Miyakogusa Predicted Gene
- Lj4g3v2951210.1
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= Lj4g3v2951210.1 tr|I3T8U1|I3T8U1_LOTJA Glutathione peroxidase
OS=Lotus japonicus PE=2 SV=1,100,0,GLUTATHIONE_PEROXID_2,Glutathione
peroxidase; GLUTPROXDASE,Glutathione peroxidase; SUBFAMILY NOT
NAM,CUFF.51908.1
(171 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g01710.1 311 2e-85
Glyma11g02620.1 290 4e-79
Glyma11g02630.1 265 2e-71
Glyma01g42840.1 265 2e-71
Glyma05g37900.1 258 3e-69
Glyma08g01700.1 257 4e-69
Glyma05g37900.3 249 1e-66
Glyma08g01710.2 244 4e-65
Glyma05g34490.4 243 1e-64
Glyma05g34490.3 243 1e-64
Glyma08g05200.2 239 8e-64
Glyma08g05200.1 239 8e-64
Glyma05g34490.1 235 2e-62
Glyma19g33650.2 233 8e-62
Glyma05g34490.2 233 9e-62
Glyma17g34110.1 229 1e-60
Glyma19g33650.1 225 2e-59
Glyma19g33650.3 224 3e-59
Glyma03g30800.1 223 8e-59
Glyma02g16800.1 218 2e-57
Glyma17g34110.2 218 2e-57
Glyma10g03000.1 218 3e-57
Glyma05g37900.2 173 9e-44
Glyma09g08320.1 127 5e-30
Glyma14g11680.1 113 8e-26
Glyma01g42860.1 89 2e-18
Glyma03g23370.1 63 1e-10
Glyma10g27090.1 61 7e-10
Glyma01g42850.1 57 9e-09
>Glyma08g01710.1
Length = 167
Score = 311 bits (797), Expect = 2e-85, Method: Compositional matrix adjust.
Identities = 147/164 (89%), Positives = 158/164 (96%)
Query: 8 DHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGL 67
+H KS++DF+VKDAKG DVDL+TYKGKVLLIVNVASKCGM+NSNYVELNQL EKYKDKGL
Sbjct: 4 NHSKSVFDFTVKDAKGDDVDLATYKGKVLLIVNVASKCGMTNSNYVELNQLFEKYKDKGL 63
Query: 68 EILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGI 127
EILAFPCNQFGEEEPGSNDQI EFVCTRFKSEFPIFDKIEVNG+++ PLYKFLK GKWGI
Sbjct: 64 EILAFPCNQFGEEEPGSNDQIQEFVCTRFKSEFPIFDKIEVNGDSACPLYKFLKSGKWGI 123
Query: 128 FGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLGIV 171
FGDDIQWNFAKFL+DKDGQVVDRYYPTTSPLSLERDIRKL+GIV
Sbjct: 124 FGDDIQWNFAKFLIDKDGQVVDRYYPTTSPLSLERDIRKLIGIV 167
>Glyma11g02620.1
Length = 167
Score = 290 bits (743), Expect = 4e-79, Method: Compositional matrix adjust.
Identities = 139/166 (83%), Positives = 157/166 (94%), Gaps = 1/166 (0%)
Query: 5 STKDHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKD 64
+TKD PKS+YDF VKDAKG DVDLS YKGKVLLIVNVAS+CG++NSNY ELNQL++KYKD
Sbjct: 2 TTKD-PKSVYDFVVKDAKGDDVDLSFYKGKVLLIVNVASQCGLTNSNYTELNQLYDKYKD 60
Query: 65 KGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGK 124
+GLEILAFPCNQFG++EP SND+I +FVC+RFKSEFPIFDKIEVNG+NSAPLYKFLKLGK
Sbjct: 61 QGLEILAFPCNQFGKQEPESNDKIVDFVCSRFKSEFPIFDKIEVNGDNSAPLYKFLKLGK 120
Query: 125 WGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLGI 170
WGIFGDDIQWNF+KF+VDK+GQVV RYYPTTSPLSLERDI +LLGI
Sbjct: 121 WGIFGDDIQWNFSKFVVDKNGQVVGRYYPTTSPLSLERDIHQLLGI 166
>Glyma11g02630.1
Length = 167
Score = 265 bits (676), Expect = 2e-71, Method: Compositional matrix adjust.
Identities = 119/164 (72%), Positives = 150/164 (91%)
Query: 5 STKDHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKD 64
+++ + KS++DF+VKDA+G+DV+L+ YKGKVLL+VNVAS+CG++NSNY ELNQL+EKYK
Sbjct: 2 ASQSNTKSVHDFTVKDARGNDVNLADYKGKVLLLVNVASQCGLTNSNYTELNQLYEKYKG 61
Query: 65 KGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGK 124
KGLEILAFPCNQFG +EPG+N++I EF CTRFK+EFPIFDK++VNG+N+APLYKFLK K
Sbjct: 62 KGLEILAFPCNQFGAQEPGTNEEIVEFACTRFKAEFPIFDKVDVNGDNAAPLYKFLKSSK 121
Query: 125 WGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
G+FGD I+WNF+KFLVDKDG VVDRY PTTSPLS+E+DI+KLL
Sbjct: 122 GGLFGDSIKWNFSKFLVDKDGNVVDRYAPTTSPLSIEKDIKKLL 165
>Glyma01g42840.1
Length = 167
Score = 265 bits (676), Expect = 2e-71, Method: Compositional matrix adjust.
Identities = 119/164 (72%), Positives = 150/164 (91%)
Query: 5 STKDHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKD 64
+++ + KS++DF+VKDA+G++V+L+ YKGKVLLIVNVAS+CG++NSNY ELNQL+EKYK
Sbjct: 2 ASQSNTKSVHDFTVKDARGNNVNLADYKGKVLLIVNVASQCGLTNSNYTELNQLYEKYKG 61
Query: 65 KGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGK 124
KGLEILAFPCNQFG +EPG+N++I EF CTRFK+EFPIFDK++VNG+N+APLYKFLK K
Sbjct: 62 KGLEILAFPCNQFGAQEPGTNEEIVEFACTRFKAEFPIFDKVDVNGDNAAPLYKFLKSSK 121
Query: 125 WGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
G+FGD I+WNF+KFLVDKDG VVDRY PTTSPLS+E+DI+KLL
Sbjct: 122 GGLFGDSIKWNFSKFLVDKDGNVVDRYAPTTSPLSIEKDIKKLL 165
>Glyma05g37900.1
Length = 166
Score = 258 bits (658), Expect = 3e-69, Method: Compositional matrix adjust.
Identities = 119/168 (70%), Positives = 148/168 (88%), Gaps = 4/168 (2%)
Query: 1 MSTESTKDHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHE 60
M+T S K S++DF+VKDAKG+D++L YKGKVL+IVNVAS+CG++NSNY EL+QL+E
Sbjct: 1 MATSSAK----SVHDFTVKDAKGNDINLGDYKGKVLIIVNVASQCGLTNSNYTELSQLYE 56
Query: 61 KYKDKGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFL 120
KYK KGLEILAFPCNQFG +EPGSN+QI EFVCTRFK+EFP+FDK++VNG+ +APLYK+L
Sbjct: 57 KYKQKGLEILAFPCNQFGAQEPGSNEQIQEFVCTRFKAEFPVFDKVDVNGDKAAPLYKYL 116
Query: 121 KLGKWGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
K K G+FGD I+WNF+KFLVDK+G VVDRY PTTSPLS+E+D+ KLL
Sbjct: 117 KSSKGGLFGDGIKWNFSKFLVDKEGNVVDRYAPTTSPLSIEKDLLKLL 164
>Glyma08g01700.1
Length = 225
Score = 257 bits (657), Expect = 4e-69, Method: Compositional matrix adjust.
Identities = 116/160 (72%), Positives = 144/160 (90%)
Query: 9 HPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLE 68
+ KS++DF+VKDAKG+D++L YKGKVL+IVNVAS+CG++NSNY EL+QL+EKYK KGLE
Sbjct: 64 NAKSVHDFTVKDAKGNDINLGDYKGKVLIIVNVASQCGLTNSNYTELSQLYEKYKQKGLE 123
Query: 69 ILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIF 128
ILAFPCNQFG +EPGSN+QI EFVCTRFK+EFP+FDK++VNG+ +APLYK+LK K G+
Sbjct: 124 ILAFPCNQFGAQEPGSNEQIQEFVCTRFKAEFPVFDKVDVNGDKAAPLYKYLKSSKGGLL 183
Query: 129 GDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
GD I+WNFAKFLVDK+G VVDRY PTTSPLS+E+D+ KLL
Sbjct: 184 GDGIKWNFAKFLVDKEGNVVDRYAPTTSPLSIEKDLLKLL 223
>Glyma05g37900.3
Length = 164
Score = 249 bits (636), Expect = 1e-66, Method: Compositional matrix adjust.
Identities = 117/168 (69%), Positives = 146/168 (86%), Gaps = 6/168 (3%)
Query: 1 MSTESTKDHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHE 60
M+T S K S++DF+ DAKG+D++L YKGKVL+IVNVAS+CG++NSNY EL+QL+E
Sbjct: 1 MATSSAK----SVHDFT--DAKGNDINLGDYKGKVLIIVNVASQCGLTNSNYTELSQLYE 54
Query: 61 KYKDKGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFL 120
KYK KGLEILAFPCNQFG +EPGSN+QI EFVCTRFK+EFP+FDK++VNG+ +APLYK+L
Sbjct: 55 KYKQKGLEILAFPCNQFGAQEPGSNEQIQEFVCTRFKAEFPVFDKVDVNGDKAAPLYKYL 114
Query: 121 KLGKWGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
K K G+FGD I+WNF+KFLVDK+G VVDRY PTTSPLS+E+D+ KLL
Sbjct: 115 KSSKGGLFGDGIKWNFSKFLVDKEGNVVDRYAPTTSPLSIEKDLLKLL 162
>Glyma08g01710.2
Length = 125
Score = 244 bits (623), Expect = 4e-65, Method: Compositional matrix adjust.
Identities = 115/125 (92%), Positives = 121/125 (96%)
Query: 47 MSNSNYVELNQLHEKYKDKGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKI 106
M+NSNYVELNQL EKYKDKGLEILAFPCNQFGEEEPGSNDQI EFVCTRFKSEFPIFDKI
Sbjct: 1 MTNSNYVELNQLFEKYKDKGLEILAFPCNQFGEEEPGSNDQIQEFVCTRFKSEFPIFDKI 60
Query: 107 EVNGENSAPLYKFLKLGKWGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRK 166
EVNG+++ PLYKFLK GKWGIFGDDIQWNFAKFL+DKDGQVVDRYYPTTSPLSLERDIRK
Sbjct: 61 EVNGDSACPLYKFLKSGKWGIFGDDIQWNFAKFLIDKDGQVVDRYYPTTSPLSLERDIRK 120
Query: 167 LLGIV 171
L+GIV
Sbjct: 121 LIGIV 125
>Glyma05g34490.4
Length = 199
Score = 243 bits (619), Expect = 1e-64, Method: Compositional matrix adjust.
Identities = 112/158 (70%), Positives = 137/158 (86%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+YDF+VKD G+DV L+ Y GKVLLIVNVAS+CG++ +NY ELN L+EKYK++G EIL
Sbjct: 40 KSIYDFTVKDISGNDVSLNNYSGKVLLIVNVASQCGLTQTNYKELNVLYEKYKNQGFEIL 99
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF +EPG+N++I E VCTRFK+EFPIFDK+EVNG+N+APLYKFLK K GIFGD
Sbjct: 100 AFPCNQFAGQEPGNNEEIQEVVCTRFKAEFPIFDKVEVNGKNAAPLYKFLKEQKGGIFGD 159
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
I+WNF KFLV+K+G+VVDRY PTTSPL +E+DI KLL
Sbjct: 160 GIKWNFTKFLVNKEGKVVDRYAPTTSPLKIEKDIEKLL 197
>Glyma05g34490.3
Length = 199
Score = 243 bits (619), Expect = 1e-64, Method: Compositional matrix adjust.
Identities = 112/158 (70%), Positives = 137/158 (86%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+YDF+VKD G+DV L+ Y GKVLLIVNVAS+CG++ +NY ELN L+EKYK++G EIL
Sbjct: 40 KSIYDFTVKDISGNDVSLNNYSGKVLLIVNVASQCGLTQTNYKELNVLYEKYKNQGFEIL 99
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF +EPG+N++I E VCTRFK+EFPIFDK+EVNG+N+APLYKFLK K GIFGD
Sbjct: 100 AFPCNQFAGQEPGNNEEIQEVVCTRFKAEFPIFDKVEVNGKNAAPLYKFLKEQKGGIFGD 159
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
I+WNF KFLV+K+G+VVDRY PTTSPL +E+DI KLL
Sbjct: 160 GIKWNFTKFLVNKEGKVVDRYAPTTSPLKIEKDIEKLL 197
>Glyma08g05200.2
Length = 166
Score = 239 bits (611), Expect = 8e-64, Method: Compositional matrix adjust.
Identities = 110/157 (70%), Positives = 135/157 (85%)
Query: 12 SLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEILA 71
S+YDF+VKD G+DV L+ Y GKVLLIVNVAS+CG++ +NY ELN L+EKYK++G EILA
Sbjct: 8 SIYDFTVKDISGNDVSLNDYSGKVLLIVNVASQCGLTQTNYKELNVLYEKYKNQGFEILA 67
Query: 72 FPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGDD 131
FPCNQF +EPG+N++I E VCTRFK+EFPIFDK+EVNG+N+ PLYKFLK K GIFGD
Sbjct: 68 FPCNQFAGQEPGNNEEIQEVVCTRFKAEFPIFDKVEVNGKNAVPLYKFLKEKKGGIFGDG 127
Query: 132 IQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
I+WNF KFLV+K+G+VVDRY PTTSPL +E+DI KLL
Sbjct: 128 IKWNFTKFLVNKEGKVVDRYAPTTSPLKIEKDIEKLL 164
>Glyma08g05200.1
Length = 166
Score = 239 bits (611), Expect = 8e-64, Method: Compositional matrix adjust.
Identities = 110/157 (70%), Positives = 135/157 (85%)
Query: 12 SLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEILA 71
S+YDF+VKD G+DV L+ Y GKVLLIVNVAS+CG++ +NY ELN L+EKYK++G EILA
Sbjct: 8 SIYDFTVKDISGNDVSLNDYSGKVLLIVNVASQCGLTQTNYKELNVLYEKYKNQGFEILA 67
Query: 72 FPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGDD 131
FPCNQF +EPG+N++I E VCTRFK+EFPIFDK+EVNG+N+ PLYKFLK K GIFGD
Sbjct: 68 FPCNQFAGQEPGNNEEIQEVVCTRFKAEFPIFDKVEVNGKNAVPLYKFLKEKKGGIFGDG 127
Query: 132 IQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
I+WNF KFLV+K+G+VVDRY PTTSPL +E+DI KLL
Sbjct: 128 IKWNFTKFLVNKEGKVVDRYAPTTSPLKIEKDIEKLL 164
>Glyma05g34490.1
Length = 201
Score = 235 bits (600), Expect = 2e-62, Method: Compositional matrix adjust.
Identities = 111/159 (69%), Positives = 136/159 (85%), Gaps = 1/159 (0%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+YDF+VKD G+DV L+ Y GKVLLIVNVAS+CG++ +NY ELN L+EKYK++G EIL
Sbjct: 40 KSIYDFTVKDISGNDVSLNNYSGKVLLIVNVASQCGLTQTNYKELNVLYEKYKNQGFEIL 99
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF +EPG+N++I E VCTRFK+EFPIFDK+EVNG+N+APLYKFLK K GIFGD
Sbjct: 100 AFPCNQFAGQEPGNNEEIQEVVCTRFKAEFPIFDKVEVNGKNAAPLYKFLKEQKGGIFGD 159
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLE-RDIRKLL 168
I+WNF KFLV+K+G+VVDRY PTTSPL +E RDI L+
Sbjct: 160 GIKWNFTKFLVNKEGKVVDRYAPTTSPLKIEVRDIIVLI 198
>Glyma19g33650.2
Length = 170
Score = 233 bits (594), Expect = 8e-62, Method: Compositional matrix adjust.
Identities = 105/159 (66%), Positives = 131/159 (82%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+++F VKDAKG DV+LSTYKGKVLL+VNVASKCG +NSNY +L +L+ KYKD+GLEIL
Sbjct: 10 KSIHEFMVKDAKGRDVNLSTYKGKVLLVVNVASKCGFTNSNYTQLTELYSKYKDRGLEIL 69
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF ++EPGS+ + EF CTR+K+E+PIF K+ VNG ++AP+YKFLK K G G
Sbjct: 70 AFPCNQFLKQEPGSSQEAEEFACTRYKAEYPIFGKVRVNGPDTAPVYKFLKANKTGFLGS 129
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLG 169
I+WNF KFLVDK+G V+ RY PTTSPLS+E DI+ LG
Sbjct: 130 RIKWNFTKFLVDKEGHVLARYGPTTSPLSIENDIKTALG 168
>Glyma05g34490.2
Length = 191
Score = 233 bits (593), Expect = 9e-62, Method: Compositional matrix adjust.
Identities = 107/151 (70%), Positives = 131/151 (86%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+YDF+VKD G+DV L+ Y GKVLLIVNVAS+CG++ +NY ELN L+EKYK++G EIL
Sbjct: 40 KSIYDFTVKDISGNDVSLNNYSGKVLLIVNVASQCGLTQTNYKELNVLYEKYKNQGFEIL 99
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF +EPG+N++I E VCTRFK+EFPIFDK+EVNG+N+APLYKFLK K GIFGD
Sbjct: 100 AFPCNQFAGQEPGNNEEIQEVVCTRFKAEFPIFDKVEVNGKNAAPLYKFLKEQKGGIFGD 159
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLE 161
I+WNF KFLV+K+G+VVDRY PTTSPL +E
Sbjct: 160 GIKWNFTKFLVNKEGKVVDRYAPTTSPLKIE 190
>Glyma17g34110.1
Length = 234
Score = 229 bits (583), Expect = 1e-60, Method: Compositional matrix adjust.
Identities = 102/159 (64%), Positives = 133/159 (83%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
K++YDF+VKD DV LS +KGKVLLIVNVAS+CG+++SNY EL++L+EKYK++GLEIL
Sbjct: 75 KTIYDFTVKDIDRKDVSLSKFKGKVLLIVNVASRCGLTSSNYSELSRLYEKYKNQGLEIL 134
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQFG +EPGSN+ I +F CTR+K+EFPIFDK++VNG + P+Y+FLK G GD
Sbjct: 135 AFPCNQFGMQEPGSNEDIKQFACTRYKAEFPIFDKVDVNGPFTTPVYQFLKSSAGGFLGD 194
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLG 169
I+WNF KFLVDK+G+V++RY PTTSP +E+DI+KLL
Sbjct: 195 LIKWNFEKFLVDKNGKVIERYPPTTSPFQIEKDIQKLLA 233
>Glyma19g33650.1
Length = 173
Score = 225 bits (574), Expect = 2e-59, Method: Compositional matrix adjust.
Identities = 101/151 (66%), Positives = 126/151 (83%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+++F VKDAKG DV+LSTYKGKVLL+VNVASKCG +NSNY +L +L+ KYKD+GLEIL
Sbjct: 10 KSIHEFMVKDAKGRDVNLSTYKGKVLLVVNVASKCGFTNSNYTQLTELYSKYKDRGLEIL 69
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF ++EPGS+ + EF CTR+K+E+PIF K+ VNG ++AP+YKFLK K G G
Sbjct: 70 AFPCNQFLKQEPGSSQEAEEFACTRYKAEYPIFGKVRVNGPDTAPVYKFLKANKTGFLGS 129
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLE 161
I+WNF KFLVDK+G V+ RY PTTSPLS+E
Sbjct: 130 RIKWNFTKFLVDKEGHVLARYGPTTSPLSIE 160
>Glyma19g33650.3
Length = 166
Score = 224 bits (572), Expect = 3e-59, Method: Compositional matrix adjust.
Identities = 101/159 (63%), Positives = 129/159 (81%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
++L+ + +DAKG DV+LSTYKGKVLL+VNVASKCG +NSNY +L +L+ KYKD+GLEIL
Sbjct: 6 RNLFSWLAQDAKGRDVNLSTYKGKVLLVVNVASKCGFTNSNYTQLTELYSKYKDRGLEIL 65
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF ++EPGS+ + EF CTR+K+E+PIF K+ VNG ++AP+YKFLK K G G
Sbjct: 66 AFPCNQFLKQEPGSSQEAEEFACTRYKAEYPIFGKVRVNGPDTAPVYKFLKANKTGFLGS 125
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLG 169
I+WNF KFLVDK+G V+ RY PTTSPLS+E DI+ LG
Sbjct: 126 RIKWNFTKFLVDKEGHVLARYGPTTSPLSIENDIKTALG 164
>Glyma03g30800.1
Length = 170
Score = 223 bits (568), Expect = 8e-59, Method: Compositional matrix adjust.
Identities = 100/159 (62%), Positives = 128/159 (80%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS+++F VKDAKG DV+LS YKGKVLL+VNVASKCG +N+NY +L +L+ KYKD+GLEIL
Sbjct: 10 KSIHEFMVKDAKGRDVNLSIYKGKVLLVVNVASKCGFTNTNYTQLTELYSKYKDRGLEIL 69
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF ++EPGS+ + EF CTR+K+ +PIF K+ VNG ++AP+YKFLK K G G
Sbjct: 70 AFPCNQFLKQEPGSSQDVEEFACTRYKAAYPIFGKVRVNGPDTAPVYKFLKANKSGFLGS 129
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLG 169
I+WNF KFLVDK+G V+ RY TTSP S+E DI++ LG
Sbjct: 130 RIKWNFTKFLVDKEGNVLRRYGSTTSPFSIENDIKRALG 168
>Glyma02g16800.1
Length = 170
Score = 218 bits (556), Expect = 2e-57, Method: Compositional matrix adjust.
Identities = 92/161 (57%), Positives = 130/161 (80%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
KS ++F+VKDA+G DV+L+ Y+GKVLL++NVASKCG +++NY +L QL+ YK +GLEIL
Sbjct: 10 KSFHEFTVKDARGKDVNLNAYRGKVLLVINVASKCGFADANYTQLTQLYSTYKSRGLEIL 69
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQF ++EPG++ + +F CTR+K+E+PIF KI VNG ++AP++KFLK K G+ G
Sbjct: 70 AFPCNQFLKKEPGTSQEAQDFACTRYKAEYPIFGKIRVNGSDTAPVFKFLKTQKSGVMGS 129
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLGIV 171
I+WNF KFLVD++G+V+ RY PTT PL++E DI+K L +
Sbjct: 130 RIKWNFTKFLVDEEGRVIQRYSPTTKPLAIENDIKKALRVA 170
>Glyma17g34110.2
Length = 228
Score = 218 bits (555), Expect = 2e-57, Method: Compositional matrix adjust.
Identities = 97/151 (64%), Positives = 126/151 (83%)
Query: 11 KSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEIL 70
K++YDF+VKD DV LS +KGKVLLIVNVAS+CG+++SNY EL++L+EKYK++GLEIL
Sbjct: 75 KTIYDFTVKDIDRKDVSLSKFKGKVLLIVNVASRCGLTSSNYSELSRLYEKYKNQGLEIL 134
Query: 71 AFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGD 130
AFPCNQFG +EPGSN+ I +F CTR+K+EFPIFDK++VNG + P+Y+FLK G GD
Sbjct: 135 AFPCNQFGMQEPGSNEDIKQFACTRYKAEFPIFDKVDVNGPFTTPVYQFLKSSAGGFLGD 194
Query: 131 DIQWNFAKFLVDKDGQVVDRYYPTTSPLSLE 161
I+WNF KFLVDK+G+V++RY PTTSP +E
Sbjct: 195 LIKWNFEKFLVDKNGKVIERYPPTTSPFQIE 225
>Glyma10g03000.1
Length = 170
Score = 218 bits (554), Expect = 3e-57, Method: Compositional matrix adjust.
Identities = 91/160 (56%), Positives = 130/160 (81%)
Query: 12 SLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASKCGMSNSNYVELNQLHEKYKDKGLEILA 71
S+++F+VKDA+G DV+L+ Y+GKVLL++NVASKCG +++NY +L Q++ YK +GLEILA
Sbjct: 11 SIHEFTVKDARGKDVNLNAYRGKVLLVINVASKCGFADANYSQLTQIYSTYKSRGLEILA 70
Query: 72 FPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGDD 131
FPCNQF ++EPG++ + EF CTR+K+E+PIF KI VNG ++AP++KFLK K G+ G
Sbjct: 71 FPCNQFLKKEPGTSQEAQEFACTRYKAEYPIFGKIRVNGSDTAPVFKFLKTQKSGVMGSR 130
Query: 132 IQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLLGIV 171
I+WNF KFLVD++G+V+ RY PTT PL++E DI+K L +
Sbjct: 131 IKWNFTKFLVDEEGRVIQRYSPTTKPLAIESDIKKALQVA 170
>Glyma05g37900.2
Length = 120
Score = 173 bits (438), Expect = 9e-44, Method: Compositional matrix adjust.
Identities = 77/103 (74%), Positives = 93/103 (90%)
Query: 66 GLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKW 125
GLEILAFPCNQFG +EPGSN+QI EFVCTRFK+EFP+FDK++VNG+ +APLYK+LK K
Sbjct: 16 GLEILAFPCNQFGAQEPGSNEQIQEFVCTRFKAEFPVFDKVDVNGDKAAPLYKYLKSSKG 75
Query: 126 GIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKLL 168
G+FGD I+WNF+KFLVDK+G VVDRY PTTSPLS+E+D+ KLL
Sbjct: 76 GLFGDGIKWNFSKFLVDKEGNVVDRYAPTTSPLSIEKDLLKLL 118
>Glyma09g08320.1
Length = 90
Score = 127 bits (319), Expect = 5e-30, Method: Compositional matrix adjust.
Identities = 61/90 (67%), Positives = 74/90 (82%), Gaps = 5/90 (5%)
Query: 47 MSNSNYVELNQLHEKYKDKGLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDK- 105
++NSNY ELNQL++KYKD+GLEILAFPCNQFG++EP SN +I +FVC+R KSEFPIF K
Sbjct: 1 LTNSNYTELNQLYDKYKDQGLEILAFPCNQFGKQEPESNYKIVDFVCSRLKSEFPIFHKN 60
Query: 106 ----IEVNGENSAPLYKFLKLGKWGIFGDD 131
+NG+N APLYKFLK KWGIFGD+
Sbjct: 61 CDNTCTLNGDNFAPLYKFLKSRKWGIFGDE 90
>Glyma14g11680.1
Length = 92
Score = 113 bits (283), Expect = 8e-26, Method: Compositional matrix adjust.
Identities = 50/90 (55%), Positives = 68/90 (75%)
Query: 80 EEPGSNDQISEFVCTRFKSEFPIFDKIEVNGENSAPLYKFLKLGKWGIFGDDIQWNFAKF 139
+EPGSN+ I +F CTR+KSEFP F+K++VN + P+Y+FLK G GD I+WNF KF
Sbjct: 2 QEPGSNEDIKQFACTRYKSEFPNFNKVDVNEPFTTPVYQFLKSSAGGFLGDLIKWNFEKF 61
Query: 140 LVDKDGQVVDRYYPTTSPLSLERDIRKLLG 169
LVDK+G+V++RY PT SP +E+DI+ LL
Sbjct: 62 LVDKNGKVIERYPPTMSPFQIEKDIQMLLA 91
>Glyma01g42860.1
Length = 79
Score = 89.4 bits (220), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 39/49 (79%), Positives = 43/49 (87%)
Query: 119 FLKLGKWGIFGDDIQWNFAKFLVDKDGQVVDRYYPTTSPLSLERDIRKL 167
F+ GKWGIFGDDIQWNF+KF+VDK+GQVV RYYPTTSPLSLERDI
Sbjct: 19 FISRGKWGIFGDDIQWNFSKFVVDKNGQVVGRYYPTTSPLSLERDIHSF 67
>Glyma03g23370.1
Length = 59
Score = 63.2 bits (152), Expect = 1e-10, Method: Compositional matrix adjust.
Identities = 27/46 (58%), Positives = 37/46 (80%)
Query: 67 LEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDKIEVNGEN 112
LEILAFPCNQF +EEPGS+ + EF CT +K+E+PIF K ++G++
Sbjct: 1 LEILAFPCNQFLKEEPGSSTEAEEFACTGYKAEYPIFGKGCIHGQD 46
>Glyma10g27090.1
Length = 40
Score = 60.8 bits (146), Expect = 7e-10, Method: Composition-based stats.
Identities = 26/40 (65%), Positives = 32/40 (80%)
Query: 66 GLEILAFPCNQFGEEEPGSNDQISEFVCTRFKSEFPIFDK 105
GLEILAFPCNQF +EEPGS+ + E CT +K+E+PIF K
Sbjct: 1 GLEILAFPCNQFLKEEPGSSQEAEELSCTGYKAEYPIFGK 40
>Glyma01g42850.1
Length = 40
Score = 57.0 bits (136), Expect = 9e-09, Method: Compositional matrix adjust.
Identities = 30/39 (76%), Positives = 32/39 (82%)
Query: 6 TKDHPKSLYDFSVKDAKGSDVDLSTYKGKVLLIVNVASK 44
T PKS+YDF VKDAKG VDLS YKGKVLLIVNVAS+
Sbjct: 2 TTKVPKSVYDFVVKDAKGDVVDLSFYKGKVLLIVNVASQ 40