identities = 62/180 (34%), Positives = 100/180 (55%), Gaps = 11/180 (6%)
Query: 2 NLSNGKGSMSTASSSVAWKAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTK 61
++ G SM S+ + G V + + VLVVDD+ C + +L+ C Y+VT
Sbjct: 3 SVRGGTTSMDRVPSTSSLNDGPVTTSD----VHVLVVDDERICRTVTSSLLRRCGYRVTM 58
Query: 62 CTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLE---MDLPVIMMSADDGKN 118
E+AL +LR + ++++DV MP +DG LL+ + + D+PV+MMSA++ +
Sbjct: 59 AESGEEALELLRRGTE-FHMLLTDVMMPGIDGPALLQIVRNDERLRDMPVVMMSANEHSD 117
Query: 119 VVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKK-NEMKDLEQSGSVEEGDRQQRQSED 177
V + + HGA DYL+KPV A+K++W HV RK + N + + Q G E+G+ ED
Sbjct: 118 TVFRCIQHGAEDYLLKPVSRRAVKHMWTHVWRKSQVNVSRTVPQLG--EDGEELLEDDED 175
>D2KK87_BRACM (tr|D2KK87) Pseudo-response regulator 5a OS=Brassica campestris
PE=2 SV=1
Length = 497
Score = 102 bits (254), Expect = 2e-20, Method: Compositional matrix adjust.
Identities = 50/130 (38%), Positives = 79/130 (60%), Gaps = 5/130 (3%)
Query: 31 IGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPD 90
I LRVL+V+ D + I+ +L+ C Y+V +A ML+ N D+++++V +P
Sbjct: 53 IALRVLLVEADDSTRQIISALLRKCSYRVAAVPDGLKAWEMLKGNPESVDLILAEVDLPS 112
Query: 91 MDGFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
+ G+ LL I +E D +PVIMMS D N V K + GA DYL+KP+R L+N+WQ
Sbjct: 113 ISGYALLTLI-MEHDVCKNIPVIMMSTHDSVNTVYKCMLKGAADYLVKPLRRNELRNLWQ 171
Query: 147 HVVRKKKNEM 156
HV R++++ +
Sbjct: 172 HVWRRRQSTL 181
>A4S474_OSTLU (tr|A4S474) Predicted protein (Fragment) OS=Ostreococcus
lucimarinus (strain CCE9901) GN=OSTLU_38278 PE=4 SV=1
Length = 145
Score = 100 bits (249), Expect = 7e-20, Method: Compositional matrix adjust.
Identities = 50/124 (40%), Positives = 80/124 (64%), Gaps = 4/124 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+ VLVVDD+ C + +L+ C Y+VT E+AL +LR + ++++DV MP +D
Sbjct: 23 VHVLVVDDERICRTVTSSLLRKCGYRVTTAESGEEALELLRRGTE-FHLLLTDVMMPGID 81
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL+ + + D+PVIMMSA++ + V + + +GA DYL+KPV +A+K++WQHV
Sbjct: 82 GPALLQIVRNDERLRDMPVIMMSANEHSDTVFRCIQYGAEDYLLKPVSRKAVKHMWQHVW 141
Query: 150 RKKK 153
RK +
Sbjct: 142 RKSQ 145
>B9FV24_ORYSJ (tr|B9FV24) Putative uncharacterized protein OS=Oryza sativa subsp.
japonica GN=OsJ_25707 PE=4 SV=1
Length = 661
Score = 100 bits (249), Expect = 7e-20, Method: Compositional matrix adjust.
Identities = 46/122 (37%), Positives = 77/122 (63%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
++VL+VD D + ++ +L+ C+Y+V +QA + L + +N D+V+++V MP +
Sbjct: 61 IKVLLVDSDDSTRQVVSALLRHCMYEVIPAENGQQAWTYLEDMQNSIDLVLTEVVMPGVS 120
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I + ++PVIMMS++D V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 121 GISLLSRIMNHNICKNIPVIMMSSNDAMGTVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 180
Query: 150 RK 151
R+
Sbjct: 181 RR 182
>D2DNK1_PEA (tr|D2DNK1) Pseudo response regulator 59 (Fragment) OS=Pisum
sativum GN=PRR59 PE=2 SV=1
Length = 469
Score = 100 bits (248), Expect = 9e-20, Method: Compositional matrix adjust.
Identities = 54/157 (34%), Positives = 89/157 (56%), Gaps = 5/157 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D I+ +L+ C YKV +A +L+ +D+++++V +P +
Sbjct: 20 LRVLLVEADDCTRQIITALLRKCNYKVAAVADGLKAWEILKGRPRNFDLILTEVDLPSVS 79
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G+ LL I +E D +PVIMMS+ D + V K + GA DYL+KP+RI L+N+WQHV
Sbjct: 80 GYALLSLI-MEHDTCKTIPVIMMSSQDSVSTVYKCMLRGAADYLVKPIRINELRNLWQHV 138
Query: 149 VRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSVN 185
R++ +G +E D Q+ A+ +++ N
Sbjct: 139 WRRQSQSTATAGINGPQDEIDALQKVEATAENNAASN 175
>B8B6B7_ORYSI (tr|B8B6B7) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_27455 PE=4 SV=1
Length = 507
Score = 98.6 bits (244), Expect = 2e-19, Method: Compositional matrix adjust.
Identities = 45/122 (36%), Positives = 77/122 (63%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
++VL+V+ D + ++ +L+ C+Y+V +QA + L + +N D+V+++V MP +
Sbjct: 61 IKVLLVESDDSTRQVVSALLRHCMYEVIPAENGQQAWTYLEDMQNSIDLVLTEVVMPGVS 120
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I + ++PVIMMS++D V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 121 GISLLSRIMNHNICKNIPVIMMSSNDAMGTVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 180
Query: 150 RK 151
R+
Sbjct: 181 RR 182
>D2DNJ9_PEA (tr|D2DNJ9) Pseudo response regulator 37 OS=Pisum sativum GN=PRR37
PE=2 SV=1
Length = 780
Score = 98.6 bits (244), Expect = 3e-19, Method: Compositional matrix adjust.
Identities = 48/123 (39%), Positives = 79/123 (64%), Gaps = 5/123 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
++VL+VDDD + ++ +L+ C Y+VT + QA L + N D+V+++V MP +
Sbjct: 74 IKVLLVDDDDSTRNVVCALLRNCGYEVTAVSNGLQAWKALEDPGNRIDLVLTEVAMPFVS 133
Query: 93 GF----KLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G K++ +I L+ ++PVIMMS+ D +V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 134 GIGLLCKIMSHIALK-NIPVIMMSSHDSMGIVFKCLSKGAADFLVKPIRRNELKNLWQHV 192
Query: 149 VRK 151
R+
Sbjct: 193 WRR 195
>Q56XM1_ARATH (tr|Q56XM1) Putative uncharacterized protein At2g46790
OS=Arabidopsis thaliana GN=At2g46790 PE=2 SV=1
Length = 468
Score = 98.2 bits (243), Expect = 4e-19, Method: Compositional matrix adjust.
Identities = 48/123 (39%), Positives = 77/123 (62%), Gaps = 5/123 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C YKV + A +L+E + D++++++ +P +
Sbjct: 37 LRVLLVESDYSTRQIITALLRKCCYKVVAVSDGLAAWEVLKEKSHNIDLILTELDLPSIS 96
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL + +E + +PVIMMS+ D +V+K + GA DYLIKP+R LKN+WQHV
Sbjct: 97 GFALLALV-MEHEACKNIPVIMMSSQDSIKMVLKCMLRGAADYLIKPMRKNELKNLWQHV 155
Query: 149 VRK 151
R+
Sbjct: 156 WRR 158
>Q2PEF4_LEMGI (tr|Q2PEF4) Pseudo-response regulator 37 homologue OS=Lemna gibba
GN=LgPRRH37 PE=2 SV=1
Length = 623
Score = 98.2 bits (243), Expect = 4e-19, Method: Compositional matrix adjust.
Identities = 49/122 (40%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+VT +A L N DIV+++V MP +
Sbjct: 77 LKVLLVENDDSTRHVVNALLRNCSYEVTAVANGLEAWKFLENLSNNVDIVLTEVVMPSLT 136
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL+ I M L PVIMMS+ D +V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 137 GIGLLDKIMSHMTLKTIPVIMMSSHDSMGIVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 196
Query: 150 RK 151
R+
Sbjct: 197 RR 198
>Q2PEF6_9ARAE (tr|Q2PEF6) Pseudo-response regulator 59 homologue OS=Lemna
paucicostata GN=LpPRRH59 PE=2 SV=1
Length = 501
Score = 97.8 bits (242), Expect = 4e-19, Method: Compositional matrix adjust.
Identities = 55/148 (37%), Positives = 82/148 (55%), Gaps = 7/148 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D I+ +L+ C Y V +A ++ E +DI++S+V +P
Sbjct: 73 LRVLLVEPDDCTRHIVTALLRKCSYHVAAVADGIKAWDIVEEKNFNFDIILSEVEVPSFS 132
Query: 93 GFKLLEYI-GLEMD--LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I G E+ +PVIMMS+ D +VV K + GA D+L+KPVR L+N+WQHV
Sbjct: 133 GINLLSKIMGTELSRSIPVIMMSSQDSVSVVFKCMQKGAVDFLVKPVRKNELRNLWQHVW 192
Query: 150 RKKKNEMKDLEQSGSVEEGDRQQRQSED 177
R+ + + + E GD Q SE+
Sbjct: 193 RRHCS----IPYANGTENGDNTQSASEN 216
>D7LF88_ARALY (tr|D7LF88) Pseudo-response regulator 9 OS=Arabidopsis lyrata
subsp. lyrata GN=APRR9 PE=4 SV=1
Length = 476
Score = 97.4 bits (241), Expect = 6e-19, Method: Compositional matrix adjust.
Identities = 48/123 (39%), Positives = 77/123 (62%), Gaps = 5/123 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C YKV + A +L+E + D++++++ +P +
Sbjct: 37 LRVLLVESDYSTRQIITALLRKCCYKVVAVSDGLAAWEVLKEKSHNIDLILTELDLPSIS 96
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL + +E + +PVIMMS+ D +V+K + GA DYLIKP+R LKN+WQHV
Sbjct: 97 GFALLALV-MEHEACKNIPVIMMSSQDSIKMVLKCMLRGAADYLIKPMRKNELKNLWQHV 155
Query: 149 VRK 151
R+
Sbjct: 156 WRR 158
>Q2PEF3_LEMGI (tr|Q2PEF3) Pseudo-response regulator 59 homologue OS=Lemna gibba
GN=LgPRRH59 PE=2 SV=1
Length = 496
Score = 97.4 bits (241), Expect = 6e-19, Method: Compositional matrix adjust.
Identities = 49/122 (40%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C Y V +A +++E +DI++S+V +P
Sbjct: 57 LRVLLVEPDDSTRHIVTALLRKCSYHVASVADGIKAWDIVKEKNFNFDIILSEVEVPSFS 116
Query: 93 GFKLLEYI-GLEMD--LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I G E+ +PVIMMS+ D +VV K + GA D+L+KPVR L+N+WQHV
Sbjct: 117 GISLLTKIMGTELSRSIPVIMMSSQDSVSVVFKCMQKGAVDFLVKPVRKNELRNLWQHVW 176
Query: 150 RK 151
R+
Sbjct: 177 RR 178
>Q2PEF7_9ARAE (tr|Q2PEF7) Pseudo-response regulator 37 homologue OS=Lemna
paucicostata GN=LpPRRH37 PE=2 SV=1
Length = 617
Score = 97.1 bits (240), Expect = 8e-19, Method: Compositional matrix adjust.
Identities = 48/122 (39%), Positives = 75/122 (61%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+VT +A +L N DIV+++V MP +
Sbjct: 77 LKVLLVENDDSTRHVVNALLRNCSYEVTAVANGLEAWKVLENLSNNVDIVLTEVVMPSLS 136
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL+ I + L PVIMMS+ D +V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 137 GIGLLDKIMSHITLKTIPVIMMSSHDSMGIVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 196
Query: 150 RK 151
R+
Sbjct: 197 RR 198
>D2KK89_BRACM (tr|D2KK89) Pseudo-response regulator 9 OS=Brassica campestris PE=2
SV=1
Length = 412
Score = 97.1 bits (240), Expect = 9e-19, Method: Compositional matrix adjust.
Identities = 48/123 (39%), Positives = 77/123 (62%), Gaps = 5/123 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V+ D + I+ +L+ C YKV + A L+E N D++++++ +P +
Sbjct: 26 LKVLLVESDDSTRQIITALLQKCSYKVVAVSDGLAAWETLKEKSNEIDLILTELDLPAIS 85
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL + +E + +PVIMMS++D +V+K + GA DYLIKP+R LKN+WQHV
Sbjct: 86 GFALLALV-MEHEACKNIPVIMMSSEDSMTMVLKCMLKGAADYLIKPMRKNELKNLWQHV 144
Query: 149 VRK 151
R+
Sbjct: 145 WRR 147
>Q2PEF5_9ARAE (tr|Q2PEF5) Pseudo-response regulator 95 homologue OS=Lemna
paucicostata GN=LpPRRH95 PE=2 SV=1
Length = 448
Score = 96.7 bits (239), Expect = 9e-19, Method: Compositional matrix adjust.
Identities = 46/124 (37%), Positives = 80/124 (64%), Gaps = 5/124 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + I+ +L+ C YKV+ + +A L+E+ N D+V+++V +P++
Sbjct: 31 VRVLLVEADDSTRKIVAALLRKCSYKVSSASDGLEAWKTLKESPNNIDLVLTEVELPNVS 90
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G+ LL + +E D +PVIMMS+ D +V + + GA D+L+KP+R L+N+WQHV
Sbjct: 91 GYALLSMM-MEHDSCKSIPVIMMSSRDSMKMVFECMLKGAADFLVKPIRKNELRNLWQHV 149
Query: 149 VRKK 152
R++
Sbjct: 150 WRRQ 153
>D7TQA8_VITVI (tr|D7TQA8) Whole genome shotgun sequence of line PN40024,
scaffold_40.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00025556001 PE=4 SV=1
Length = 211
Score = 96.7 bits (239), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 46/124 (37%), Positives = 80/124 (64%), Gaps = 3/124 (2%)
Query: 34 RVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDG 93
RVL+V++D + ++ +L+ C Y+VT+ + QA +L++ N D+V+++V++P + G
Sbjct: 59 RVLLVENDDSTRYVIGALLRNCGYQVTETSNGLQAWRILKDTSNHIDLVLTEVNLPRLSG 118
Query: 94 FKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVR 150
LL I ++PVIMMS D +V+K ++ GA D+L+KPVR LK +WQH+ R
Sbjct: 119 IALLCKIMNHKTRKNIPVIMMSTHDSGALVLKCLSKGATDFLVKPVRKNELKFLWQHIWR 178
Query: 151 KKKN 154
+++N
Sbjct: 179 RRQN 182
>Q75HW2_ORYSJ (tr|Q75HW2) Putative uncharacterized protein OSJNBa0014C03.14
OS=Oryza sativa subsp. japonica GN=OSJNBb0092G21.3 PE=2
SV=1
Length = 620
Score = 96.7 bits (239), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 58/119 (48%), Positives = 75/119 (63%), Gaps = 3/119 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGY-DIVISDVHMPDM 91
L VLVVDDD L L+ ML Y VT T AE+AL + +N Y IV++DVHM M
Sbjct: 23 LHVLVVDDDAAYLEELKLMLLLAGYAVTGKTTAEEALKEVDQNPEDYFHIVMTDVHMSGM 82
Query: 92 DGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVR 150
DGF LL I +PVIM S + +VM+ V +GACDY++KP+ EA+K IW+HV+R
Sbjct: 83 DGFDLLHRINGR--VPVIMFSEGEDVVMVMRTVMNGACDYMVKPMTSEAIKFIWKHVLR 139
>B9SEL0_RICCO (tr|B9SEL0) Putative uncharacterized protein OS=Ricinus communis
GN=RCOM_0969830 PE=4 SV=1
Length = 667
Score = 96.3 bits (238), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 46/123 (37%), Positives = 75/123 (60%), Gaps = 3/123 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C YKV +A ML+ + D+++++V +P +
Sbjct: 44 LRVLLVEADDSTRQIIAALLRKCSYKVAAVPDGLKAWEMLKGKPHNIDLILTEVELPSIS 103
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G+ LL I + ++PVIMMS+ D + V K + GA DYL+KP+R L+N+WQHV
Sbjct: 104 GYALLTLIMEHEICKNIPVIMMSSQDSVSTVYKCMMRGAADYLVKPIRKNELRNLWQHVW 163
Query: 150 RKK 152
R++
Sbjct: 164 RRQ 166
>A2Y4D8_ORYSI (tr|A2Y4D8) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_19866 PE=4 SV=1
Length = 604
Score = 96.3 bits (238), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 58/119 (48%), Positives = 75/119 (63%), Gaps = 3/119 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGY-DIVISDVHMPDM 91
L VLVVDDD L L+ ML Y VT T AE+AL + +N Y IV++DVHM M
Sbjct: 23 LHVLVVDDDAAYLEELKLMLLLAGYAVTGKTTAEEALKEVDQNPEDYFHIVMTDVHMSGM 82
Query: 92 DGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVR 150
DGF LL I +PVIM S + +VM+ V +GACDY++KP+ EA+K IW+HV+R
Sbjct: 83 DGFDLLHRINGR--VPVIMFSEGEDVVMVMRTVMNGACDYMVKPMTSEAIKFIWKHVLR 139
>D7U834_VITVI (tr|D7U834) Whole genome shotgun sequence of line PN40024,
scaffold_48.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00027443001 PE=4 SV=1
Length = 593
Score = 96.3 bits (238), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 50/139 (35%), Positives = 82/139 (58%), Gaps = 5/139 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C YKV + +A L+ D+++++V +P +
Sbjct: 3 LRVLLVEPDDSTRQIIAALLRKCSYKVAAVSDGLKAWEALKGEPQNVDLILTEVELPSIS 62
Query: 93 GFKLLEYIGLEMDL----PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL I +E D+ PVIMMS+ D ++V+K + GA D+L+KPVR L+N+WQHV
Sbjct: 63 GFALLSLI-MEDDICKKIPVIMMSSHDSISMVLKCMLKGAADFLVKPVRKNELRNLWQHV 121
Query: 149 VRKKKNEMKDLEQSGSVEE 167
R+ + Q+ S+ +
Sbjct: 122 WRRHAPTSGHVSQNLSIAQ 140
>D0PPG9_CASSA (tr|D0PPG9) Pseudo-response regulator 9 OS=Castanea sativa GN=PRR9
PE=2 SV=1
Length = 700
Score = 96.3 bits (238), Expect = 1e-18, Method: Composition-based stats.
Identities = 49/126 (38%), Positives = 78/126 (61%), Gaps = 5/126 (3%)
Query: 31 IGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPD 90
+ LR+L+V+ D + I+ +L+ C YKV + +A L+ + D+V+++V +P
Sbjct: 37 VALRILLVEADDSTRQIIAALLRKCSYKVAAVSDGLKAWETLKGRPHNIDLVLTEVELPS 96
Query: 91 MDGFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
+ GF LL I +E D +PVIMMS++D V+K + GA D+LIKPVR L+N+WQ
Sbjct: 97 ISGFALLTLI-MEHDVCKNIPVIMMSSNDAITTVLKCMLKGAADFLIKPVRKNELRNLWQ 155
Query: 147 HVVRKK 152
HV R++
Sbjct: 156 HVWRRQ 161
>Q56TL2_CASSA (tr|Q56TL2) Timing of CAB expression 1 protein OS=Castanea sativa
GN=TOC1 PE=2 SV=1
Length = 545
Score = 96.3 bits (238), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 50/124 (40%), Positives = 74/124 (59%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+LV D+D L + +L C Y+VT A Q + L DI+++++ +P
Sbjct: 32 VRILVCDNDAKSLEEVSTLLLKCSYQVTSVRSARQVIDALNAEGANIDIILAELDLPLAK 91
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G KLL+YI + DL PVIMMSA D +VV+K + GA DYL+KP+R L N+W HV
Sbjct: 92 GMKLLKYINRDNDLRRIPVIMMSAQDEVSVVVKCLRLGAADYLVKPLRTNELLNLWTHVW 151
Query: 150 RKKK 153
R+++
Sbjct: 152 RRRR 155
>B9FIB4_ORYSJ (tr|B9FIB4) Putative uncharacterized protein OS=Oryza sativa subsp.
japonica GN=OsJ_18450 PE=4 SV=1
Length = 633
Score = 95.9 bits (237), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 58/119 (48%), Positives = 75/119 (63%), Gaps = 3/119 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGY-DIVISDVHMPDM 91
L VLVVDDD L L+ ML Y VT T AE+AL + +N Y IV++DVHM M
Sbjct: 23 LHVLVVDDDAAYLEELKLMLLLAGYAVTGKTTAEEALKEVDQNPEDYFHIVMTDVHMSGM 82
Query: 92 DGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVR 150
DGF LL I +PVIM S + +VM+ V +GACDY++KP+ EA+K IW+HV+R
Sbjct: 83 DGFDLLHRINGR--VPVIMFSEGEDVVMVMRTVMNGACDYMVKPMTSEAIKFIWKHVLR 139
>Q2RAB7_ORYSJ (tr|Q2RAB7) CCT motif family protein, expressed OS=Oryza sativa
subsp. japonica GN=LOC_Os11g05930 PE=4 SV=1
Length = 699
Score = 95.9 bits (237), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 45/122 (36%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + ++ +L+ C Y+V +A ++RE +D+V+++V MP +
Sbjct: 44 LRVLLVEHDDSTRQVVTALLRKCGYRVAAVADGMKAWGVMRERAYAFDLVLTEVTMPTLS 103
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G +LL I ++PVIMMS+ D V++ + GA D+L+KPVR L+N+WQHV
Sbjct: 104 GIELLSRIVASDECKNIPVIMMSSQDSIGTVLRCMQKGAVDFLVKPVRKNELRNLWQHVW 163
Query: 150 RK 151
R+
Sbjct: 164 RR 165
>B9HM08_POPTR (tr|B9HM08) Pseudo response regulator OS=Populus trichocarpa
GN=PtpRR7 PE=4 SV=1
Length = 766
Score = 95.9 bits (237), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 49/122 (40%), Positives = 77/122 (63%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+VT + QA +L++ N D+V+++V MP +
Sbjct: 92 LKVLLVENDDSTRHVVSALLRNCGYEVTAVSNGLQAWKVLQDLTNHIDLVLTEVAMPCLS 151
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D NVV K ++ GA D+L+KP+R LK +WQHV
Sbjct: 152 GIGLLSKIMSHKTCRNIPVIMMSSHDSMNVVFKCLSKGAVDFLVKPIRKNELKILWQHVW 211
Query: 150 RK 151
RK
Sbjct: 212 RK 213
>B8A2Q1_MAIZE (tr|B8A2Q1) Putative uncharacterized protein OS=Zea mays PE=2 SV=1
Length = 766
Score = 95.9 bits (237), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V++D + ++ +L+ C Y+V A L + +N D+V+++V MP +
Sbjct: 83 LRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLHAWRYLEDLQNNIDLVLTEVFMPCLS 142
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS +D ++V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 143 GIGLLSKITSHKICKDIPVIMMSTNDSMSMVFKCLSKGAVDFLVKPLRKNELKNLWQHVW 202
Query: 150 RK 151
R+
Sbjct: 203 RR 204
>B9HM09_POPTR (tr|B9HM09) Predicted protein OS=Populus trichocarpa GN=PtpRR7 PE=4
SV=1
Length = 711
Score = 95.9 bits (237), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 49/122 (40%), Positives = 77/122 (63%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+VT + QA +L++ N D+V+++V MP +
Sbjct: 37 LKVLLVENDDSTRHVVSALLRNCGYEVTAVSNGLQAWKVLQDLTNHIDLVLTEVAMPCLS 96
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D NVV K ++ GA D+L+KP+R LK +WQHV
Sbjct: 97 GIGLLSKIMSHKTCRNIPVIMMSSHDSMNVVFKCLSKGAVDFLVKPIRKNELKILWQHVW 156
Query: 150 RK 151
RK
Sbjct: 157 RK 158
>Q10N33_ORYSJ (tr|Q10N33) Two-component response regulator-like PRR73, putative,
expressed OS=Oryza sativa subsp. japonica
GN=LOC_Os03g17570 PE=4 SV=1
Length = 745
Score = 95.9 bits (237), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V++D + ++ +L+ C Y+V A L + +N D+V+++V MP +
Sbjct: 81 LRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLHAWQCLEDLQNHIDLVLTEVVMPRLS 140
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS++D V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 141 GIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 200
Query: 150 RK 151
R+
Sbjct: 201 RR 202
>B9F7P0_ORYSJ (tr|B9F7P0) Putative uncharacterized protein OS=Oryza sativa subsp.
japonica GN=OsJ_10396 PE=4 SV=1
Length = 767
Score = 95.5 bits (236), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V++D + ++ +L+ C Y+V A L + +N D+V+++V MP +
Sbjct: 81 LRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLHAWQCLEDLQNHIDLVLTEVVMPRLS 140
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS++D V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 141 GIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 200
Query: 150 RK 151
R+
Sbjct: 201 RR 202
>B9I296_POPTR (tr|B9I296) Pseudo response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_806314 PE=4 SV=1
Length = 529
Score = 95.5 bits (236), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 45/123 (36%), Positives = 76/123 (61%), Gaps = 3/123 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C Y+V +A +L+ +G D+++++V +P +
Sbjct: 65 LRVLLVEADDSTRQIIAALLRKCSYRVVSVPDGLKAWEILKGRPHGIDLILTEVDLPSIS 124
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G+ LL I + ++PVIMMS+ D + V K + GA DYL+KP+R L+N+WQHV
Sbjct: 125 GYPLLTIIMEHEICKNIPVIMMSSQDSISTVYKCMLRGAADYLVKPLRKNELRNLWQHVW 184
Query: 150 RKK 152
R++
Sbjct: 185 RRQ 187
>D7T497_VITVI (tr|D7T497) Whole genome shotgun sequence of line PN40024,
scaffold_67.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00032644001 PE=4 SV=1
Length = 769
Score = 95.5 bits (236), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 75/122 (61%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+VT QA S+L + N D+V+++V +P +
Sbjct: 94 LKVLLVENDNSTRQVVSALLRNCSYEVTAVANGVQAWSILDDLTNHVDLVLAEVALPSLS 153
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D +V K ++ GA D+ +KP+R LKN+WQHV
Sbjct: 154 GIGLLCKIMNHKACKNIPVIMMSSHDSVGIVFKCLSKGAVDFFVKPIRKNELKNLWQHVW 213
Query: 150 RK 151
RK
Sbjct: 214 RK 215
>Q2PEF2_LEMGI (tr|Q2PEF2) Pseudo-response regulator 95 homologue OS=Lemna gibba
GN=LgPRRH95 PE=2 SV=1
Length = 460
Score = 95.1 bits (235), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 46/124 (37%), Positives = 80/124 (64%), Gaps = 5/124 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C YKV+ + +A L+E N D+V+++V +P++
Sbjct: 31 LRVLLVEADDSTRKIVAALLRKCGYKVSSASDGLEAWKTLKEKPNDTDLVLTEVELPNVS 90
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G+ LL + +E + +PVIMMS++D +V + + GA D+L+KP+R L+N+WQHV
Sbjct: 91 GYALLSMM-MEHETCKSIPVIMMSSNDSMKMVFECMLKGAADFLVKPIRKNELRNLWQHV 149
Query: 149 VRKK 152
R++
Sbjct: 150 WRRQ 153
>A5BJJ5_VITVI (tr|A5BJJ5) Putative uncharacterized protein OS=Vitis vinifera
GN=VITISV_027904 PE=4 SV=1
Length = 991
Score = 95.1 bits (235), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 50/139 (35%), Positives = 81/139 (58%), Gaps = 5/139 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C YKV + +A L+ D+++++V +P +
Sbjct: 51 LRVLLVEPDDSTRQIIAALLRKCSYKVAAVSDGLKAWEALKGEPQNVDLILTEVELPSIS 110
Query: 93 GFKLLEYIGLEMDL----PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL I +E D+ PVIMMS+ D ++V+K + GA D+L+KPVR L N+WQHV
Sbjct: 111 GFALLSLI-MEDDICKKIPVIMMSSHDSISMVLKCMLKGAADFLVKPVRKNELXNLWQHV 169
Query: 149 VRKKKNEMKDLEQSGSVEE 167
R+ + Q+ S+ +
Sbjct: 170 WRRHAPTXGHVSQNLSIAQ 188
>Q10N32_ORYSJ (tr|Q10N32) Two-component response regulator-like PRR73, putative,
expressed OS=Oryza sativa subsp. japonica
GN=LOC_Os03g17570 PE=4 SV=1
Length = 533
Score = 95.1 bits (235), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V++D + ++ +L+ C Y+V A L + +N D+V+++V MP +
Sbjct: 81 LRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLHAWQCLEDLQNHIDLVLTEVVMPRLS 140
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS++D V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 141 GIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 200
Query: 150 RK 151
R+
Sbjct: 201 RR 202
>Q10N31_ORYSJ (tr|Q10N31) Two-component response regulator-like PRR73, putative,
expressed OS=Oryza sativa subsp. japonica
GN=LOC_Os03g17570 PE=4 SV=1
Length = 473
Score = 95.1 bits (235), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V++D + ++ +L+ C Y+V A L + +N D+V+++V MP +
Sbjct: 81 LRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLHAWQCLEDLQNHIDLVLTEVVMPRLS 140
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS++D V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 141 GIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 200
Query: 150 RK 151
R+
Sbjct: 201 RR 202
>B4FWH6_MAIZE (tr|B4FWH6) Putative uncharacterized protein OS=Zea mays PE=2 SV=1
Length = 629
Score = 95.1 bits (235), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 47/124 (37%), Positives = 77/124 (62%), Gaps = 5/124 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+ + D + ++ +L+ C Y+V + +A +L+E D+V+++V +P M
Sbjct: 43 VRVLLAEGDDSTRHVISALLRKCGYRVAAASDGVKAWDLLKEKSFNVDLVLTEVELPLMS 102
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL I +E D +PVIMMS+ D ++V K + GA D+L+KP+R L+N+WQHV
Sbjct: 103 GFLLLSTI-MEHDASKNIPVIMMSSHDSVSMVFKCMLKGAADFLVKPIRKNELRNLWQHV 161
Query: 149 VRKK 152
RK+
Sbjct: 162 WRKQ 165
>D7SKQ6_VITVI (tr|D7SKQ6) Whole genome shotgun sequence of line PN40024,
scaffold_4.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00025088001 PE=4 SV=1
Length = 482
Score = 94.7 bits (234), Expect = 4e-18, Method: Compositional matrix adjust.
Identities = 50/127 (39%), Positives = 77/127 (60%), Gaps = 4/127 (3%)
Query: 29 FPI-GLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
PI L+VL+V++D + ++ +L+ C Y+VT QA +L + N DIV+++V
Sbjct: 90 LPIRSLKVLLVENDDSTRHVVTALLRNCSYEVTAVANGLQAWKILEDLTNHIDIVLTEVV 149
Query: 88 MPDMDGFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
MP + G LL I ++PVIMMS+ D +V K ++ GA D+L+KP+R LKN+
Sbjct: 150 MPFISGIGLLCKIMSHKTFKNIPVIMMSSHDSMGIVFKCLSKGAVDFLVKPIRKNELKNL 209
Query: 145 WQHVVRK 151
WQHV R+
Sbjct: 210 WQHVWRR 216
>Q15FC7_STRAF (tr|Q15FC7) SRR383 OS=Striga asiatica PE=2 SV=1
Length = 456
Score = 94.4 bits (233), Expect = 5e-18, Method: Compositional matrix adjust.
Identities = 50/69 (72%), Positives = 57/69 (82%), Gaps = 3/69 (4%)
Query: 119 VVMKGVTHGACDYLIKPVRIEALKNIWQHVVR--KKKNEMKDLEQSGSVEEGDRQQRQSE 176
VVMKGVTHGACDYLIKPVR+EALKNIWQHV+R K + + K+ EQSGSVEE +RQ + E
Sbjct: 2 VVMKGVTHGACDYLIKPVRMEALKNIWQHVIRKKKYEWKEKEQEQSGSVEESERQPK-PE 60
Query: 177 DADYSSSVN 185
D DYSSS N
Sbjct: 61 DLDYSSSAN 69
>A9SIC5_PHYPA (tr|A9SIC5) Circadian clock protein PRR4 OS=Physcomitrella patens
subsp. patens GN=PpPRR4 PE=4 SV=1
Length = 1056
Score = 94.4 bits (233), Expect = 6e-18, Method: Composition-based stats.
Identities = 47/122 (38%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V+DD ++ +L+ C Y+VT A +L E + +D+V++DV MP +
Sbjct: 306 LKVLLVEDDDATRHVVGALLRNCNYEVTPVANGSLAWGLLEEANSNFDLVLTDVVMPYLS 365
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL + +P+++MS+ D +V + ++ GACDYL+KPVR LKN+WQHV
Sbjct: 366 GVGLLSKMMKREACKRVPIVIMSSYDSLGIVFRCLSKGACDYLVKPVRKNELKNLWQHVW 425
Query: 150 RK 151
RK
Sbjct: 426 RK 427
>Q0J041_ORYSJ (tr|Q0J041) Os09g0532400 protein OS=Oryza sativa subsp. japonica
GN=Os09g0532400 PE=2 SV=1
Length = 623
Score = 94.0 bits (232), Expect = 6e-18, Method: Compositional matrix adjust.
Identities = 48/124 (38%), Positives = 78/124 (62%), Gaps = 5/124 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+ + D + I+ +L+ C Y+V + +A +L+E D+V+++V +P M
Sbjct: 43 VRVLLAEGDDSTRHIICALLRKCGYRVAAASDGVKAWDILKEKSFNIDLVLTEVELPLMS 102
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL I +E D +PVIMMS++D ++V K + GA D+L+KP+R L+N+WQHV
Sbjct: 103 GFLLLSTI-MEHDACKNIPVIMMSSNDSVSMVFKCMLKGAADFLVKPIRKNELRNLWQHV 161
Query: 149 VRKK 152
RK+
Sbjct: 162 WRKQ 165
>B9RNK8_RICCO (tr|B9RNK8) Sensory transduction histidine kinase, putative
OS=Ricinus communis GN=RCOM_1339810 PE=4 SV=1
Length = 697
Score = 94.0 bits (232), Expect = 6e-18, Method: Compositional matrix adjust.
Identities = 48/124 (38%), Positives = 76/124 (61%), Gaps = 5/124 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C Y+V A L++ N D+++++V +P +
Sbjct: 41 LRVLLVEADYSTRQIISALLRKCSYRVAAVPDGLMAWETLKDGPNNIDLILTEVDLPLIS 100
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G+ LL + +E D +PVIMMS+ D + V+K + GA D+LIKPVR LKN+WQHV
Sbjct: 101 GYALLTLV-MEHDFCKNIPVIMMSSHDSISKVLKCMLKGAADFLIKPVRRNELKNLWQHV 159
Query: 149 VRKK 152
R++
Sbjct: 160 WRRQ 163
>B8BDU3_ORYSI (tr|B8BDU3) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_32150 PE=4 SV=1
Length = 623
Score = 94.0 bits (232), Expect = 6e-18, Method: Compositional matrix adjust.
Identities = 48/124 (38%), Positives = 78/124 (62%), Gaps = 5/124 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+ + D + I+ +L+ C Y+V + +A +L+E D+V+++V +P M
Sbjct: 43 VRVLLAEGDDSTRHIICALLRKCGYRVAAASDGVKAWDILKEKSFNIDLVLTEVELPLMS 102
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
GF LL I +E D +PVIMMS++D ++V K + GA D+L+KP+R L+N+WQHV
Sbjct: 103 GFLLLSTI-MEHDACKNIPVIMMSSNDSVSMVFKCMLKGAADFLVKPIRKNELRNLWQHV 161
Query: 149 VRKK 152
RK+
Sbjct: 162 WRKQ 165
>B9SGT0_RICCO (tr|B9SGT0) Sensory transduction histidine kinase, putative
OS=Ricinus communis GN=RCOM_0819890 PE=4 SV=1
Length = 762
Score = 94.0 bits (232), Expect = 7e-18, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 76/122 (62%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+V + T QA +L + N D+V+++V MP +
Sbjct: 88 LKVLLVENDYSTRHVVTALLRNCSYEVIEATNGLQAWRILEDLTNQIDLVLTEVVMPCLS 147
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D +V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 148 GIGLLYKIMSHKTRKNVPVIMMSSHDSMGLVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 207
Query: 150 RK 151
R+
Sbjct: 208 RR 209
>C5Y541_SORBI (tr|C5Y541) Putative uncharacterized protein Sb05g003660 OS=Sorghum
bicolor GN=Sb05g003660 PE=4 SV=1
Length = 697
Score = 94.0 bits (232), Expect = 7e-18, Method: Compositional matrix adjust.
Identities = 45/122 (36%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + ++ +L+ C Y+V +A ++R +D+V+++V MP +
Sbjct: 55 LRVLLVEHDDSTRQVVTALLRKCGYRVAAVADGMKAWEVMRGRAYAFDLVLTEVAMPSLS 114
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G +LL I ++PVIMMS+ D V+K + GA D+L+KPVR L+N+WQHV
Sbjct: 115 GIQLLSRIVAADECKNIPVIMMSSQDSIGTVLKCMQKGAVDFLVKPVRKNELRNLWQHVW 174
Query: 150 RK 151
R+
Sbjct: 175 RR 176
>D0PPG7_CASSA (tr|D0PPG7) Pseudo-response regulator 7 OS=Castanea sativa GN=PRR7
PE=2 SV=1
Length = 784
Score = 94.0 bits (232), Expect = 7e-18, Method: Compositional matrix adjust.
Identities = 48/122 (39%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+VT QA +L + D+V+++V MP +
Sbjct: 98 LKVLLVENDDSTRHVVSALLRNCGYEVTAAENGLQAWKILEDYTTHVDLVLTEVVMPCLS 157
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D N+V K ++ GA D+L KP+R LKN+WQHV
Sbjct: 158 GIGLLSKIMSHKTCKNIPVIMMSSYDSMNIVFKCLSKGAVDFLAKPIRKNELKNLWQHVW 217
Query: 150 RK 151
RK
Sbjct: 218 RK 219
>B9HU01_POPTR (tr|B9HU01) Pseudo response regulator OS=Populus trichocarpa
GN=POPTRDRAFT_770466 PE=4 SV=1
Length = 763
Score = 93.6 bits (231), Expect = 9e-18, Method: Compositional matrix adjust.
Identities = 46/122 (37%), Positives = 75/122 (61%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+ T QA +L++ N D+V+++V MP +
Sbjct: 89 LKVLLVENDDSTRHVVSALLRNCGYEATAVANGLQAWKLLQDLTNHIDLVLTEVAMPCLS 148
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D NVV + ++ GA D+L+KP+R LK +WQHV
Sbjct: 149 GIGLLSNIMSHKTCRNIPVIMMSSHDSMNVVFRCLSKGAVDFLVKPIRKNELKILWQHVW 208
Query: 150 RK 151
R+
Sbjct: 209 RR 210
>B9T0R7_RICCO (tr|B9T0R7) Sensory transduction histidine kinase, putative
OS=Ricinus communis GN=RCOM_1441020 PE=4 SV=1
Length = 807
Score = 93.2 bits (230), Expect = 1e-17, Method: Compositional matrix adjust.
Identities = 46/122 (37%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L+VL+V++D + ++ +L+ C Y+V QA +L + N D+V+++V MP +
Sbjct: 74 LKVLLVENDDSTRHVVSALLRNCSYEVNAVANGFQAWKILEDMNNHTDLVLTEVVMPILS 133
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D +V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 134 GIGLLCKIRNHKTLRNIPVIMMSSHDSMGIVFKCLSKGAVDFLVKPIRKNELKNLWQHVW 193
Query: 150 RK 151
R+
Sbjct: 194 RR 195
>B6U1H8_MAIZE (tr|B6U1H8) Two-component response regulator-like PRR95 OS=Zea mays
PE=2 SV=1
Length = 630
Score = 93.2 bits (230), Expect = 1e-17, Method: Compositional matrix adjust.
Identities = 47/126 (37%), Positives = 78/126 (61%), Gaps = 5/126 (3%)
Query: 31 IGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPD 90
+ +RVL+ + D + ++ +L+ C Y+V + +A +L+E D+V+++V +P
Sbjct: 42 MPVRVLLAEGDDSTRHVISALLRKCGYRVAAASDGVKAWDILKEKSFNIDLVLTEVELPL 101
Query: 91 MDGFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
M GF LL I +E D +PVIMMS+ D ++V K + GA D+L+KP+R L+N+WQ
Sbjct: 102 MSGFLLLSTI-MEHDASKNIPVIMMSSHDSVSMVFKCMLKGAADFLVKPLRKNELRNLWQ 160
Query: 147 HVVRKK 152
HV RK+
Sbjct: 161 HVWRKQ 166
>A9U170_PHYPA (tr|A9U170) Circadian clock protein PRR1 (Fragment)
OS=Physcomitrella patens subsp. patens GN=PpPRR1 PE=4
SV=1
Length = 425
Score = 92.8 bits (229), Expect = 1e-17, Method: Compositional matrix adjust.
Identities = 44/122 (36%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LR+L+V+ D ++ +L+ C Y+VT A +L + + +D+V++DV MP +
Sbjct: 12 LRILLVEYDDATRHVVGALLRNCDYEVTAVANGSIAWGLLEDANSNFDLVLTDVVMPRLS 71
Query: 93 GFKLLEYIGLE---MDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL + +P+++MS+ D ++V + ++ GACDYL+KPVR L+N+WQHV
Sbjct: 72 GVGLLSKMMKREACRRVPIVIMSSYDSLDIVFRCLSKGACDYLVKPVRKNELRNLWQHVW 131
Query: 150 RK 151
RK
Sbjct: 132 RK 133
>C8KHJ3_PHYPA (tr|C8KHJ3) Pseudo-response regulator homolog protein
OS=Physcomitrella patens subsp. patens GN=PpPRR1 PE=2
SV=1
Length = 907
Score = 92.4 bits (228), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 44/123 (35%), Positives = 77/123 (62%), Gaps = 5/123 (4%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LR+L+V+ D ++ +L+ C Y+VT A +L + + +D+V++DV MP +
Sbjct: 183 LRILLVEYDDATRHVVGALLRNCDYEVTAVANGSIAWGLLEDANSNFDLVLTDVVMPRLS 242
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G LL + ++ + +P+++MS+ D ++V + ++ GACDYL+KPVR L+N+WQHV
Sbjct: 243 GVGLLSKM-MKREACRRVPIVIMSSYDSLDIVFRCLSKGACDYLVKPVRKNELRNLWQHV 301
Query: 149 VRK 151
RK
Sbjct: 302 WRK 304
>D7M7W4_ARALY (tr|D7M7W4) Pseudo-response regulator 7 OS=Arabidopsis lyrata
subsp. lyrata GN=PRR7 PE=4 SV=1
Length = 733
Score = 92.0 bits (227), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 74/122 (60%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V++D I+ +L+ C Y+V + + QA +L + N DIV+++V MP +
Sbjct: 85 IRVLLVENDDCTRYIVTALLRNCSYEVVEASNGIQAWKVLEDLNNHIDIVLTEVIMPYLS 144
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D +V K ++ GA D+L+KP+R LK +WQHV
Sbjct: 145 GISLLSKILNHKSRRNIPVIMMSSHDSMGLVFKCLSKGAVDFLVKPIRKNELKILWQHVW 204
Query: 150 RK 151
R+
Sbjct: 205 RR 206
>D2KK85_BRACM (tr|D2KK85) Pseudo-response regulator 1a OS=Brassica campestris
PE=2 SV=1
Length = 576
Score = 92.0 bits (227), Expect = 3e-17, Method: Compositional matrix adjust.
Identities = 47/124 (37%), Positives = 72/124 (58%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D+DP L + +L C Y+VT A Q + L DI+++++ +P
Sbjct: 21 VRILLCDNDPNSLGEVFTLLSQCSYQVTSVKSARQVIDALNAEGPDIDIILAEIDLPMAK 80
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G K+L YI + DL PVIMMS D VV+K + GA DYL+KP+R L N+W H+
Sbjct: 81 GMKMLRYITRDKDLRRIPVIMMSRQDEVPVVVKCLKLGAADYLVKPLRTNELLNLWTHMW 140
Query: 150 RKKK 153
R+++
Sbjct: 141 RRRR 144
>B6SHA1_MAIZE (tr|B6SHA1) Two-component response regulator-like PRR73 OS=Zea mays
PE=2 SV=1
Length = 765
Score = 92.0 bits (227), Expect = 3e-17, Method: Compositional matrix adjust.
Identities = 46/122 (37%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V++D + ++ +L+ C Y+V A L + +N D+V+++V M +
Sbjct: 82 LRVLLVENDDSTRQVVSALLRKCCYEVIPAENGLHAWRYLEDLQNNIDLVLTEVFMTCLS 141
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS +D ++V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 142 GIGLLSKITSHKICKDIPVIMMSTNDSMSMVFKCLSKGAVDFLVKPLRKNELKNLWQHVW 201
Query: 150 RK 151
R+
Sbjct: 202 RR 203
>D2KK91_BRACM (tr|D2KK91) Pseudo-response regulator 5b OS=Brassica campestris
PE=2 SV=1
Length = 628
Score = 90.9 bits (224), Expect = 6e-17, Method: Composition-based stats.
Identities = 51/135 (37%), Positives = 76/135 (56%), Gaps = 12/135 (8%)
Query: 31 IGLRVLVVDDDPTCLMILEKMLKTCLYKV-------TKCTRAEQALSMLRENKNGYDIVI 83
I LRVL+V+ D + I+ +L+ C Y+V +A MLR D+++
Sbjct: 110 ISLRVLLVEADDSTRQIISALLRKCSYRVFPFHFSVAAVPDGLKAWEMLRGKPESVDLIL 169
Query: 84 SDVHMPDMDGFKLLEYIGLEMDL----PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIE 139
++V +P + G+ LL I +E DL PVIMMS D N V K + GA DYL+KP+R
Sbjct: 170 TEVDLPSISGYALLTLI-MEHDLCKNIPVIMMSTQDSVNTVYKCMLKGAADYLVKPLRRN 228
Query: 140 ALKNIWQHVVRKKKN 154
L+N+WQHV R++ +
Sbjct: 229 ELRNLWQHVWRRQSS 243
>D0PPG8_CASSA (tr|D0PPG8) Pseudo-response regulator 5 OS=Castanea sativa GN=PRR5
PE=2 SV=1
Length = 698
Score = 90.9 bits (224), Expect = 6e-17, Method: Composition-based stats.
Identities = 45/122 (36%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 38 VDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLL 97
++ D + I+ +L+ C Y+VT +A +LR + D+++++V +P + GF LL
Sbjct: 67 IEADDSTRQIIGALLRKCSYRVTAVPDGLKAWEILRGRPHNIDLILTEVDLPAISGFALL 126
Query: 98 EYIG---LEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRKKKN 154
I + ++PVIMMSA D + V K + GA DYL+KP+R LKN+WQHV RK+ +
Sbjct: 127 TLIAEHEICKNIPVIMMSAQDSVSTVYKCMLRGAADYLVKPIRRNELKNLWQHVWRKQSS 186
Query: 155 EM 156
+
Sbjct: 187 NL 188
>B9GRR4_POPTR (tr|B9GRR4) Pseudo response regulator OS=Populus trichocarpa
GN=PtpRR6 PE=4 SV=1
Length = 694
Score = 90.1 bits (222), Expect = 8e-17, Method: Composition-based stats.
Identities = 48/156 (30%), Positives = 91/156 (58%), Gaps = 6/156 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRVL+V+ D + I+ +L+ C Y+V+ A L+E + D+++++V +P +
Sbjct: 44 LRVLLVEADDSTRQIIVALLRKCGYRVSAVPDGLMAWETLKERPHSIDLILTEVELPLIS 103
Query: 93 GFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G+ L + +E D +PVIMMS+ D +VV+K + G+ D+L+KPVR L+N+WQHV
Sbjct: 104 GYAFLALV-MEHDVCKNIPVIMMSSHDSISVVLKCMLKGSADFLVKPVRKNELRNLWQHV 162
Query: 149 VRKKKNEMKDLEQSGSVEEGDRQQRQSEDADYSSSV 184
R++ + ++ + E + + +D+++S+
Sbjct: 163 WRRQTQTAGKIPRNSNRVEAS-SENNAASSDFATSL 197
>Q2HTB9_MEDTR (tr|Q2HTB9) Response regulator receiver; CCT OS=Medicago truncatula
GN=MtrDRAFT_AC150443g20v2 PE=4 SV=1
Length = 636
Score = 89.7 bits (221), Expect = 1e-16, Method: Composition-based stats.
Identities = 50/128 (39%), Positives = 74/128 (57%), Gaps = 9/128 (7%)
Query: 30 PIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMP 89
P LRVL+V+ D + I+ +L+ C YKV +A L+ D+V+++V +P
Sbjct: 11 PTMLRVLLVEPDDSTRHIISALLRNCGYKVAAVRDGLKAWETLKNKSLDIDLVLTEVDLP 70
Query: 90 DMDGFKLLEYIGLEMD------LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
+ GF LL I MD +P+IMMS+ D + V K + +GA D+LIKPVR L+N
Sbjct: 71 SISGFSLLTQI---MDHHNCKNIPLIMMSSQDSVSTVFKFMLNGAVDFLIKPVRRNELRN 127
Query: 144 IWQHVVRK 151
+WQHV R+
Sbjct: 128 LWQHVWRR 135
>D7MT61_ARALY (tr|D7MT61) Pseudo-response regulator 3 OS=Arabidopsis lyrata
subsp. lyrata GN=APRR3 PE=4 SV=1
Length = 498
Score = 89.7 bits (221), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 48/127 (37%), Positives = 78/127 (61%), Gaps = 4/127 (3%)
Query: 29 FPI-GLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
P+ L+VL+V++D + I+ +LK C Y+V + +A +L + K+ D+V+++V
Sbjct: 61 LPVRSLKVLLVENDDSTRHIVTALLKNCSYEVNAVSDVLEAWRILEDEKSCIDLVLTEVV 120
Query: 88 MPDMDGFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
+P G LL I ++PVIMMS+ D +V K +++GA D+L+KP+R LKN+
Sbjct: 121 LPVHSGTGLLSKIMSHKTLKNIPVIMMSSHDSMVLVFKCLSNGAVDFLVKPIRKNELKNL 180
Query: 145 WQHVVRK 151
WQHV RK
Sbjct: 181 WQHVWRK 187
>B9IDF0_POPTR (tr|B9IDF0) Pseudo response regulator OS=Populus trichocarpa
GN=PtpRR3 PE=4 SV=1
Length = 687
Score = 89.4 bits (220), Expect = 1e-16, Method: Composition-based stats.
Identities = 47/126 (37%), Positives = 77/126 (61%), Gaps = 4/126 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYK-VTKCTRAEQALSMLRENKNGYDIVISDVHMPDM 91
LRVL+V+ D + I+ +L+ C YK V + +A +L+E + D+++++V +P +
Sbjct: 65 LRVLLVEADDSTRQIIAALLRKCSYKAVATVSDGLKAWEILKERPHNIDLILTEVDLPSV 124
Query: 92 DGFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
G+ LL I + ++PVIMMS+ D V K + GA DYL+KP+R L+N+WQHV
Sbjct: 125 SGYALLTLIMEHEICKNIPVIMMSSQDSIKTVYKCMLRGAADYLVKPIRKNELRNLWQHV 184
Query: 149 VRKKKN 154
RK+ +
Sbjct: 185 WRKQSS 190
>D7MUK2_ARALY (tr|D7MUK2) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_496297 PE=4 SV=1
Length = 623
Score = 89.4 bits (220), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 50/137 (36%), Positives = 76/137 (55%), Gaps = 5/137 (3%)
Query: 20 KAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGY 79
K GD D+ + R+L+ D+D L + +L C Y+VT A Q + L
Sbjct: 8 KGGDGFIDRSRV--RILLCDNDSKSLGEVFTLLSECSYQVTSVKSARQVIDALNAEGPDI 65
Query: 80 DIVISDVHMPDMDGFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPV 136
DI+++++ +P G K+L YI + DL PVIMMS D VV+K + GA DYL+KP+
Sbjct: 66 DIILAEIDLPMAKGMKMLRYITRDKDLRRIPVIMMSRQDEVPVVVKCLKLGAADYLVKPL 125
Query: 137 RIEALKNIWQHVVRKKK 153
R L N+W H+ R+++
Sbjct: 126 RTNELLNLWTHMWRRRR 142
>D2KK86_BRACM (tr|D2KK86) Pseudo-response regulator 3 OS=Brassica campestris PE=2
SV=1
Length = 492
Score = 89.4 bits (220), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 48/127 (37%), Positives = 77/127 (60%), Gaps = 4/127 (3%)
Query: 29 FPI-GLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
P+ L+VL+V++D + I+ +LK C Y+VT +A +L + + D+V+++V
Sbjct: 59 LPVRSLKVLLVENDDSTRHIVTALLKNCSYEVTAVPDVLEAWKVLEDENSCIDLVLTEVV 118
Query: 88 MPDMDGFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNI 144
MP G LL I ++PVIMMS+ D +V K +++GA D+L+KP+R LKN+
Sbjct: 119 MPVNSGTGLLSKIMSHQTLKNIPVIMMSSHDSMVLVFKCLSNGAVDFLVKPIRKNELKNL 178
Query: 145 WQHVVRK 151
WQHV R+
Sbjct: 179 WQHVWRR 185
>A9SIB9_PHYPA (tr|A9SIB9) Circadian clock protein PRR2 OS=Physcomitrella patens
subsp. patens GN=PpPRR2 PE=4 SV=1
Length = 1143
Score = 89.4 bits (220), Expect = 2e-16, Method: Composition-based stats.
Identities = 44/117 (37%), Positives = 72/117 (61%), Gaps = 5/117 (4%)
Query: 39 DDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMDGFKLLE 98
+DD ++ +L+ C Y+VT A +L E + +D+V++DV MP + G +L
Sbjct: 189 EDDDATRHVVGALLRNCNYEVTSVANGSLAWGLLEEANSNFDLVLTDVVMPCLSGVGILS 248
Query: 99 YIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVVRK 151
+ L+ + +P+++MS+ D N+V + ++ GACDYL+KPVR LKN+WQHV RK
Sbjct: 249 KM-LKREACKRVPIVIMSSYDSLNIVFRCLSKGACDYLVKPVRKNELKNLWQHVWRK 304
>C5Z637_SORBI (tr|C5Z637) Putative uncharacterized protein Sb10g024183 (Fragment)
OS=Sorghum bicolor GN=Sb10g024183 PE=4 SV=1
Length = 92
Score = 88.6 bits (218), Expect = 2e-16, Method: Compositional matrix adjust.
Identities = 46/85 (54%), Positives = 58/85 (68%), Gaps = 2/85 (2%)
Query: 26 SDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNG--YDIVI 83
+D FPIGL VL V+DD C +LE+ LK Y A+ L MLRE K+G +D+VI
Sbjct: 3 TDTFPIGLSVLAVEDDCVCCKVLERKLKYYNYNAIMVMNAQMVLDMLRERKDGNWFDLVI 62
Query: 84 SDVHMPDMDGFKLLEYIGLEMDLPV 108
S+V +P+MDGF LL+ IGLEMDLPV
Sbjct: 63 SNVIIPNMDGFNLLKLIGLEMDLPV 87
>D2KK92_BRACM (tr|D2KK92) Pseudo-response regulator 7b OS=Brassica campestris
PE=2 SV=1
Length = 704
Score = 88.6 bits (218), Expect = 3e-16, Method: Compositional matrix adjust.
Identities = 47/122 (38%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V++D I+ +L+ C Y+V + QA +L + N DIV+++V MP +
Sbjct: 74 IRVLLVENDDCTRYIVTALLRNCSYEVVEVANGVQAWKVLEDLNNHIDIVLTEVVMPYLS 133
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D +V K ++ GA D+L+KP+R LK +WQHV
Sbjct: 134 GIGLLCKILNHKSRRNIPVIMMSSHDSMGLVFKCLSKGAVDFLVKPIRKNELKILWQHVW 193
Query: 150 RK 151
R+
Sbjct: 194 RR 195
>C5WZE9_SORBI (tr|C5WZE9) Putative uncharacterized protein Sb01g019980 OS=Sorghum
bicolor GN=Sb01g019980 PE=4 SV=1
Length = 302
Score = 88.6 bits (218), Expect = 3e-16, Method: Compositional matrix adjust.
Identities = 39/84 (46%), Positives = 57/84 (67%)
Query: 69 LSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGA 128
+S + N D++ISDV P D +L+ + + D+P ++MS++ ++VMK +T GA
Sbjct: 1 MSFIYGNIQIVDLIISDVCFPTEDSLLILQEVTTKFDIPTVIMSSNGDASIVMKYITSGA 60
Query: 129 CDYLIKPVRIEALKNIWQHVVRKK 152
D+LIKPVRIE LKNIWQHV RK+
Sbjct: 61 SDFLIKPVRIEVLKNIWQHVFRKQ 84
>B9N4C8_POPTR (tr|B9N4C8) Pseudo response regulator OS=Populus trichocarpa
GN=PtpRR9 PE=4 SV=1
Length = 541
Score = 88.6 bits (218), Expect = 3e-16, Method: Compositional matrix adjust.
Identities = 47/123 (38%), Positives = 72/123 (58%), Gaps = 3/123 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D+D + +L C Y+VT A Q + L DI++S+V +P
Sbjct: 25 VRILLCDNDAKSSQEVFTLLLKCSYQVTSVRSARQVIDALNAEGPEIDIILSEVDIPMTK 84
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G K+L+YI + DL PVIMMSA D ++V+K + GA DYL+KP+R L N+W H+
Sbjct: 85 GMKMLKYIMRDKDLRRIPVIMMSAQDEVSIVVKCLRLGAADYLVKPLRTNELLNLWTHMW 144
Query: 150 RKK 152
R++
Sbjct: 145 RRR 147
>D2KK88_BRACM (tr|D2KK88) Pseudo-response regulator 7a OS=Brassica campestris
PE=2 SV=1
Length = 725
Score = 88.2 bits (217), Expect = 3e-16, Method: Compositional matrix adjust.
Identities = 46/122 (37%), Positives = 73/122 (59%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V++D I+ +L+ C Y+V + QA +L + N DIV+++V MP +
Sbjct: 95 IRVLLVENDDCTRYIVTALLRNCSYEVVEVANGVQAWKVLEDLNNHIDIVLTEVVMPYLS 154
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I ++PVIMMS+ D ++ K ++ GA D+L+KP+R LK +WQHV
Sbjct: 155 GVGLLCKILNHKSRRNIPVIMMSSHDSMGLIFKCLSKGAVDFLVKPIRKNELKILWQHVW 214
Query: 150 RK 151
R+
Sbjct: 215 RR 216
>B9I950_POPTR (tr|B9I950) Pseudo response regulator OS=Populus trichocarpa
GN=PtpRR5 PE=4 SV=1
Length = 717
Score = 88.2 bits (217), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 43/123 (34%), Positives = 74/123 (60%), Gaps = 3/123 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L VL+V+ D + I+ +L+ C Y+V A L+ + D+++++V +P +
Sbjct: 44 LSVLLVEADDSTRQIIAALLRKCSYRVAAVPDGLMAWETLKGGPHNIDLILTEVELPLIS 103
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G+ LL + + ++PVIMMS+ D ++V+K + GA D+LIKPVR L+N+WQHV
Sbjct: 104 GYALLTLVTEHAVCKNIPVIMMSSQDSISMVLKCMLKGAADFLIKPVRKNELRNLWQHVW 163
Query: 150 RKK 152
R++
Sbjct: 164 RRQ 166
>B8AFH0_ORYSI (tr|B8AFH0) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_08092 PE=4 SV=1
Length = 518
Score = 88.2 bits (217), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 44/124 (35%), Positives = 75/124 (60%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D DP+ + ++L C Y+VT Q +++L DI++++V +P
Sbjct: 28 VRILLCDSDPSSSREVLRLLCNCSYQVTCAKSPRQVINVLNCEAGEIDIILAEVDLPVSK 87
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
FK+L+YI +L P+IMMS D +VV+K + GA +YL+KP+R+ L N+W HV
Sbjct: 88 CFKMLKYIARNKELRHIPIIMMSNRDEVSVVVKCLRLGAAEYLVKPLRMNELLNLWTHVW 147
Query: 150 RKKK 153
R+++
Sbjct: 148 RRRR 151
>Q0DZH6_ORYSJ (tr|Q0DZH6) Os02g0618200 protein OS=Oryza sativa subsp. japonica
GN=Os02g0618200 PE=4 SV=1
Length = 518
Score = 88.2 bits (217), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 44/124 (35%), Positives = 75/124 (60%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D DP+ + ++L C Y+VT Q +++L DI++++V +P
Sbjct: 28 VRILLCDSDPSSSREVLRLLCNCSYQVTCAKSPRQVINVLNCEAGEIDIILAEVDLPVSK 87
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
FK+L+YI +L P+IMMS D +VV+K + GA +YL+KP+R+ L N+W HV
Sbjct: 88 CFKMLKYIARNKELRHIPIIMMSNRDEVSVVVKCLRLGAAEYLVKPLRMNELLNLWTHVW 147
Query: 150 RKKK 153
R+++
Sbjct: 148 RRRR 151
>B9I4F8_POPTR (tr|B9I4F8) Predicted protein OS=Populus trichocarpa GN=PtRR17 PE=4
SV=1
Length = 623
Score = 87.4 bits (215), Expect = 6e-16, Method: Composition-based stats.
Identities = 49/123 (39%), Positives = 75/123 (60%), Gaps = 5/123 (4%)
Query: 68 ALSMLRENKNGYDIVISDVHMPDMDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHG 127
ALS+LR K +D+V+SD+HMP+M+G +L + + E LPVI+MS+D+ KNV+ + + G
Sbjct: 25 ALSILRLKKGLFDLVVSDLHMPEMNGMELQKQVEEEFKLPVIIMSSDESKNVISRSLEGG 84
Query: 128 ACDYLIKPVRIEALKNIWQHVVR-KKKNEMKDLEQSGSVEEGDRQ---QRQS-EDADYSS 182
A Y++KP LKN+W + V K N + E GS E +R S ED + ++
Sbjct: 85 AAFYIVKPANKVDLKNVWHYAVAIKTGNSLSIKEIEGSREPSYSSTLVERLSLEDVNSAT 144
Query: 183 SVN 185
S+N
Sbjct: 145 SIN 147
>Q6UEI7_MESCR (tr|Q6UEI7) Timing of CAB expression 1 OS=Mesembryanthemum
crystallinum GN=TOC1 PE=2 SV=1
Length = 544
Score = 87.4 bits (215), Expect = 6e-16, Method: Compositional matrix adjust.
Identities = 45/124 (36%), Positives = 72/124 (58%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D+D + +L C Y+VT A Q + L DI++S+V +P
Sbjct: 29 VRILLCDNDSKSCEEVFGLLSNCSYQVTAVRSARQVIDALNAEGPDIDIILSEVDLPTKK 88
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G K+L+YI + DL PVIMMS D ++V+K + GA DYL+KP+R + N+W H+
Sbjct: 89 GLKMLKYIMRDRDLQRIPVIMMSTQDEVSLVVKCLRLGAADYLVKPLRTNEMLNLWTHMW 148
Query: 150 RKKK 153
R+++
Sbjct: 149 RRRQ 152
>B9RLV6_RICCO (tr|B9RLV6) Sensory transduction histidine kinase, putative
OS=Ricinus communis GN=RCOM_1471230 PE=4 SV=1
Length = 550
Score = 87.4 bits (215), Expect = 7e-16, Method: Compositional matrix adjust.
Identities = 46/124 (37%), Positives = 73/124 (58%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D+D + +L C Y+VT A Q + L DI++S+V +P
Sbjct: 22 VRILLCDNDSKSSEEVFTLLLKCSYQVTSVRSARQVIDALNAEGPDIDIILSEVDLPMNK 81
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G K+L+YI + +L PVIMMSA D ++V+K + GA DYL+KP+R L N+W H+
Sbjct: 82 GMKMLKYITRDKELRRIPVIMMSAQDEVSIVVKCLRLGAADYLVKPLRTNELLNLWTHMW 141
Query: 150 RKKK 153
R+++
Sbjct: 142 RRRR 145
>C1MIF8_MICPS (tr|C1MIF8) Response regulator receiver/WD40 domain fusion protein
OS=Micromonas pusilla CCMP1545 GN=MICPUCDRAFT_50551 PE=4
SV=1
Length = 1334
Score = 87.0 bits (214), Expect = 7e-16, Method: Composition-based stats.
Identities = 45/124 (36%), Positives = 80/124 (64%), Gaps = 12/124 (9%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+ VL+VDD +L+ C Y+VT + +A+++L E ++++++DV MPD+D
Sbjct: 10 VHVLLVDD--------AGLLRRCQYQVTTASSGREAMALL-ERGTQFNLLLTDVMMPDVD 60
Query: 93 GFKLLEYI---GLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL ++ L ++PV+MMS+++ ++VM + GA DY+IKPV +A+K++W HV
Sbjct: 61 GPTLLHFVRNNPLYAEMPVVMMSSNEHADMVMNCIRLGAEDYIIKPVTNKAVKHMWAHVW 120
Query: 150 RKKK 153
R+K+
Sbjct: 121 RRKQ 124
>B6SVD1_MAIZE (tr|B6SVD1) Two-component response regulator-like PRR1 OS=Zea mays
PE=2 SV=1
Length = 515
Score = 87.0 bits (214), Expect = 8e-16, Method: Compositional matrix adjust.
Identities = 45/124 (36%), Positives = 72/124 (58%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D D T + ++L C Y VT Q +++L DI++++V +P
Sbjct: 24 VRILLCDGDATSSREVLRLLCNCAYHVTCAKSPRQVVNILNYEGGEIDIILAEVDLPVSK 83
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
FK+L+YI DL P+IMMS D +VV+K + GA +YL+KP+R L N+W HV
Sbjct: 84 CFKMLKYIARNKDLRHIPIIMMSNRDEVSVVVKCLRLGAAEYLVKPLRTNELLNLWTHVW 143
Query: 150 RKKK 153
R+++
Sbjct: 144 RRRR 147
>C0SNP3_SOYBN (tr|C0SNP3) Timing of CAB expression 1 OS=Glycine max GN=TOC1 PE=2
SV=1
Length = 558
Score = 87.0 bits (214), Expect = 8e-16, Method: Compositional matrix adjust.
Identities = 43/124 (34%), Positives = 73/124 (58%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D+D + +L C Y+VT A Q + L DI+++++ +P
Sbjct: 28 VRILLCDNDSKSSQEVFTLLLRCSYQVTSVKSARQVIDALNAEGQHIDIILAELDLPMKK 87
Query: 93 GFKLLEYIGLEMD---LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G K+L+YI + + +PVIMMSA D ++V+K + GA DYL+KP+R L N+W H+
Sbjct: 88 GMKMLKYIARDKEFRRIPVIMMSAQDEVSIVVKCLRLGAADYLVKPLRTNELLNLWTHMW 147
Query: 150 RKKK 153
R+++
Sbjct: 148 RRRR 151
>B8ALJ0_ORYSI (tr|B8ALJ0) Putative uncharacterized protein OS=Oryza sativa subsp.
indica GN=OsI_11061 PE=4 SV=1
Length = 780
Score = 87.0 bits (214), Expect = 9e-16, Method: Compositional matrix adjust.
Identities = 49/135 (36%), Positives = 77/135 (57%), Gaps = 16/135 (11%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTK--CTR--------AEQALSM---LRENKNGY 79
LRVL+V++D + ++ +L+ C Y+ ++ C AE L L + +N
Sbjct: 81 LRVLLVENDDSTRQVVSALLRKCCYEDSRGFCASRFPSAVIPAENGLHAWQCLEDLQNHI 140
Query: 80 DIVISDVHMPDMDGFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPV 136
D+V+++V MP + G LL I D+PVIMMS++D V K ++ GA D+L+KP+
Sbjct: 141 DLVLTEVVMPRLSGIGLLSKITSHKICKDIPVIMMSSNDSMGTVFKCLSKGAVDFLVKPI 200
Query: 137 RIEALKNIWQHVVRK 151
R LKN+WQHV R+
Sbjct: 201 RKNELKNLWQHVWRR 215
>D2W310_NAEGR (tr|D2W310) 3',5'-cyclic-nucleotide phosphodiesterase regA
OS=Naegleria gruberi GN=NAEGRDRAFT_82193 PE=4 SV=1
Length = 842
Score = 86.7 bits (213), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 51/140 (36%), Positives = 81/140 (57%), Gaps = 5/140 (3%)
Query: 8 GSMSTASSSVAWKAGDVVSD---QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTR 64
S STA+ + +GD+V+ + +VLVVDDD +L K+L+ ++V
Sbjct: 62 SSSSTANDTHRLSSGDLVNSITVEDEGAKKVLVVDDDRVARQVLTKLLEQLGFQVKAVEG 121
Query: 65 AEQALSMLRENKNGYDIVISDVHMPDMDGFKLLEYI--GLEMDLPVIMMSADDGKNVVMK 122
+QAL +LRE N Y +++ DV MPDMDG +LL+ D+P+IM+S+ + + + +
Sbjct: 122 GKQALEVLREEGNNYHLLLVDVLMPDMDGLQLLKIFRQAYSEDMPIIMVSSSEDPDTINQ 181
Query: 123 GVTHGACDYLIKPVRIEALK 142
GA D+L KPV++E LK
Sbjct: 182 CFQSGAEDFLQKPVQLEILK 201
>C5XXQ3_SORBI (tr|C5XXQ3) Putative uncharacterized protein Sb04g026190 OS=Sorghum
bicolor GN=Sb04g026190 PE=4 SV=1
Length = 524
Score = 86.7 bits (213), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 45/124 (36%), Positives = 72/124 (58%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D D T + ++L C Y VT Q +++L DI++++V +P
Sbjct: 34 VRILLCDGDATSSREVLRLLCNCSYHVTCAKSPRQVINILNYEGGEIDIILAEVDLPVSK 93
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
FK+L+YI DL P+IMMS D +VV+K + GA +YL+KP+R L N+W HV
Sbjct: 94 CFKMLKYIARNKDLRHIPIIMMSNRDEVSVVVKCLRLGAAEYLVKPLRTNELLNLWTHVW 153
Query: 150 RKKK 153
R+++
Sbjct: 154 RRRR 157
>D7SI79_VITVI (tr|D7SI79) Whole genome shotgun sequence of line PN40024,
scaffold_0.assembly12x (Fragment) OS=Vitis vinifera
GN=VIT_00007965001 PE=4 SV=1
Length = 533
Score = 86.3 bits (212), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 45/124 (36%), Positives = 74/124 (59%), Gaps = 3/124 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+R+L+ D+D + +L C Y+VT A Q + L + DI++++V +P
Sbjct: 25 VRILLCDNDTKSSDEIFTLLCGCSYQVTSVRSARQVIDALNAEGHDIDIILAEVDLPMTK 84
Query: 93 GFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G K+L+YI + +L P+IMMSA D +VV+K + GA DYL+KP+R L N+W H+
Sbjct: 85 GMKMLKYIMRDKELRRIPIIMMSAQDEVSVVVKCLRLGAADYLVKPLRTNELLNLWTHMW 144
Query: 150 RKKK 153
R+++
Sbjct: 145 RRRR 148
>D2KK90_BRACM (tr|D2KK90) Pseudo-response regulator 1b OS=Brassica campestris
PE=2 SV=1
Length = 509
Score = 85.5 bits (210), Expect = 2e-15, Method: Compositional matrix adjust.
Identities = 49/137 (35%), Positives = 76/137 (55%), Gaps = 5/137 (3%)
Query: 20 KAGDVVSDQFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGY 79
K GD D+ + R+L+ D+D L + +L C Y+VT A Q + L
Sbjct: 8 KGGDGFIDRSRV--RILLCDNDSKSLGDVFTLLSQCSYQVTSVKSARQVIDALNAEGPDI 65
Query: 80 DIVISDVHMPDMDGFKLLEYIGLEMDL---PVIMMSADDGKNVVMKGVTHGACDYLIKPV 136
DI+++++ +P G K+L YI + DL PVIMMS D VV+K + GA DYL+KP+
Sbjct: 66 DIILAEIDLPMAKGMKMLRYITRDKDLRRIPVIMMSRQDEVPVVVKCLKLGAADYLVKPL 125
Query: 137 RIEALKNIWQHVVRKKK 153
R L N+W ++ R+++
Sbjct: 126 RTNELLNLWTYMWRRRR 142
>C0PQ18_PICSI (tr|C0PQ18) Putative uncharacterized protein OS=Picea sitchensis
PE=2 SV=1
Length = 206
Score = 85.1 bits (209), Expect = 3e-15, Method: Compositional matrix adjust.
Identities = 47/128 (36%), Positives = 73/128 (57%), Gaps = 7/128 (5%)
Query: 28 QFPIGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVH 87
+FP GL VLVVD DP L ++ L+ Y+VT R+E A+S L ++ + + + +
Sbjct: 13 KFPKGLHVLVVDKDPATLHDIKAKLEARRYRVTTFERSEDAVSALTNPESSFHVAL--IE 70
Query: 88 MPD----MDGFKLLEYIGLEMDLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKN 143
D +DGF +L+ + ++P IMMS D V+++ GA + L KP+ + LKN
Sbjct: 71 QADFGERLDGFDILDAENRK-NIPTIMMSNTDNTEVMLRAFALGAVEILQKPLSDDKLKN 129
Query: 144 IWQHVVRK 151
+WQH VRK
Sbjct: 130 VWQHAVRK 137
>C5WNM8_SORBI (tr|C5WNM8) Putative uncharacterized protein Sb01g038820 OS=Sorghum
bicolor GN=Sb01g038820 PE=4 SV=1
Length = 765
Score = 85.1 bits (209), Expect = 3e-15, Method: Compositional matrix adjust.
Identities = 46/122 (37%), Positives = 75/122 (61%), Gaps = 3/122 (2%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
LRV++V++D + ++ +L+ C Y+V A L + +N D+V+++V MP +
Sbjct: 80 LRVMLVENDDSTRQVVSALLRKCCYEVIPAENGSHAWRYLEDLQNNIDLVLTEVFMPCLS 139
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHVV 149
G LL I D+PVIMMS++D ++V K ++ GA D+L+KP+R LKN+WQHV
Sbjct: 140 GIGLLSKITSHKICKDIPVIMMSSNDSMSMVFKCLSKGAVDFLVKPLRKNELKNLWQHVW 199
Query: 150 RK 151
R+
Sbjct: 200 RR 201
>A2E4B2_TRIVA (tr|A2E4B2) Response regulator receiver domain containing protein
OS=Trichomonas vaginalis GN=TVAG_139380 PE=4 SV=1
Length = 637
Score = 84.7 bits (208), Expect = 3e-15, Method: Composition-based stats.
Identities = 50/148 (33%), Positives = 89/148 (60%), Gaps = 5/148 (3%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
L +L VDDD L + K LK+ Y V+ + ++AL +L+ N +D+++SDV MP M+
Sbjct: 12 LHILAVDDDAVQLHAVTKALKSLGYHVSNASNGQEALEVLKSG-NTFDLILSDVMMPVMN 70
Query: 93 GFKLLEYIGLEM---DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQHV- 148
G + L+ + +P+IMMS++D +V ++ GA DY+IKP+ + LKN++ +V
Sbjct: 71 GPQFLQETRADSRFEQIPIIMMSSNDQYEIVFDCLSKGADDYIIKPLTPQVLKNMYANVW 130
Query: 149 VRKKKNEMKDLEQSGSVEEGDRQQRQSE 176
+++K+N Q ++E+ Q+R +E
Sbjct: 131 LKRKQNAAAAKVQHQNIEKEVIQRRINE 158
>A7J5U5_AEGTA (tr|A7J5U5) Pseudo-response regulator OS=Aegilops tauschii GN=PRR
PE=4 SV=1
Length = 661
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 32 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 89
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 90 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 149
Query: 147 HVVRK 151
HV R+
Sbjct: 150 HVWRR 154
>D7M353_ARALY (tr|D7M353) Putative uncharacterized protein OS=Arabidopsis lyrata
subsp. lyrata GN=ARALYDRAFT_910487 PE=4 SV=1
Length = 556
Score = 84.7 bits (208), Expect = 4e-15, Method: Composition-based stats.
Identities = 51/147 (34%), Positives = 81/147 (55%), Gaps = 13/147 (8%)
Query: 31 IGLRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPD 90
I LRVL+V+ D + I+ +L+ C Y+V +A ML+ D+++++V +P
Sbjct: 50 IALRVLLVEADDSTRQIISALLRKCSYRVAAVPDGLKAWEMLKGKPESVDLILTEVDLPS 109
Query: 91 MDGFKLLEYIGLEMD----LPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
+ G+ LL I +E D +PVI + D N V K + GA DYL+KP+R L+N+WQ
Sbjct: 110 ISGYALLTLI-MEHDICKNIPVI---STDSVNTVYKCMLKGAADYLVKPLRRNELRNLWQ 165
Query: 147 HVVRKKKNEMKDLEQSGSVEEGDRQQR 173
HV R++ + D S +RQQ+
Sbjct: 166 HVWRRQTSLAPD-----SFPLDERQQK 187
>B5KVP8_TRITU (tr|B5KVP8) Pseudo-response regulator OS=Triticum turgidum GN=PRR
PE=4 SV=1
Length = 668
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 38 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 95
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 96 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 155
Query: 147 HVVRK 151
HV R+
Sbjct: 156 HVWRR 160
>A7J5U2_WHEAT (tr|A7J5U2) Pseudo-response regulator OS=Triticum aestivum GN=PRR
PE=4 SV=1
Length = 660
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 32 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 89
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 90 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 149
Query: 147 HVVRK 151
HV R+
Sbjct: 150 HVWRR 154
>A7J5U1_WHEAT (tr|A7J5U1) Pseudo-response regulator OS=Triticum aestivum GN=PRR
PE=4 SV=1
Length = 660
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 32 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 89
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 90 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 149
Query: 147 HVVRK 151
HV R+
Sbjct: 150 HVWRR 154
>A7J5S8_WHEAT (tr|A7J5S8) Pseudo-response regulator OS=Triticum aestivum GN=PRR
PE=4 SV=1
Length = 668
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 38 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 95
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 96 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 155
Query: 147 HVVRK 151
HV R+
Sbjct: 156 HVWRR 160
>B5KW98_TRITU (tr|B5KW98) Pseudo-response regulator OS=Triticum turgidum GN=PRR
PE=4 SV=1
Length = 664
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 35 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 92
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 93 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 152
Query: 147 HVVRK 151
HV R+
Sbjct: 153 HVWRR 157
>A7J5T4_WHEAT (tr|A7J5T4) Pseudo-response regulator OS=Triticum aestivum GN=PRR
PE=4 SV=1
Length = 664
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 35 IRVLLVETDDSTRQVVTALLRHCMYQVIPAENGHQAWAYLQDMQSNIDLVLTEVFM--HG 92
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 93 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 152
Query: 147 HVVRK 151
HV R+
Sbjct: 153 HVWRR 157
>B8YAZ3_HORVD (tr|B8YAZ3) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAX4_HORSP (tr|B8YAX4) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.7 bits (208), Expect = 4e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAY3_HORSP (tr|B8YAY3) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAN2_HORVD (tr|B8YAN2) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAN0_HORVD (tr|B8YAN0) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAE7_HORVD (tr|B8YAE7) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>Q32SF9_HORVD (tr|Q32SF9) Pseudo-response regulator OS=Hordeum vulgare var.
distichum GN=673I14.1 PE=4 SV=1
Length = 674
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YB30_HORVD (tr|B8YB30) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAY4_HORVD (tr|B8YAY4) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAX6_HORSP (tr|B8YAX6) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAT1_HORSP (tr|B8YAT1) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 672
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAG4_HORVD (tr|B8YAG4) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAF4_HORVD (tr|B8YAF4) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAZ6_HORVD (tr|B8YAZ6) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAT2_HORSP (tr|B8YAT2) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>Q32QD2_HORVU (tr|Q32QD2) Pseudo-response regulator PPD-H1 OS=Hordeum vulgare
GN=Ppd-H1 PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>Q32QD1_HORVD (tr|Q32QD1) Pseudo-response receiver OS=Hordeum vulgare var.
distichum GN=Ppd-H1 PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAW2_HORSP (tr|B8YAW2) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 677
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAW0_HORSP (tr|B8YAW0) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAU9_HORVD (tr|B8YAU9) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAT4_HORSP (tr|B8YAT4) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 673
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAS8_HORSP (tr|B8YAS8) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 672
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAR4_HORSP (tr|B8YAR4) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAR0_HORSP (tr|B8YAR0) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YB37_HORVD (tr|B8YB37) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAS5_HORSP (tr|B8YAS5) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 673
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YB00_HORVD (tr|B8YB00) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAR6_HORSP (tr|B8YAR6) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 672
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAP8_HORSP (tr|B8YAP8) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 675
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAP6_HORSP (tr|B8YAP6) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 673
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAT3_HORSP (tr|B8YAT3) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 673
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAT0_HORSP (tr|B8YAT0) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAS1_HORSP (tr|B8YAS1) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAN4_HORVD (tr|B8YAN4) Pseudo-response receiver OS=Hordeum vulgare var.
distichum PE=4 SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAX2_HORSP (tr|B8YAX2) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165
>B8YAS2_HORSP (tr|B8YAS2) Pseudo-response receiver OS=Hordeum spontaneum PE=4
SV=1
Length = 676
Score = 84.3 bits (207), Expect = 5e-15, Method: Compositional matrix adjust.
Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 8/125 (6%)
Query: 33 LRVLVVDDDPTCLMILEKMLKTCLYKVTKCTRAEQALSMLRENKNGYDIVISDVHMPDMD 92
+RVL+V+ D + ++ +L+ C+Y+V QA + L++ ++ D+V+++V M
Sbjct: 43 IRVLLVETDDSTRQVVAALLRHCMYQVIPVENGHQAWAYLQDMQSNIDLVLTEVFM--HG 100
Query: 93 GFKLLEYIGLEM------DLPVIMMSADDGKNVVMKGVTHGACDYLIKPVRIEALKNIWQ 146
G ++ +G M D+PVIMMS+ D V+ +++GA D+L KP+R LKN+W
Sbjct: 101 GLSGIDLLGRIMNHEVCKDIPVIMMSSHDSMGTVLSCLSNGAADFLAKPIRKNELKNLWA 160
Query: 147 HVVRK 151
HV R+
Sbjct: 161 HVWRR 165