Miyakogusa Predicted Gene
- Lj5g3v2133690.1
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= Lj5g3v2133690.1 Non Chatacterized Hit- tr|K3YSJ1|K3YSJ1_SETIT
Uncharacterized protein OS=Setaria italica
GN=Si017235,44.17,0.00000000000001,SUBFAMILY NOT NAMED,NULL; FAMILY
NOT NAMED,NULL; Putative cyclase,NULL; Cyclase,Putative
cyclase,CUFF.56762.1
(280 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma20g26310.2 422 e-118
Glyma20g26310.1 422 e-118
Glyma10g40960.2 417 e-117
Glyma10g40960.1 417 e-117
Glyma20g26300.2 378 e-105
Glyma20g26300.1 378 e-105
Glyma11g00260.1 311 7e-85
Glyma10g40970.1 268 3e-72
Glyma04g27610.1 176 2e-44
Glyma05g18830.1 172 5e-43
Glyma09g21880.1 112 4e-25
>Glyma20g26310.2
Length = 276
Score = 422 bits (1086), Expect = e-118, Method: Compositional matrix adjust.
Identities = 217/277 (78%), Positives = 244/277 (88%), Gaps = 5/277 (1%)
Query: 8 MKNLSLLVAILCAISLHSVAATSSAYPTTPGLDSGDCTL---AGGDSLLVPPRREVYDDA 64
M +LSL LCAI HSVA TS+AYP+ PG ++G+C+L GD +LVPPRREVY++
Sbjct: 1 MNSLSLF-TFLCAICAHSVAVTSAAYPSIPGTETGECSLRGVGVGDGVLVPPRREVYEEG 59
Query: 65 GIYDITHRYVPEMPVWNSKEGLG-HFVWLSQSMKNGSWANGSEMKLGVHTGTHVDAPSHF 123
I+DITHRYVPEMPVW+S EGLG HF+WL +SMKNGS AN S MKLGVHTGTHVDAP HF
Sbjct: 60 RIFDITHRYVPEMPVWDSTEGLGQHFLWLEKSMKNGSRANNSNMKLGVHTGTHVDAPGHF 119
Query: 124 YDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLFRTLNTDR 183
YDNY DAGFDVD+LDL +LNGLALL+DVPRD NITAEVMKSLNIP+G+SRVLFRTLNTDR
Sbjct: 120 YDNYYDAGFDVDSLDLTLLNGLALLVDVPRDKNITAEVMKSLNIPRGVSRVLFRTLNTDR 179
Query: 184 RLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYDHSVPSHLVFLKSREIIL 243
+LMFKKEFD+SYVGFKEDGAKWL ENTDIKLVGVDYLS A+YDHS+PSHLVFL+S+EIIL
Sbjct: 180 QLMFKKEFDTSYVGFKEDGAKWLAENTDIKLVGVDYLSVAAYDHSIPSHLVFLESKEIIL 239
Query: 244 VEGLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
VEGLKLDDVPAGIY + CLPLRLV SEASPIRCILI+
Sbjct: 240 VEGLKLDDVPAGIYSLNCLPLRLVHSEASPIRCILIK 276
>Glyma20g26310.1
Length = 276
Score = 422 bits (1086), Expect = e-118, Method: Compositional matrix adjust.
Identities = 217/277 (78%), Positives = 244/277 (88%), Gaps = 5/277 (1%)
Query: 8 MKNLSLLVAILCAISLHSVAATSSAYPTTPGLDSGDCTL---AGGDSLLVPPRREVYDDA 64
M +LSL LCAI HSVA TS+AYP+ PG ++G+C+L GD +LVPPRREVY++
Sbjct: 1 MNSLSLF-TFLCAICAHSVAVTSAAYPSIPGTETGECSLRGVGVGDGVLVPPRREVYEEG 59
Query: 65 GIYDITHRYVPEMPVWNSKEGLG-HFVWLSQSMKNGSWANGSEMKLGVHTGTHVDAPSHF 123
I+DITHRYVPEMPVW+S EGLG HF+WL +SMKNGS AN S MKLGVHTGTHVDAP HF
Sbjct: 60 RIFDITHRYVPEMPVWDSTEGLGQHFLWLEKSMKNGSRANNSNMKLGVHTGTHVDAPGHF 119
Query: 124 YDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLFRTLNTDR 183
YDNY DAGFDVD+LDL +LNGLALL+DVPRD NITAEVMKSLNIP+G+SRVLFRTLNTDR
Sbjct: 120 YDNYYDAGFDVDSLDLTLLNGLALLVDVPRDKNITAEVMKSLNIPRGVSRVLFRTLNTDR 179
Query: 184 RLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYDHSVPSHLVFLKSREIIL 243
+LMFKKEFD+SYVGFKEDGAKWL ENTDIKLVGVDYLS A+YDHS+PSHLVFL+S+EIIL
Sbjct: 180 QLMFKKEFDTSYVGFKEDGAKWLAENTDIKLVGVDYLSVAAYDHSIPSHLVFLESKEIIL 239
Query: 244 VEGLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
VEGLKLDDVPAGIY + CLPLRLV SEASPIRCILI+
Sbjct: 240 VEGLKLDDVPAGIYSLNCLPLRLVHSEASPIRCILIK 276
>Glyma10g40960.2
Length = 295
Score = 417 bits (1072), Expect = e-117, Method: Compositional matrix adjust.
Identities = 219/283 (77%), Positives = 245/283 (86%), Gaps = 7/283 (2%)
Query: 4 SLTKMKNLSLLVAILCAISLHSVAA--TSSAYPTTPGLDSGDCTL---AGGDSLLVPPRR 58
S + M + SL A L AI HSVA TSSAYP+ PG ++G+C+L GD +LVPPRR
Sbjct: 14 SQSTMNSRSLF-AFLFAICAHSVAVADTSSAYPSIPGTETGECSLRGVGVGDGVLVPPRR 72
Query: 59 EVYDDAGIYDITHRYVPEMPVWNSKEGLG-HFVWLSQSMKNGSWANGSEMKLGVHTGTHV 117
EVY++ I+DITHRYVPEMPVW+S EGLG HF+WL +SMKNGS AN S MKLGVHTGTHV
Sbjct: 73 EVYEEGRIFDITHRYVPEMPVWDSTEGLGQHFLWLDKSMKNGSLANSSNMKLGVHTGTHV 132
Query: 118 DAPSHFYDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLFR 177
DAP HFYDNY DAGFDVD+LDL +LNGLALL+DVPRD NITAEVM+SLNIP+G+SRVLFR
Sbjct: 133 DAPGHFYDNYYDAGFDVDSLDLTLLNGLALLVDVPRDKNITAEVMRSLNIPRGVSRVLFR 192
Query: 178 TLNTDRRLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYDHSVPSHLVFLK 237
TLNTDRRLMFKKEFD+SYVGFKEDGAKWL ENTDIKLVGVDYLS A+YDHS+PSHLVFL+
Sbjct: 193 TLNTDRRLMFKKEFDTSYVGFKEDGAKWLAENTDIKLVGVDYLSVAAYDHSIPSHLVFLE 252
Query: 238 SREIILVEGLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
S+EIILVEGLKLDDVPAGIY + CLPLRLV SEASPIRCILIR
Sbjct: 253 SKEIILVEGLKLDDVPAGIYSLNCLPLRLVHSEASPIRCILIR 295
>Glyma10g40960.1
Length = 295
Score = 417 bits (1072), Expect = e-117, Method: Compositional matrix adjust.
Identities = 219/283 (77%), Positives = 245/283 (86%), Gaps = 7/283 (2%)
Query: 4 SLTKMKNLSLLVAILCAISLHSVAA--TSSAYPTTPGLDSGDCTL---AGGDSLLVPPRR 58
S + M + SL A L AI HSVA TSSAYP+ PG ++G+C+L GD +LVPPRR
Sbjct: 14 SQSTMNSRSLF-AFLFAICAHSVAVADTSSAYPSIPGTETGECSLRGVGVGDGVLVPPRR 72
Query: 59 EVYDDAGIYDITHRYVPEMPVWNSKEGLG-HFVWLSQSMKNGSWANGSEMKLGVHTGTHV 117
EVY++ I+DITHRYVPEMPVW+S EGLG HF+WL +SMKNGS AN S MKLGVHTGTHV
Sbjct: 73 EVYEEGRIFDITHRYVPEMPVWDSTEGLGQHFLWLDKSMKNGSLANSSNMKLGVHTGTHV 132
Query: 118 DAPSHFYDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLFR 177
DAP HFYDNY DAGFDVD+LDL +LNGLALL+DVPRD NITAEVM+SLNIP+G+SRVLFR
Sbjct: 133 DAPGHFYDNYYDAGFDVDSLDLTLLNGLALLVDVPRDKNITAEVMRSLNIPRGVSRVLFR 192
Query: 178 TLNTDRRLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYDHSVPSHLVFLK 237
TLNTDRRLMFKKEFD+SYVGFKEDGAKWL ENTDIKLVGVDYLS A+YDHS+PSHLVFL+
Sbjct: 193 TLNTDRRLMFKKEFDTSYVGFKEDGAKWLAENTDIKLVGVDYLSVAAYDHSIPSHLVFLE 252
Query: 238 SREIILVEGLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
S+EIILVEGLKLDDVPAGIY + CLPLRLV SEASPIRCILIR
Sbjct: 253 SKEIILVEGLKLDDVPAGIYSLNCLPLRLVHSEASPIRCILIR 295
>Glyma20g26300.2
Length = 255
Score = 378 bits (970), Expect = e-105, Method: Compositional matrix adjust.
Identities = 177/234 (75%), Positives = 201/234 (85%)
Query: 47 AGGDSLLVPPRREVYDDAGIYDITHRYVPEMPVWNSKEGLGHFVWLSQSMKNGSWANGSE 106
A GD LVPPRREVY + I+DI+HRY PEMP W S +G+G F+WL +SMKNGS AN SE
Sbjct: 21 ANGDDNLVPPRREVYGNGRIFDISHRYQPEMPEWESNDGIGQFLWLPKSMKNGSLANNSE 80
Query: 107 MKLGVHTGTHVDAPSHFYDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLN 166
MK HTGTHVDAP H +D+Y AGFDVDTLDL +LNG A+L+DVPRD+NITA+VMKSLN
Sbjct: 81 MKFPTHTGTHVDAPGHVFDHYFHAGFDVDTLDLDILNGPAMLVDVPRDSNITAQVMKSLN 140
Query: 167 IPKGISRVLFRTLNTDRRLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYD 226
IP+G+ RVLFRTLNTDRRLMF+KE+DSSYVGF DGAKWLVENTDIKLVG+DYLS ASYD
Sbjct: 141 IPRGVIRVLFRTLNTDRRLMFQKEWDSSYVGFTADGAKWLVENTDIKLVGIDYLSVASYD 200
Query: 227 HSVPSHLVFLKSREIILVEGLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
+ +PSHLVFLK REIILVEGLKLDDVPAG+Y V CLPLRL G+E SPIRCILI+
Sbjct: 201 YLIPSHLVFLKDREIILVEGLKLDDVPAGLYSVHCLPLRLAGAEGSPIRCILIK 254
>Glyma20g26300.1
Length = 255
Score = 378 bits (970), Expect = e-105, Method: Compositional matrix adjust.
Identities = 177/234 (75%), Positives = 201/234 (85%)
Query: 47 AGGDSLLVPPRREVYDDAGIYDITHRYVPEMPVWNSKEGLGHFVWLSQSMKNGSWANGSE 106
A GD LVPPRREVY + I+DI+HRY PEMP W S +G+G F+WL +SMKNGS AN SE
Sbjct: 21 ANGDDNLVPPRREVYGNGRIFDISHRYQPEMPEWESNDGIGQFLWLPKSMKNGSLANNSE 80
Query: 107 MKLGVHTGTHVDAPSHFYDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLN 166
MK HTGTHVDAP H +D+Y AGFDVDTLDL +LNG A+L+DVPRD+NITA+VMKSLN
Sbjct: 81 MKFPTHTGTHVDAPGHVFDHYFHAGFDVDTLDLDILNGPAMLVDVPRDSNITAQVMKSLN 140
Query: 167 IPKGISRVLFRTLNTDRRLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYD 226
IP+G+ RVLFRTLNTDRRLMF+KE+DSSYVGF DGAKWLVENTDIKLVG+DYLS ASYD
Sbjct: 141 IPRGVIRVLFRTLNTDRRLMFQKEWDSSYVGFTADGAKWLVENTDIKLVGIDYLSVASYD 200
Query: 227 HSVPSHLVFLKSREIILVEGLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
+ +PSHLVFLK REIILVEGLKLDDVPAG+Y V CLPLRL G+E SPIRCILI+
Sbjct: 201 YLIPSHLVFLKDREIILVEGLKLDDVPAGLYSVHCLPLRLAGAEGSPIRCILIK 254
>Glyma11g00260.1
Length = 253
Score = 311 bits (796), Expect = 7e-85, Method: Compositional matrix adjust.
Identities = 158/215 (73%), Positives = 184/215 (85%)
Query: 66 IYDITHRYVPEMPVWNSKEGLGHFVWLSQSMKNGSWANGSEMKLGVHTGTHVDAPSHFYD 125
I DI+HRY P+MP W SK+ LG F+WL++SM NGS AN S+ KL H+GTHVDAP H +D
Sbjct: 39 IIDISHRYHPDMPAWESKDSLGQFLWLTRSMANGSLANFSQFKLPAHSGTHVDAPGHVFD 98
Query: 126 NYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLFRTLNTDRRL 185
+Y +GFDVD+LDL +LNG ALL+DVPRDTNI+A VMKSLNIP+G+ RVLFRTLNT RRL
Sbjct: 99 HYFHSGFDVDSLDLLLLNGPALLVDVPRDTNISAGVMKSLNIPRGVRRVLFRTLNTYRRL 158
Query: 186 MFKKEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYDHSVPSHLVFLKSREIILVE 245
M++KEFD+SYVGF EDGA WLVENTDIKLVG+DYLS A+YDH +P+HLVFLK REIILVE
Sbjct: 159 MYQKEFDTSYVGFTEDGANWLVENTDIKLVGIDYLSVAAYDHLIPAHLVFLKGREIILVE 218
Query: 246 GLKLDDVPAGIYRVQCLPLRLVGSEASPIRCILIR 280
GLKLDDV AGIY V CLPLRL G+E SPIRCILI+
Sbjct: 219 GLKLDDVAAGIYTVHCLPLRLAGAEGSPIRCILIK 253
>Glyma10g40970.1
Length = 232
Score = 268 bits (686), Expect = 3e-72, Method: Compositional matrix adjust.
Identities = 125/168 (74%), Positives = 144/168 (85%)
Query: 49 GDSLLVPPRREVYDDAGIYDITHRYVPEMPVWNSKEGLGHFVWLSQSMKNGSWANGSEMK 108
G+ LVPPRREVY + I+DI+HRY PEMP W S G+G F+WL +SMKNGS AN SEMK
Sbjct: 23 GNDNLVPPRREVYGNGRIFDISHRYQPEMPEWESNNGIGQFLWLPKSMKNGSLANNSEMK 82
Query: 109 LGVHTGTHVDAPSHFYDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIP 168
L HTGTHVDAP H +D+Y DAGFDVDTLDL +LNG ALL+DVPRD+NITA+VMKSLNIP
Sbjct: 83 LPTHTGTHVDAPGHVFDHYFDAGFDVDTLDLDILNGPALLVDVPRDSNITAQVMKSLNIP 142
Query: 169 KGISRVLFRTLNTDRRLMFKKEFDSSYVGFKEDGAKWLVENTDIKLVG 216
+G+ RVLFRTLNTDRRLMF+KE+D+SYVGF DGAKWLV+NTDIKLVG
Sbjct: 143 RGVVRVLFRTLNTDRRLMFQKEWDTSYVGFTVDGAKWLVDNTDIKLVG 190
>Glyma04g27610.1
Length = 145
Score = 176 bits (447), Expect = 2e-44, Method: Compositional matrix adjust.
Identities = 93/115 (80%), Positives = 102/115 (88%), Gaps = 1/115 (0%)
Query: 69 ITHRYVPEMPVWNSKEGL-GHFVWLSQSMKNGSWANGSEMKLGVHTGTHVDAPSHFYDNY 127
ITHRYVPEMPV +S EGL HF+WL +SMKNGS AN S MKLGVHTGTHVDAP HFYDNY
Sbjct: 30 ITHRYVPEMPVGDSTEGLRHHFLWLEKSMKNGSRANNSNMKLGVHTGTHVDAPDHFYDNY 89
Query: 128 LDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLFRTLNTD 182
DA FDVD+LDL +LNGLALL+DVP+D NITAEVMKSLNIP+G+SRVLFRTLNTD
Sbjct: 90 YDASFDVDSLDLTLLNGLALLVDVPQDKNITAEVMKSLNIPRGVSRVLFRTLNTD 144
>Glyma05g18830.1
Length = 216
Score = 172 bits (435), Expect = 5e-43, Method: Compositional matrix adjust.
Identities = 91/131 (69%), Positives = 106/131 (80%), Gaps = 1/131 (0%)
Query: 58 REVYDDAGIYDITHRYVPEMPVWNSKEGLGH-FVWLSQSMKNGSWANGSEMKLGVHTGTH 116
EVY++ I+DITHRYVPEM VW+S EGLGH F+WL +SMKNGS AN S MK+GVHT TH
Sbjct: 49 EEVYEERRIFDITHRYVPEMLVWDSTEGLGHHFLWLEKSMKNGSRANNSNMKVGVHTDTH 108
Query: 117 VDAPSHFYDNYLDAGFDVDTLDLRVLNGLALLIDVPRDTNITAEVMKSLNIPKGISRVLF 176
VDA H Y+NY D F VD+LDL +LNGL LL+DVPRD NIT EV KSLNIP+G+S VLF
Sbjct: 109 VDALGHIYNNYYDVDFVVDSLDLTLLNGLTLLVDVPRDKNITTEVTKSLNIPRGVSHVLF 168
Query: 177 RTLNTDRRLMF 187
RTLNTDR++ F
Sbjct: 169 RTLNTDRKIFF 179
>Glyma09g21880.1
Length = 117
Score = 112 bits (280), Expect = 4e-25, Method: Compositional matrix adjust.
Identities = 54/66 (81%), Positives = 60/66 (90%)
Query: 189 KEFDSSYVGFKEDGAKWLVENTDIKLVGVDYLSAASYDHSVPSHLVFLKSREIILVEGLK 248
KE+D+SYVGF DGAKWLV+NTDIKLVG+DYLS ASYD+ +PSHLVFLK REIILVEGL
Sbjct: 30 KEWDTSYVGFIVDGAKWLVDNTDIKLVGIDYLSVASYDYLIPSHLVFLKDREIILVEGLM 89
Query: 249 LDDVPA 254
LDDVPA
Sbjct: 90 LDDVPA 95