Miyakogusa Predicted Gene
- Lj4g3v2918700.1
BLASTP 2.2.25 [Feb-01-2011]
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= Lj4g3v2918700.1 Non Chatacterized Hit- tr|I3S769|I3S769_LOTJA
Uncharacterized protein OS=Lotus japonicus PE=2
SV=1,95.45,0,Tetraspannin,Tetraspanin/Peripherin; SUBFAMILY NOT
NAMED,NULL; FAMILY NOT NAMED,NULL; seg,NULL;
TMFO,NODE_71552_length_1116_cov_15.880824.path2.1
(259 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g01550.2 399 e-111
Glyma08g01550.1 364 e-101
Glyma05g38020.1 345 3e-95
Glyma08g01550.3 336 2e-92
Glyma01g11130.1 160 1e-39
Glyma13g01580.1 154 1e-37
Glyma17g07700.1 151 5e-37
Glyma09g33780.1 151 5e-37
Glyma20g31900.1 150 1e-36
Glyma10g35650.1 150 2e-36
Glyma16g26080.1 147 1e-35
Glyma02g07090.1 142 3e-34
Glyma13g40390.1 137 1e-32
Glyma04g19880.1 136 3e-32
Glyma08g03290.1 133 2e-31
Glyma12g07660.1 130 2e-30
Glyma11g15790.1 124 1e-28
Glyma17g09150.1 119 3e-27
Glyma07g15490.1 113 2e-25
Glyma05g07660.1 112 3e-25
Glyma18g22790.1 112 3e-25
Glyma17g22100.1 100 1e-21
Glyma15g25180.1 99 5e-21
Glyma06g23090.1 95 6e-20
Glyma17g22060.1 90 2e-18
Glyma01g02160.1 81 1e-15
Glyma17g22600.1 73 3e-13
Glyma01g02170.1 68 1e-11
Glyma07g21060.1 58 1e-08
Glyma08g36610.1 48 9e-06
>Glyma08g01550.2
Length = 264
Score = 399 bits (1024), Expect = e-111, Method: Compositional matrix adjust.
Identities = 195/264 (73%), Positives = 209/264 (79%), Gaps = 5/264 (1%)
Query: 1 MGVGTSTFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVG 60
MG+GTSTFVTRWINFLTML AIVVI+FGVWMSTHHD CRKSLTVPV+GLGAVIFLIS+VG
Sbjct: 1 MGMGTSTFVTRWINFLTMLLAIVVIIFGVWMSTHHDGCRKSLTVPVIGLGAVIFLISVVG 60
Query: 61 FLGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSS 120
FLGALKN S TN+GSGHSVTGLRYKEYQLQD+SS
Sbjct: 61 FLGALKNNSILLWIYLITLFFVLVGILVFTVLVFIVTNNGSGHSVTGLRYKEYQLQDFSS 120
Query: 121 WFLKELNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYP 180
FLKELNNS NWERL+VCLVKSEDC+ LSKKYK LKQYK AKL+P+EAGCCRPPS+CGYP
Sbjct: 121 LFLKELNNSRNWERLKVCLVKSEDCNNLSKKYKTLKQYKSAKLSPIEAGCCRPPSQCGYP 180
Query: 181 AV-----DLTFHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXX 235
AV DLTFHPVSPN DCKRYKNS+AIKCYDCDSCKAGVAQYMKTEWR
Sbjct: 181 AVNASYYDLTFHPVSPNNDCKRYKNSRAIKCYDCDSCKAGVAQYMKTEWRVVAIFNVVLF 240
Query: 236 XXXSVIYFVGCCARRNASRSHSKG 259
S+IYFVGCCARRNA+RSHSK
Sbjct: 241 VVLSIIYFVGCCARRNAARSHSKA 264
>Glyma08g01550.1
Length = 269
Score = 364 bits (935), Expect = e-101, Method: Compositional matrix adjust.
Identities = 177/230 (76%), Positives = 189/230 (82%), Gaps = 5/230 (2%)
Query: 1 MGVGTSTFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVG 60
MG+GTSTFVTRWINFLTML AIVVI+FGVWMSTHHD CRKSLTVPV+GLGAVIFLIS+VG
Sbjct: 1 MGMGTSTFVTRWINFLTMLLAIVVIIFGVWMSTHHDGCRKSLTVPVIGLGAVIFLISVVG 60
Query: 61 FLGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSS 120
FLGALKN S TN+GSGHSVTGLRYKEYQLQD+SS
Sbjct: 61 FLGALKNNSILLWIYLITLFFVLVGILVFTVLVFIVTNNGSGHSVTGLRYKEYQLQDFSS 120
Query: 121 WFLKELNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYP 180
FLKELNNS NWERL+VCLVKSEDC+ LSKKYK LKQYK AKL+P+EAGCCRPPS+CGYP
Sbjct: 121 LFLKELNNSRNWERLKVCLVKSEDCNNLSKKYKTLKQYKSAKLSPIEAGCCRPPSQCGYP 180
Query: 181 AV-----DLTFHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWR 225
AV DLTFHPVSPN DCKRYKNS+AIKCYDCDSCKAGVAQYMKTEWR
Sbjct: 181 AVNASYYDLTFHPVSPNNDCKRYKNSRAIKCYDCDSCKAGVAQYMKTEWR 230
>Glyma05g38020.1
Length = 241
Score = 345 bits (885), Expect = 3e-95, Method: Compositional matrix adjust.
Identities = 172/264 (65%), Positives = 187/264 (70%), Gaps = 28/264 (10%)
Query: 1 MGVGTSTFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVG 60
MG+GTSTFVTRWINFLTML AI VI+FGVWMSTHHD CRKSLTVPV+GLGAVIFLIS+VG
Sbjct: 1 MGMGTSTFVTRWINFLTMLLAIAVIIFGVWMSTHHDGCRKSLTVPVIGLGAVIFLISVVG 60
Query: 61 FLGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSS 120
FLGALKN S TN+GSGHSVTGLRYKEYQLQD+SS
Sbjct: 61 FLGALKNISILLWIYLITLFFVLVGILVFTVLVFIVTNNGSGHSVTGLRYKEYQLQDFSS 120
Query: 121 WFLKELNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYP 180
WFLKELNNS NWERL+V +KL+P+EAGCCRPPS+CGYP
Sbjct: 121 WFLKELNNSRNWERLKV-----------------------SKLSPIEAGCCRPPSQCGYP 157
Query: 181 AV-----DLTFHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXX 235
AV DLTFHPVSPN DCKRYKN +A+KCYDCDSCKAGVAQYMKTEWR
Sbjct: 158 AVNASYYDLTFHPVSPNNDCKRYKNYRAVKCYDCDSCKAGVAQYMKTEWRVVAIFNVVLF 217
Query: 236 XXXSVIYFVGCCARRNASRSHSKG 259
+IYFVGCCARRNA+RSHSK
Sbjct: 218 VVLCIIYFVGCCARRNAARSHSKA 241
>Glyma08g01550.3
Length = 218
Score = 336 bits (861), Expect = 2e-92, Method: Compositional matrix adjust.
Identities = 165/218 (75%), Positives = 177/218 (81%), Gaps = 5/218 (2%)
Query: 1 MGVGTSTFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVG 60
MG+GTSTFVTRWINFLTML AIVVI+FGVWMSTHHD CRKSLTVPV+GLGAVIFLIS+VG
Sbjct: 1 MGMGTSTFVTRWINFLTMLLAIVVIIFGVWMSTHHDGCRKSLTVPVIGLGAVIFLISVVG 60
Query: 61 FLGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSS 120
FLGALKN S TN+GSGHSVTGLRYKEYQLQD+SS
Sbjct: 61 FLGALKNNSILLWIYLITLFFVLVGILVFTVLVFIVTNNGSGHSVTGLRYKEYQLQDFSS 120
Query: 121 WFLKELNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYP 180
FLKELNNS NWERL+VCLVKSEDC+ LSKKYK LKQYK AKL+P+EAGCCRPPS+CGYP
Sbjct: 121 LFLKELNNSRNWERLKVCLVKSEDCNNLSKKYKTLKQYKSAKLSPIEAGCCRPPSQCGYP 180
Query: 181 AV-----DLTFHPVSPNKDCKRYKNSQAIKCYDCDSCK 213
AV DLTFHPVSPN DCKRYKNS+AIKCYDCDSCK
Sbjct: 181 AVNASYYDLTFHPVSPNNDCKRYKNSRAIKCYDCDSCK 218
>Glyma01g11130.1
Length = 269
Score = 160 bits (405), Expect = 1e-39, Method: Compositional matrix adjust.
Identities = 82/246 (33%), Positives = 129/246 (52%), Gaps = 7/246 (2%)
Query: 13 INFLTMLSAIVVIMFGVWMSTH-HDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXX 71
INF+ +L +I +I G+W++T DSC K L P++ LG +IF++++ GF+GA
Sbjct: 11 INFVAVLLSIPIIGAGIWLTTEPADSCVKILQWPIIILGVLIFVVALAGFIGAFWRIPML 70
Query: 72 XXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
T G G+ Y EY++ D+S W + + +S
Sbjct: 71 LVFYLIAMLVLIVLLVSLVVFTYAVTLRGRGNIEPNRSYLEYRMDDFSIWLRRRVRSSSK 130
Query: 132 WERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLTFHPVSP 191
W+ +R CL S C L ++Y+ +++ A LTP+++GCC+PP++CGY V+ T+ +SP
Sbjct: 131 WDGIRSCLRSSNICADLDQQYRTAQEFFNAHLTPIQSGCCKPPTKCGYTFVNPTYW-ISP 189
Query: 192 -----NKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVGC 246
+ DC ++ N QA CY+CDSCKAG+ ++ EWR +Y VGC
Sbjct: 190 INTAVDMDCMKWSNDQAQLCYNCDSCKAGLLATLRVEWRRANVILIVTLVALIAVYLVGC 249
Query: 247 CARRNA 252
A RNA
Sbjct: 250 FAFRNA 255
>Glyma13g01580.1
Length = 296
Score = 154 bits (388), Expect = 1e-37, Method: Compositional matrix adjust.
Identities = 82/256 (32%), Positives = 128/256 (50%), Gaps = 9/256 (3%)
Query: 13 INFLTMLSAIVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXX 71
+NFLT L +I +++ GVW+S + C + L PV+ LG + L+S+ G +GA S
Sbjct: 38 LNFLTFLLSIPILVAGVWLSKQGATECERWLEKPVIALGVFLMLVSLAGLVGACCRVSWL 97
Query: 72 XXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
TN G+G V+ YKEY+L DYS+W K +NN+
Sbjct: 98 LWLYLLVMFVLIVLLFAFTIFAFVVTNKGAGEVVSNRGYKEYRLGDYSNWLQKRVNNTKT 157
Query: 132 WERLRVCLVKSEDCHKLSKKYKN--LKQYKLAKLTPMEAGCCRPPSECGYPAVDLTF--H 187
W R+R CL + C + K+ N + ++ L+ +++GCC+P EC + V+ T
Sbjct: 158 WNRIRSCLQSGKVCTEFQSKFLNDTVTEFYSENLSALQSGCCKPAEECQFSYVNPTTWTK 217
Query: 188 PVS----PNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYF 243
P + N DC + N + C++C SCKAG+ Q +KT+W+ ++Y
Sbjct: 218 PTNVTNQSNPDCDAWNNDPTVLCFNCQSCKAGLLQNLKTDWKRVAVVNIVFLVFLIIVYS 277
Query: 244 VGCCARRNASRSHSKG 259
+GCCA RN R + KG
Sbjct: 278 IGCCAFRNNRRENWKG 293
>Glyma17g07700.1
Length = 270
Score = 151 bits (382), Expect = 5e-37, Method: Compositional matrix adjust.
Identities = 83/257 (32%), Positives = 126/257 (49%), Gaps = 11/257 (4%)
Query: 13 INFLTMLSAIVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXX 71
+NFLT L +I +++ GVW+S + C + L PV+ LG + L+S+ G +GA S
Sbjct: 12 LNFLTFLLSIPILVAGVWLSKQGATECERWLEKPVIALGVFLMLVSLAGLVGACCRVSWL 71
Query: 72 XXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
TN G+G V+ YKEY+L DYS+W K++NN+
Sbjct: 72 LWLYLLVMFVLIVLLFAFTIFAFVVTNKGAGEVVSNRGYKEYRLGDYSNWLQKKVNNTKT 131
Query: 132 WERLRVCLVKSEDCHKLSKKYKN--LKQYKLAKLTPMEAGCCRPPSECGYPAVDLTFHPV 189
W R+ CL + C + K+ N + Q+ L+ +++GCC+P EC + + T
Sbjct: 132 WNRISSCLHSGKVCTEFQSKFLNDTVTQFYTEHLSALQSGCCKPAEECLFTYENST-SWT 190
Query: 190 SP-------NKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIY 242
P N DC + N+Q + C++C SCKAG Q KTEW+ ++Y
Sbjct: 191 KPGNVTSYNNPDCDAWNNNQTVLCFNCQSCKAGFLQNFKTEWKRVAVVNIVFLVLLIIVY 250
Query: 243 FVGCCARRNASRSHSKG 259
+GCCA RN R + KG
Sbjct: 251 SIGCCAFRNNRRENWKG 267
>Glyma09g33780.1
Length = 269
Score = 151 bits (382), Expect = 5e-37, Method: Compositional matrix adjust.
Identities = 78/245 (31%), Positives = 131/245 (53%), Gaps = 5/245 (2%)
Query: 13 INFLTMLSAIVVIMFGVWM-STHHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXX 71
INF+ ++ +I +I G+W+ + DSC + L PV+ LG +I ++++ GF+GA S
Sbjct: 11 INFVAVILSIPIIGAGIWLLNGEADSCVQFLQWPVIILGVLILVVALAGFIGAFFRVSWL 70
Query: 72 XXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
T G G+ Y EY++ D+S + + + +S
Sbjct: 71 LIVYLVAMLVLVILLVSLVAFVYMVTLRGHGNIEPNRAYLEYRMDDFSGYLRRRVRSSFK 130
Query: 132 WERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLTF--HPV 189
W+R+R CL ++ C +L++ Y+ + + A+LTPM++GCC+PP++C Y V+ T+ P+
Sbjct: 131 WDRIRSCLSQTNMCAELNQGYRMAQDFFNARLTPMQSGCCKPPTQCAYTFVNPTYWISPI 190
Query: 190 --SPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVGCC 247
+ + DC ++ N Q CY+CDSCKAG+ ++ EWR ++Y VGCC
Sbjct: 191 NTAADMDCLQWSNDQTQLCYNCDSCKAGLLANLRKEWRRANVILIITVIVLIIVYLVGCC 250
Query: 248 ARRNA 252
A RNA
Sbjct: 251 AFRNA 255
>Glyma20g31900.1
Length = 283
Score = 150 bits (379), Expect = 1e-36, Method: Compositional matrix adjust.
Identities = 77/252 (30%), Positives = 124/252 (49%), Gaps = 5/252 (1%)
Query: 6 STFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGAL 65
S V ++N T+L++I +I G+WM+ +C L P+L +G V+ ++S+ GF+GA
Sbjct: 5 SNTVIGFLNLFTLLASIPIIGAGLWMARSSTTCENFLQTPLLVIGFVVLVVSLAGFIGAC 64
Query: 66 KNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKE 125
+ + T+ G G V G YKEY LQDYS W K
Sbjct: 65 FHVACALWLYLVVMLFLIAALMGLTIFGFGVTSKGGGVEVPGRVYKEYHLQDYSPWLRKR 124
Query: 126 LNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLT 185
+ + W +R C++ S+ C KL+ Y ++P+++GCC+PP+ C Y +
Sbjct: 125 IQDPRYWNTIRGCIMGSKTCEKLATWTP--LDYMQRDMSPIQSGCCKPPTACTYNVATMM 182
Query: 186 FHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVG 245
++ + DC R+ N+ + CY+CDSCKAGV + ++ W IY +G
Sbjct: 183 ---MTQDPDCYRWNNAPNLLCYECDSCKAGVLEDIRGNWHKLSVLTVTMLVLLIGIYSIG 239
Query: 246 CCARRNASRSHS 257
CCA RN R+ +
Sbjct: 240 CCAFRNTRRAET 251
>Glyma10g35650.1
Length = 283
Score = 150 bits (378), Expect = 2e-36, Method: Compositional matrix adjust.
Identities = 77/252 (30%), Positives = 126/252 (50%), Gaps = 5/252 (1%)
Query: 6 STFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGAL 65
S V ++N T+L++I +I G+WM+ +C L P+L +G V+ ++S+ GF+GA
Sbjct: 5 SNTVIGFLNLFTLLASIPIIGAGLWMARSSTTCENFLQTPLLVIGFVVLVVSLAGFIGAC 64
Query: 66 KNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKE 125
+ + T+ G G V G YKEY+LQDYS W K
Sbjct: 65 FHVACALWLYLVVMLFLIAALMGFTIFGFGVTSKGGGVEVPGRVYKEYRLQDYSPWLRKR 124
Query: 126 LNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLT 185
+ + W +R C++ S+ C KL+ Y ++P+++GCC+PP+ C Y ++
Sbjct: 125 IQDPRYWNTIRGCILGSKTCEKLASWTP--LDYMQRDMSPIQSGCCKPPTACTY---NVA 179
Query: 186 FHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVG 245
++ + DC R+ N+ + CY+CDSCKAGV + ++ W IY +G
Sbjct: 180 TTMMTQDPDCYRWNNAPNLLCYECDSCKAGVLEDIRGNWHKLSVLTVTMLVLLIGIYSIG 239
Query: 246 CCARRNASRSHS 257
CCA RN R+ +
Sbjct: 240 CCAFRNTRRAET 251
>Glyma16g26080.1
Length = 283
Score = 147 bits (371), Expect = 1e-35, Method: Compositional matrix adjust.
Identities = 76/252 (30%), Positives = 123/252 (48%), Gaps = 5/252 (1%)
Query: 6 STFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGAL 65
S V ++NF T+L++I +I G+WM+ +C P+L +G V+ +IS+ G +GA
Sbjct: 5 SNTVIGFLNFFTLLASIPIIGAGLWMARSTLTCENFFQTPLLVIGFVVLVISLTGLIGAC 64
Query: 66 KNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKE 125
+ + T G G V G YKEY+L+ YS W
Sbjct: 65 FHVAWALWVYLVIMVFIIATLLGFTIFGFVVTEQGGGVEVPGRAYKEYRLERYSPWLRNR 124
Query: 126 LNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLT 185
+ + W +R C++ S C KL+ + Y ++P+++GCC+PP+ C Y +
Sbjct: 125 IQDPQYWSTIRSCILGSNTCAKLA--FWTPLDYVQRDMSPIQSGCCKPPTACMYNEETVV 182
Query: 186 FHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVG 245
V+P+ DC R+ N+ + CYDC+SCKAGV + ++ +W IY +
Sbjct: 183 ---VTPDSDCYRWNNAPTLLCYDCNSCKAGVLENIRRDWHNISVLNVVVLVFLIGIYSIA 239
Query: 246 CCARRNASRSHS 257
CCA RNA R+ +
Sbjct: 240 CCAFRNARRAQT 251
>Glyma02g07090.1
Length = 283
Score = 142 bits (359), Expect = 3e-34, Method: Compositional matrix adjust.
Identities = 76/252 (30%), Positives = 120/252 (47%), Gaps = 5/252 (1%)
Query: 6 STFVTRWINFLTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGAL 65
S V ++NF T+L++I +I G+WM+ +C P+L +G V+ +IS+ GF+GA
Sbjct: 5 SNTVIGFLNFFTLLASIPIIGAGLWMARSTTTCENFFQTPLLVIGFVVLVISLAGFIGAC 64
Query: 66 KNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKE 125
+ + T G G V G YKEY+L YS W
Sbjct: 65 FHVAWALWVYLVIMVFIIAALLGFAVFGFVVTEQGGGVEVPGRAYKEYRLDRYSPWLRNR 124
Query: 126 LNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLT 185
+ + W +R C++ S C KL+ + Y ++P+++GCC+PP+ C Y +
Sbjct: 125 IKDPQYWSTIRSCILGSNTCAKLA--FWTPLDYVQRDMSPIQSGCCKPPTGCSYNEETVV 182
Query: 186 FHPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVG 245
V+ + DC R+ N+ + CYDCDSCKAGV + ++ W IY +
Sbjct: 183 ---VTQDPDCYRWNNAPTLLCYDCDSCKAGVLENIRRGWHNISVLNVVVLVFLIGIYSIA 239
Query: 246 CCARRNASRSHS 257
CA RNA R+ +
Sbjct: 240 FCAFRNARRAQT 251
>Glyma13g40390.1
Length = 282
Score = 137 bits (344), Expect = 1e-32, Method: Compositional matrix adjust.
Identities = 78/257 (30%), Positives = 120/257 (46%), Gaps = 12/257 (4%)
Query: 13 INFLTMLSAIVVIMFGVWMST--HHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSX 70
+NFLT L ++ +++ G+W+ST ++ C K L P++ +G + + S+ G +GA S
Sbjct: 11 LNFLTFLLSVPILVCGIWLSTRANNTECLKFLQWPLIVIGISVMVTSLAGLVGACYRNSF 70
Query: 71 XXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSH 130
T GSG Y EY LQDY W K + +
Sbjct: 71 LMSLYLVVMLFILLVLVGFIVFAYAVTAKGSGRETLNRAYLEYYLQDYDGWLKKRVESDG 130
Query: 131 NWERLRVCLVKSEDCHKLSKKYKNLKQ----YKLAKLTPMEAGCCRPPSECGYPAVDLT- 185
W ++R C+ S C K+ + + + + L KL+P+++GCC+P ECGY + T
Sbjct: 131 YWRKIRSCVRDSRVCGKIGRTVDGVPETADMFYLRKLSPIQSGCCKPQRECGYVYENETV 190
Query: 186 FHP-----VSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSV 240
+ P V N DC R+ N Q + CYDCDSCKAGV +K WR V
Sbjct: 191 WRPREGVVVGSNPDCTRWSNDQHLLCYDCDSCKAGVLATLKKSWRKVSVINIPVLVTLVV 250
Query: 241 IYFVGCCARRNASRSHS 257
+Y + A +N R ++
Sbjct: 251 LYIIAYAAYKNNRRINN 267
>Glyma04g19880.1
Length = 267
Score = 136 bits (342), Expect = 3e-32, Method: Compositional matrix adjust.
Identities = 72/245 (29%), Positives = 120/245 (48%), Gaps = 8/245 (3%)
Query: 22 IVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXXXXXXXXXXX 80
I +++ GVW+ ++ C + L P++ LG + ++S+ G LGA S
Sbjct: 22 IPILVTGVWLHKQAETECERWLEKPLIVLGVFLLVVSLAGLLGACCRLSCLLWLYLFVMF 81
Query: 81 XXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHNWERLRVCLV 140
TN G+G V+ Y+EY+L DYS+W + N H W R++ CL
Sbjct: 82 ILIIVVSAFTVFAFVVTNKGAGEVVSNRGYREYRLGDYSNWLQNRVTNPHTWNRIKSCLQ 141
Query: 141 KSEDCHKLSKKYKN--LKQYKLAKLTPMEAGCCRPPSECGY----PAV-DLTFHPVSPNK 193
++ C K ++ N +Q+ L+ +++GCC+P ++C + P+V + T N
Sbjct: 142 SAKLCDKFETQFANDSAQQFYAENLSALQSGCCKPSNDCNFAYQGPSVWNKTDGVNHSNP 201
Query: 194 DCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVGCCARRNAS 253
DC + N + C++C+SCKAG Q +KT+W+ ++Y VGCCA RN
Sbjct: 202 DCNAWDNDSNVLCFNCESCKAGFLQNLKTDWKKVTIVNVIFLVFLIIVYSVGCCAFRNNM 261
Query: 254 RSHSK 258
R + K
Sbjct: 262 RGNWK 266
>Glyma08g03290.1
Length = 285
Score = 133 bits (334), Expect = 2e-31, Method: Compositional matrix adjust.
Identities = 77/259 (29%), Positives = 131/259 (50%), Gaps = 5/259 (1%)
Query: 3 VGTSTFVTRWINFLTMLSAIVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMVGF 61
+G S +T +N + L++I +I G+W+++ D+ C + P++ +G +I L+S+ GF
Sbjct: 17 MGVSNNITAVLNLIATLASIPIIASGIWLASKPDNECVANFRWPIVIIGILILLVSLAGF 76
Query: 62 LGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSW 121
+GA N T + V G YKEY+L +SSW
Sbjct: 77 VGAYWNKQGLLALYLFCMALLIALLLLVLVFAFVVTRPDGAYDVPGRGYKEYRLHGFSSW 136
Query: 122 FLKELNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPA 181
+ S +W+++R CL S+ C KL++ Y Q+ + ++P+++GCC+PP+ CGY
Sbjct: 137 LRNHVTGSGSWQKIRPCLAASDVCSKLTQDYITADQFFNSHISPLQSGCCKPPTACGYNY 196
Query: 182 VD--LTFHPVSP--NKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXX 237
V+ L +PV+P + DC + N Q CY+C++CKAG+ ++ EWR
Sbjct: 197 VNPILWTNPVNPMADSDCYLWNNDQNQLCYNCNACKAGLLGNLRKEWRKANIILIVAVVV 256
Query: 238 XSVIYFVGCCARRNASRSH 256
+Y + C A RNA +
Sbjct: 257 LIWVYVIACSAFRNAQTEN 275
>Glyma12g07660.1
Length = 285
Score = 130 bits (326), Expect = 2e-30, Method: Compositional matrix adjust.
Identities = 72/232 (31%), Positives = 113/232 (48%), Gaps = 11/232 (4%)
Query: 5 TSTFVTRWINFLTMLSAIVVIMFGVWMST--HHDSCRKSLTVPVLGLGAVIFLISMVGFL 62
TS + +NFLT L +I ++ G+W+S+ ++ C K L P++ +G I ++S+ GF
Sbjct: 3 TSNHLIGLLNFLTFLLSIPILGGGIWLSSRANNTDCLKFLQWPLIIIGVSIMVVSLAGFA 62
Query: 63 GALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWF 122
GA + T+ GSG V Y EY L+DYS W
Sbjct: 63 GACYRNTFLMRLYLVVMFLVIAVLIGFIIFAYVVTDKGSGRRVMNRAYLEYYLEDYSGWL 122
Query: 123 LKELNNSHNWERLRVCLVKSEDCHKLSKKYKNLKQ----YKLAKLTPMEAGCCRPPSECG 178
+ + + W ++ C+ S+ C ++ + + Q + L LTP+++GCC+PP++CG
Sbjct: 123 EERVASESYWGKIASCIRDSKVCGRMGRTVNGMPQTPDMFYLTHLTPIQSGCCKPPTDCG 182
Query: 179 YPAVDLTF-----HPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWR 225
Y + T + N DC R+ N Q CY CDSCKAGV +K WR
Sbjct: 183 YVYQNETVWIPGSGLMGTNADCTRWSNDQEQLCYACDSCKAGVLASLKKSWR 234
>Glyma11g15790.1
Length = 285
Score = 124 bits (310), Expect = 1e-28, Method: Compositional matrix adjust.
Identities = 68/224 (30%), Positives = 109/224 (48%), Gaps = 11/224 (4%)
Query: 13 INFLTMLSAIVVIMFGVWMST--HHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSX 70
+NFLT L +I ++ G+W+S+ ++ C K L P++ +G I ++S+ GF GA +
Sbjct: 11 LNFLTFLLSIPILGGGIWLSSRANNTDCLKFLQWPLIIIGVSIMVVSLAGFAGACYRNTF 70
Query: 71 XXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSH 130
T+ GSG V Y EY L+DYS W + + +
Sbjct: 71 LMRLYLVVMFLVIAVLIGFIIFAYVVTDKGSGRRVMNRAYLEYYLEDYSGWLEERVASDS 130
Query: 131 NWERLRVCLVKSEDCHKLSKKYKNLKQ----YKLAKLTPMEAGCCRPPSECGYPAVDLTF 186
W ++ C+ S+ C ++ + + + + LTP+++GCC+PP++CGY + T
Sbjct: 131 YWGKIVSCVRDSKACGRMGITINGMPETPDMFYIRHLTPIQSGCCKPPTDCGYVYQNETV 190
Query: 187 -----HPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWR 225
+ N DC R+ N Q CY CDSCKAGV +K WR
Sbjct: 191 WIPGSGLMGANPDCTRWSNDQEQLCYACDSCKAGVLASLKKSWR 234
>Glyma17g09150.1
Length = 274
Score = 119 bits (298), Expect = 3e-27, Method: Compositional matrix adjust.
Identities = 74/261 (28%), Positives = 117/261 (44%), Gaps = 10/261 (3%)
Query: 6 STFVTRWINFLTMLSAIVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMVGFLGA 64
S V +N L++L I + ++ S C+K L VP+L G + L+S +G +G+
Sbjct: 5 SNTVVGALNVLSLLLGIAAVGSSAYIHVRGGSDCQKVLQVPLLVGGIFVVLVSALGIVGS 64
Query: 65 LKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLK 124
L + TN G V+G Y EY++ D+S W +
Sbjct: 65 LCRVNGALYAYLLVTFMVIVGLAFFTVFALFVTNRKVGQRVSGKGYGEYRVADFSHWLQR 124
Query: 125 ELNNSHNWERLRVCLVKSEDCHKLS-KKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVD 183
+ N+ NW+ ++ CL+ + C L+ +N + +AGCC+PP CG+ +
Sbjct: 125 YVVNNKNWDEVKSCLMDAHVCQNLALNGGRNNDSLIFKHFSTTQAGCCKPPVYCGFIMKN 184
Query: 184 LTFHPV-------SPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXX 236
TF V + N DC + NS+ CYDC+SCK GV ++ +WR
Sbjct: 185 ATFWEVPKKGPAANNNTDCSTWNNSKEKLCYDCNSCKGGVLANIRNQWRRLTVFNACVLV 244
Query: 237 XXSVIYFVGCCA-RRNASRSH 256
+ IY +GC A + N S SH
Sbjct: 245 LVTAIYALGCYAIKNNRSDSH 265
>Glyma07g15490.1
Length = 273
Score = 113 bits (282), Expect = 2e-25, Method: Compositional matrix adjust.
Identities = 75/261 (28%), Positives = 130/261 (49%), Gaps = 11/261 (4%)
Query: 1 MGVGTSTFVTRWINFLTMLSAIVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMV 59
MGVG + ++ +NF+ +L++I +I GVW+++ D+ C + VL LG ++ LIS+
Sbjct: 1 MGVGNN--MSAVLNFIALLASIPIISAGVWLASKPDNECIHNFRWHVLVLGLLVLLISLA 58
Query: 60 GFLGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYS 119
GF+GA N T + V G +KE L +S
Sbjct: 59 GFVGAYWNKQGLLAFYLCCMAILISLLLFLLVFSFVVTRPDGTYHVPGRGFKESMLVGFS 118
Query: 120 SWFLKEL---NNSHNWERLRVCLVKSEDCHKLSKKYKNLKQY-KLAKLTPMEAGCCRPPS 175
W + +++ +W ++ CL S C KL++ Y + + + ++P+++GCC+PP+
Sbjct: 119 PWLRNHVFTASSTTSWNKITTCLAHSYVCIKLTQDYASADHFFNSSNISPLQSGCCKPPT 178
Query: 176 ECGYPAVD--LTFHPVSP--NKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXX 231
CGY V+ L +PV+P + DC + N Q+ CY+C++CKAG+ ++ EWR
Sbjct: 179 SCGYNYVNPILWINPVNPMVDPDCYLWSNDQSQLCYNCNACKAGLLGNLREEWRKANIIL 238
Query: 232 XXXXXXXSVIYFVGCCARRNA 252
+Y + C A +NA
Sbjct: 239 TVAVVVLIWVYLIACSAFKNA 259
>Glyma05g07660.1
Length = 261
Score = 112 bits (281), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 71/255 (27%), Positives = 116/255 (45%), Gaps = 9/255 (3%)
Query: 6 STFVTRWINFLTMLSAIVVIMFGVWMSTHHDS-CRKSLTVPVLGLGAVIFLISMVGFLGA 64
S V +N L++L I + V++ H S C+K L VP+L G + L+S +G +G+
Sbjct: 5 SNTVVGALNVLSLLLGITAVGSSVYIHVHGGSDCQKVLQVPLLVGGVFVVLVSALGIVGS 64
Query: 65 LKNWSXXXXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLK 124
L + TN G V+G Y EY++ D+S W +
Sbjct: 65 LCRVNGALYAYLFVTFMVIVGLAFFTVFTLLVTNRKVGRQVSGKGYGEYRVGDFSQWLQR 124
Query: 125 ELNNSHNWERLRVCLVKSEDCHKLS-KKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVD 183
+ N+ NW+ ++ CL+ + C L+ +N + +AGCC+PP+ CG+ +
Sbjct: 125 YVVNNENWDEVKSCLMDTHVCQNLALNGGRNNDSLIFKHFSTTQAGCCKPPAYCGFIMKN 184
Query: 184 LTF-------HPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXX 236
TF V+ N DC + N + CYDC+SCK GV ++ +W+
Sbjct: 185 ATFWEVPKKGPAVNNNSDCNTWNNRREKLCYDCNSCKGGVLANIRNQWKRLTVFNACVLL 244
Query: 237 XXSVIYFVGCCARRN 251
+ IY +GC A +N
Sbjct: 245 LVTAIYALGCYAIKN 259
>Glyma18g22790.1
Length = 280
Score = 112 bits (281), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 69/246 (28%), Positives = 107/246 (43%), Gaps = 17/246 (6%)
Query: 16 LTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXXXXXX 75
L +L +I + ++ H D C+K L P+L G IF+IS +G +G L +
Sbjct: 15 LPLLLSIAAMGDSAYIRVHGD-CQKVLQYPLLFGGLFIFVISTLGLVGVLCRVNAALYLY 73
Query: 76 XXXXXXXXXXXXXXXXXXXXXTN----DGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
T D +G SV Y + D+S W + + N
Sbjct: 74 LLATFFVILAFSSFTIVALFVTRNNAPDRAGPSV------GYGVGDFSPWLQHYVTDQRN 127
Query: 132 WERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPMEAGCCRPPSECGYPAVDLTF----- 186
W+ + CLV+ CH L+ N +LT + GCC+PP CG+ + TF
Sbjct: 128 WDVAQSCLVQKRVCHGLAVDANNNDSLAFKRLTTTQIGCCKPPLRCGFTKKNATFWEAPK 187
Query: 187 -HPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVG 245
P++ + DC+ + N Q C++CDSCK GV ++++WR + IY +G
Sbjct: 188 AGPLANDTDCRTWSNRQDKLCFNCDSCKGGVLANIRSQWRHLTIFNTCVLVLVTTIYVLG 247
Query: 246 CCARRN 251
C A RN
Sbjct: 248 CYAIRN 253
>Glyma17g22100.1
Length = 134
Score = 100 bits (249), Expect = 1e-21, Method: Compositional matrix adjust.
Identities = 62/117 (52%), Positives = 70/117 (59%), Gaps = 10/117 (8%)
Query: 19 LSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXXXXXXXXX 78
L AI VI+FGVWMSTHHD CRKSLTVPV+GLGAVIFLIS+VGFLGALKN S
Sbjct: 1 LLAIAVIIFGVWMSTHHDGCRKSLTVPVIGLGAVIFLISVVGFLGALKNISILLWIYHPV 60
Query: 79 XXXXXXXXXXXXXXXXXXTN--------DGSGHSVTGLRYKEYQLQDYSSWFLKELN 127
N D S S++ +YKEYQLQD+SS FLKE+
Sbjct: 61 LCLGGNFGLHSIGSMLCCFNRIKFRSYVDSSIKSLS--KYKEYQLQDFSSGFLKEVT 115
>Glyma15g25180.1
Length = 273
Score = 99.0 bits (245), Expect = 5e-21, Method: Compositional matrix adjust.
Identities = 67/264 (25%), Positives = 107/264 (40%), Gaps = 35/264 (13%)
Query: 16 LTMLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXXXXXX 75
L +L +I + ++ H D C+K L P+L G IF+IS +G +G L +
Sbjct: 15 LPLLLSIAAMGDSAYIRVHGD-CQKVLQYPLLFGGLFIFVISTLGLVGVLCRVNAALYLY 73
Query: 76 XXXXXXXXXXXXXXXXXXXXXTN----DGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
T D +G SV Y + D+S W + + N
Sbjct: 74 LLATFFVILAFSPFTIVALFVTRNNAPDRAGPSV------GYGVGDFSPWLQHYVTDQRN 127
Query: 132 WERLRVCLVKSEDCHKLSKKYKNLKQYKLAKL------------------TPMEAGCCRP 173
W+ + CLV+ CH L+ N ++ + GCC+P
Sbjct: 128 WDVAQSCLVQKRVCHGLAVDANNNDSLAFKRICYECVLRLNHTTCYSNQILSLLIGCCKP 187
Query: 174 PSECGYPAVDLTF------HPVSPNKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEWRXX 227
P CG+ + TF P++ + DC+ + N Q C++CDSCK GV ++++WR
Sbjct: 188 PLRCGFTKKNATFWEAPKAGPLANDTDCRTWSNRQDKLCFNCDSCKGGVLANIRSQWRHL 247
Query: 228 XXXXXXXXXXXSVIYFVGCCARRN 251
++IY +GC A RN
Sbjct: 248 TIFNACVLVLVTIIYVLGCYAIRN 271
>Glyma06g23090.1
Length = 226
Score = 95.1 bits (235), Expect = 6e-20, Method: Compositional matrix adjust.
Identities = 58/224 (25%), Positives = 95/224 (42%), Gaps = 18/224 (8%)
Query: 35 HDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXXXXXXXXXXXXXXXXXXXXXXXXX 94
H C+K L P+L G IF++S +G +GAL + +
Sbjct: 10 HGDCQKVLQYPLLFGGLFIFVVSTLGLIGALCSINAAIYLYLLVTFFVVLAFSAFTIVAL 69
Query: 95 XXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHNWERLRVCLVKSEDCHKLSKKYKN 154
T + + SV ++ D+S W + + NW+ + CL+ CH +
Sbjct: 70 FVTRNNTPSSV------RSRVGDFSPWLQHYVTDERNWDVAKSCLLHKLVCHDGNNVSLA 123
Query: 155 LKQYKLAKLTPMEAGCCRPPSECGYPAVDLTF-------HPVSPNKDCKRYKNSQAIKCY 207
KQ L+ + GCC+PP +CG+ + TF + N +C+ + N Q C+
Sbjct: 124 FKQ-----LSTTQFGCCKPPLQCGFTKKNATFWEAPAKASTAANNTNCRTWSNRQDKLCF 178
Query: 208 DCDSCKAGVAQYMKTEWRXXXXXXXXXXXXXSVIYFVGCCARRN 251
+CDSCK GV ++++WR + IY +G A RN
Sbjct: 179 NCDSCKGGVLANIRSQWRHLTIFNACVLVLVTTIYVLGYYAIRN 222
>Glyma17g22060.1
Length = 120
Score = 90.1 bits (222), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 44/52 (84%), Positives = 48/52 (92%)
Query: 18 MLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWS 69
ML AI VI+FGVWMSTHHD CRKSLT+PV+GLGAVIFLIS+VGFLGALKN S
Sbjct: 1 MLLAIAVIIFGVWMSTHHDGCRKSLTMPVIGLGAVIFLISVVGFLGALKNIS 52
>Glyma01g02160.1
Length = 166
Score = 80.9 bits (198), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 43/156 (27%), Positives = 79/156 (50%), Gaps = 1/156 (0%)
Query: 13 INFLTMLSAIVVIMFGVWMST-HHDSCRKSLTVPVLGLGAVIFLISMVGFLGALKNWSXX 71
INF+ ++ +I +I G+W++ DSC + L PV+ LG +I ++++ GF+GA S
Sbjct: 11 INFVAVILSIPIIGAGIWLTNGDADSCVQFLQWPVIILGVLILVVALAGFIGAFFRVSWL 70
Query: 72 XXXXXXXXXXXXXXXXXXXXXXXXXTNDGSGHSVTGLRYKEYQLQDYSSWFLKELNNSHN 131
T G G+ Y EY++ D+S + + + +S
Sbjct: 71 LIVYLVAMLVLVILLVSLVAFVYMVTLRGHGNIEPNRAYLEYRMDDFSGYLRRRVRSSFK 130
Query: 132 WERLRVCLVKSEDCHKLSKKYKNLKQYKLAKLTPME 167
W+R+R CL ++ C +L++ Y+ + + A+LTPM+
Sbjct: 131 WDRIRSCLSQTNMCAELNQSYRMAQDFFNARLTPMQ 166
>Glyma17g22600.1
Length = 44
Score = 72.8 bits (177), Expect = 3e-13, Method: Composition-based stats.
Identities = 33/42 (78%), Positives = 36/42 (85%)
Query: 18 MLSAIVVIMFGVWMSTHHDSCRKSLTVPVLGLGAVIFLISMV 59
ML AI VI+FGVWMSTHHD CRKSLTVPV+GLGAVIF S +
Sbjct: 1 MLLAIAVIIFGVWMSTHHDGCRKSLTVPVIGLGAVIFSTSTL 42
>Glyma01g02170.1
Length = 163
Score = 67.8 bits (164), Expect = 1e-11, Method: Compositional matrix adjust.
Identities = 34/88 (38%), Positives = 49/88 (55%), Gaps = 6/88 (6%)
Query: 170 CCRPPSECGYPAVDLTFHPVSP-----NKDCKRYKNSQAIKCYDCDSCKAGVAQYMKTEW 224
CC+PP++C Y V+ T+ +SP + DC ++ N Q CY+CDSCKAG+ ++ EW
Sbjct: 63 CCKPPTQCAYTFVNPTYW-ISPINTAADMDCLQWSNDQTQLCYNCDSCKAGLLANLRKEW 121
Query: 225 RXXXXXXXXXXXXXSVIYFVGCCARRNA 252
R ++Y VGCCA RN
Sbjct: 122 RRANVILIITVIVLIIVYLVGCCAFRNV 149
>Glyma07g21060.1
Length = 54
Score = 57.8 bits (138), Expect = 1e-08, Method: Composition-based stats.
Identities = 23/30 (76%), Positives = 28/30 (93%)
Query: 30 WMSTHHDSCRKSLTVPVLGLGAVIFLISMV 59
WMSTHHD C+KSLTVPV+GLG VIFL+S++
Sbjct: 1 WMSTHHDGCQKSLTVPVIGLGVVIFLMSLL 30
>Glyma08g36610.1
Length = 176
Score = 48.1 bits (113), Expect = 9e-06, Method: Compositional matrix adjust.
Identities = 21/49 (42%), Positives = 32/49 (65%), Gaps = 6/49 (12%)
Query: 168 AGCCRPPSECGYPAVDLTFHPVSP-----NKDCKRYKNSQAIKCYDCDS 211
+GCC+PP++CGY V+ T+ +SP + DC ++ N QA CY+CD
Sbjct: 121 SGCCKPPTKCGYTFVNPTYW-ISPINTAEDMDCMKWSNDQAQLCYNCDQ 168