Miyakogusa Predicted Gene
- Lj4g3v0109380.1
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= Lj4g3v0109380.1 Non Chatacterized Hit- tr|I3SKF0|I3SKF0_LOTJA
Uncharacterized protein OS=Lotus japonicus PE=2
SV=1,99.12,0,NUDIX,NUDIX hydrolase domain; Nudix,NUDIX hydrolase
domain-like; GFGPROTEIN,Nudix hydrolase 6-like; ,CUFF.46423.1
(228 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma09g01660.1 373 e-103
Glyma15g12580.1 372 e-103
Glyma15g12580.2 359 1e-99
Glyma14g00730.1 278 3e-75
Glyma08g44230.1 265 3e-71
Glyma20g06680.1 261 6e-70
Glyma02g47000.1 257 7e-69
Glyma17g15420.1 238 3e-63
Glyma17g15420.2 238 4e-63
Glyma05g05030.1 238 5e-63
Glyma18g08510.1 228 5e-60
Glyma11g03890.1 217 8e-57
Glyma20g06680.2 208 4e-54
Glyma17g15420.3 201 5e-52
Glyma01g41540.1 196 1e-50
Glyma07g39810.1 189 3e-48
Glyma17g15420.4 181 5e-46
Glyma14g01740.1 164 6e-41
>Glyma09g01660.1
Length = 338
Score = 373 bits (957), Expect = e-103, Method: Compositional matrix adjust.
Identities = 173/227 (76%), Positives = 200/227 (88%), Gaps = 2/227 (0%)
Query: 1 MTTPIPVTSMSDTTDSSLAAVQMTAEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTF 60
+ + +P+ SMS +T SS + AE+QVQ++ LL STDD++ GVIVE+D+ PMDSTTF
Sbjct: 42 VASTVPIRSMSTSTISSAITSETAAEDQVQRVNLLRSTDDNYDGVIVELDQ--PMDSTTF 99
Query: 61 LSILRASISHWKQLGKKGVWIKLPIHLASLVEALVKEGFWYHHAEPKYLMLVYWIPGGAN 120
+SILRAS+SHWK+LGKKGVWIKLPIHL +LVEALVKEGFWYHHAEPKYLMLVYWIP +
Sbjct: 100 ISILRASVSHWKKLGKKGVWIKLPIHLVNLVEALVKEGFWYHHAEPKYLMLVYWIPESPS 159
Query: 121 TIPANATHRVGVGALVVNEKQEVLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREV 180
TIPANATHRVG+G+ V+NEKQEVLVVQE SG FQGTG WKFPTGVVDQGEDICVAAVREV
Sbjct: 160 TIPANATHRVGIGSFVMNEKQEVLVVQENSGLFQGTGVWKFPTGVVDQGEDICVAAVREV 219
Query: 181 KEETGVDSEFVEVLAFRQSHMSFFEKSDLFFVCLLRPLTSDVQIQEI 227
KEETGVDSEFVEVL+FRQSH SFFEKSDLFFVC+LRPL+SD++ Q +
Sbjct: 220 KEETGVDSEFVEVLSFRQSHNSFFEKSDLFFVCMLRPLSSDIKTQRL 266
>Glyma15g12580.1
Length = 338
Score = 372 bits (954), Expect = e-103, Method: Compositional matrix adjust.
Identities = 176/227 (77%), Positives = 199/227 (87%), Gaps = 2/227 (0%)
Query: 1 MTTPIPVTSMSDTTDSSLAAVQMTAEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTF 60
+ + IP+ S +T SS A +M AE+QVQ++ LLTSTDD++GGVIVE+D+ MDS TF
Sbjct: 42 VVSTIPIRSKLTSTISSAIASEMAAEDQVQRVNLLTSTDDNYGGVIVELDQH--MDSATF 99
Query: 61 LSILRASISHWKQLGKKGVWIKLPIHLASLVEALVKEGFWYHHAEPKYLMLVYWIPGGAN 120
+SILRAS+SHWK LGKKGVWIKLPIHL +LVEALVKEGFWYHHAEPKYLMLVYWIP +
Sbjct: 100 VSILRASVSHWKLLGKKGVWIKLPIHLVNLVEALVKEGFWYHHAEPKYLMLVYWIPESPS 159
Query: 121 TIPANATHRVGVGALVVNEKQEVLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREV 180
TIPANATHRVGVG+ V+NEKQEVLVVQE SG FQGTG WKFPTGVVDQGEDICVAAVREV
Sbjct: 160 TIPANATHRVGVGSFVMNEKQEVLVVQENSGLFQGTGVWKFPTGVVDQGEDICVAAVREV 219
Query: 181 KEETGVDSEFVEVLAFRQSHMSFFEKSDLFFVCLLRPLTSDVQIQEI 227
KEETGVDSEFVEVLAFRQSH SFFEKSDLFF+C+LRPL+SD+Q Q +
Sbjct: 220 KEETGVDSEFVEVLAFRQSHNSFFEKSDLFFMCMLRPLSSDIQAQRL 266
>Glyma15g12580.2
Length = 275
Score = 359 bits (922), Expect = 1e-99, Method: Compositional matrix adjust.
Identities = 169/205 (82%), Positives = 187/205 (91%), Gaps = 2/205 (0%)
Query: 23 MTAEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIK 82
M AE+QVQ++ LLTSTDD++GGVIVE+D+ MDS TF+SILRAS+SHWK LGKKGVWIK
Sbjct: 1 MAAEDQVQRVNLLTSTDDNYGGVIVELDQH--MDSATFVSILRASVSHWKLLGKKGVWIK 58
Query: 83 LPIHLASLVEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQE 142
LPIHL +LVEALVKEGFWYHHAEPKYLMLVYWIP +TIPANATHRVGVG+ V+NEKQE
Sbjct: 59 LPIHLVNLVEALVKEGFWYHHAEPKYLMLVYWIPESPSTIPANATHRVGVGSFVMNEKQE 118
Query: 143 VLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMS 202
VLVVQE SG FQGTG WKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSH S
Sbjct: 119 VLVVQENSGLFQGTGVWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHNS 178
Query: 203 FFEKSDLFFVCLLRPLTSDVQIQEI 227
FFEKSDLFF+C+LRPL+SD+Q Q +
Sbjct: 179 FFEKSDLFFMCMLRPLSSDIQAQRL 203
>Glyma14g00730.1
Length = 275
Score = 278 bits (711), Expect = 3e-75, Method: Compositional matrix adjust.
Identities = 130/196 (66%), Positives = 159/196 (81%), Gaps = 2/196 (1%)
Query: 30 QQIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLAS 89
++IELL+ +D HGGV+V D ++PMDST F SIL+ASI W Q GKKGVWIKLPI ++
Sbjct: 4 ERIELLSGVEDHHGGVVV--DVQDPMDSTLFSSILQASIYKWSQQGKKGVWIKLPIQHSN 61
Query: 90 LVEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEK 149
LV+ VK GF YHHAEP YLMLV WIP +T+PANA+HRVGVGA V+N +EVLVVQE
Sbjct: 62 LVDPAVKAGFRYHHAEPDYLMLVRWIPDTPDTLPANASHRVGVGAFVINNNKEVLVVQET 121
Query: 150 SGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMSFFEKSDL 209
G F+GTG WK PTG V++GED+C AA+REVKEETG++++FVEVLAFRQSH SFFEKSDL
Sbjct: 122 GGKFRGTGVWKMPTGAVNEGEDLCEAAIREVKEETGIETKFVEVLAFRQSHKSFFEKSDL 181
Query: 210 FFVCLLRPLTSDVQIQ 225
FFVC+L+P + D+Q Q
Sbjct: 182 FFVCMLQPQSFDIQNQ 197
>Glyma08g44230.1
Length = 286
Score = 265 bits (676), Expect = 3e-71, Method: Compositional matrix adjust.
Identities = 124/203 (61%), Positives = 156/203 (76%), Gaps = 2/203 (0%)
Query: 25 AEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLP 84
E + +++L +T+D HGGVIV++ +EP+ S F ++LR+S+ HWKQ GK GVWIK P
Sbjct: 16 CENGFECVKILPATNDAHGGVIVDL--KEPLHSEVFATLLRSSLLHWKQQGKDGVWIKFP 73
Query: 85 IHLASLVEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVL 144
I L +LVE VKEGFWYHHAEP YLMLVYWIP TIP NA+H V VGA+V+N+ +EVL
Sbjct: 74 IELVNLVETAVKEGFWYHHAEPNYLMLVYWIPKTDCTIPPNASHCVAVGAIVLNDNKEVL 133
Query: 145 VVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMSFF 204
VV EK G F G G WK PTGVVD GE+I AA+REVKEETG+D+EFVE+LAFR +H SFF
Sbjct: 134 VVLEKKGGFHGIGVWKIPTGVVDAGEEIFEAAIREVKEETGIDTEFVELLAFRHTHNSFF 193
Query: 205 EKSDLFFVCLLRPLTSDVQIQEI 227
KS L F+C+LRPL+ D++ QE+
Sbjct: 194 GKSGLSFICMLRPLSFDIKKQEL 216
>Glyma20g06680.1
Length = 338
Score = 261 bits (666), Expect = 6e-70, Method: Compositional matrix adjust.
Identities = 125/224 (55%), Positives = 163/224 (72%), Gaps = 6/224 (2%)
Query: 2 TTPIPVTSMSDTTDSSLAAVQMTAEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTFL 61
++ P + MS T LA++ E + I L + +D HGGVIV ++ PMDS+ F
Sbjct: 51 SSGFPRSYMSAT----LASLAKEEEVPSKGINTLRAIEDQHGGVIVNIEN--PMDSSVFS 104
Query: 62 SILRASISHWKQLGKKGVWIKLPIHLASLVEALVKEGFWYHHAEPKYLMLVYWIPGGANT 121
S+L ASIS W++ GKKGVWIKLP ++LV++ VK GF +HHAEP YLMLV WIP +T
Sbjct: 105 SLLEASISQWREQGKKGVWIKLPREHSNLVDSAVKAGFRFHHAEPDYLMLVNWIPNTPDT 164
Query: 122 IPANATHRVGVGALVVNEKQEVLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREVK 181
+PANA+HRV VGA V+N +EVLVVQE +G F G G WK PTG VD+GEDIC AAVREVK
Sbjct: 165 LPANASHRVAVGAFVMNANREVLVVQESNGRFSGQGIWKLPTGGVDEGEDICTAAVREVK 224
Query: 182 EETGVDSEFVEVLAFRQSHMSFFEKSDLFFVCLLRPLTSDVQIQ 225
EETG+D++FVEV+AF++ H SFF KS+LFF+C+L+P + +Q Q
Sbjct: 225 EETGIDTKFVEVIAFKERHKSFFRKSELFFICMLQPHSFKIQRQ 268
>Glyma02g47000.1
Length = 279
Score = 257 bits (657), Expect = 7e-69, Method: Compositional matrix adjust.
Identities = 121/206 (58%), Positives = 157/206 (76%), Gaps = 3/206 (1%)
Query: 23 MTAEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIK 82
M+ E+L +TDD HGGVI+++ +EPMDS F+++LR S+S WK+ K GVWIK
Sbjct: 1 MSISASSGDFEILPATDDAHGGVIIDL--KEPMDSEIFVTLLRTSLSQWKKQEKCGVWIK 58
Query: 83 LPIHLASLVEALVKEGFWYHHAEPKYLMLVYWI-PGGANTIPANATHRVGVGALVVNEKQ 141
LP L +LVE VKEGF YHHAEP YLMLVYWI P + TIP NA+HRV VG LV+N+ +
Sbjct: 59 LPTALVNLVETAVKEGFGYHHAEPNYLMLVYWIIPETSCTIPPNASHRVRVGGLVLNDNK 118
Query: 142 EVLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHM 201
EVLVVQEK G F TG WK PTG+V+ GE++ A VRE KEETG+D+EFVE+LAFR +H
Sbjct: 119 EVLVVQEKRGIFHETGLWKIPTGIVEAGEELSAAVVREAKEETGIDTEFVELLAFRHAHN 178
Query: 202 SFFEKSDLFFVCLLRPLTSDVQIQEI 227
SFF KS+L+F+C+LRPL++D++ Q++
Sbjct: 179 SFFGKSELYFLCMLRPLSTDIKKQDL 204
>Glyma17g15420.1
Length = 367
Score = 238 bits (608), Expect = 3e-63, Method: Compositional matrix adjust.
Identities = 109/197 (55%), Positives = 146/197 (74%), Gaps = 1/197 (0%)
Query: 31 QIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASL 90
++LL + DD++GGV+V D R P + TF S+LR S+S WK++GKKG+W+KLP+ + L
Sbjct: 98 NLKLLDAFDDEYGGVVVHPD-RLPSNPYTFASVLRLSLSQWKKMGKKGIWLKLPLDQSDL 156
Query: 91 VEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEKS 150
V VKEGF YHHAEP Y+ML YWIP G + +PANA+H+VGVG V+N+ EVLVVQE+
Sbjct: 157 VPIAVKEGFQYHHAEPGYVMLTYWIPEGPSMLPANASHQVGVGGFVINDNNEVLVVQERH 216
Query: 151 GHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMSFFEKSDLF 210
G WK PTG + + E+I AVREVKEETG+D+EFVEV+AFR +H FEKSDLF
Sbjct: 217 CSPTTLGLWKIPTGFILEAEEIYTGAVREVKEETGIDTEFVEVIAFRHAHNVAFEKSDLF 276
Query: 211 FVCLLRPLTSDVQIQEI 227
F+C+LRPL+S + + ++
Sbjct: 277 FICMLRPLSSKIIVDDL 293
>Glyma17g15420.2
Length = 351
Score = 238 bits (607), Expect = 4e-63, Method: Compositional matrix adjust.
Identities = 109/197 (55%), Positives = 146/197 (74%), Gaps = 1/197 (0%)
Query: 31 QIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASL 90
++LL + DD++GGV+V D R P + TF S+LR S+S WK++GKKG+W+KLP+ + L
Sbjct: 82 NLKLLDAFDDEYGGVVVHPD-RLPSNPYTFASVLRLSLSQWKKMGKKGIWLKLPLDQSDL 140
Query: 91 VEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEKS 150
V VKEGF YHHAEP Y+ML YWIP G + +PANA+H+VGVG V+N+ EVLVVQE+
Sbjct: 141 VPIAVKEGFQYHHAEPGYVMLTYWIPEGPSMLPANASHQVGVGGFVINDNNEVLVVQERH 200
Query: 151 GHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMSFFEKSDLF 210
G WK PTG + + E+I AVREVKEETG+D+EFVEV+AFR +H FEKSDLF
Sbjct: 201 CSPTTLGLWKIPTGFILEAEEIYTGAVREVKEETGIDTEFVEVIAFRHAHNVAFEKSDLF 260
Query: 211 FVCLLRPLTSDVQIQEI 227
F+C+LRPL+S + + ++
Sbjct: 261 FICMLRPLSSKIIVDDL 277
>Glyma05g05030.1
Length = 273
Score = 238 bits (606), Expect = 5e-63, Method: Compositional matrix adjust.
Identities = 108/197 (54%), Positives = 146/197 (74%), Gaps = 1/197 (0%)
Query: 31 QIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASL 90
++LL + DD++GGV+V D R P + TF S+LR S+S WK++GKKG+W+KLP+ + L
Sbjct: 5 NLKLLDAFDDEYGGVVVHPD-RLPSNPYTFASVLRLSLSQWKKMGKKGIWLKLPLEQSDL 63
Query: 91 VEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEKS 150
V VKEGF YHHAEP Y+ML YWIP G + +PANA+H+VGVG V+N+ EVLVVQE+
Sbjct: 64 VPIAVKEGFQYHHAEPGYVMLTYWIPAGPSMLPANASHQVGVGGFVINDNNEVLVVQERH 123
Query: 151 GHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMSFFEKSDLF 210
G WK PTG + + E+I AVREVKEETG+D++F+EV+AFR +H FEKSDLF
Sbjct: 124 CSPATLGLWKIPTGFILEAEEIYTGAVREVKEETGIDTDFIEVIAFRHAHNVAFEKSDLF 183
Query: 211 FVCLLRPLTSDVQIQEI 227
F+C+LRPL+S V + ++
Sbjct: 184 FICMLRPLSSKVIVDDL 200
>Glyma18g08510.1
Length = 305
Score = 228 bits (581), Expect = 5e-60, Method: Compositional matrix adjust.
Identities = 120/232 (51%), Positives = 151/232 (65%), Gaps = 43/232 (18%)
Query: 32 IELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASLV 91
+++L +T+D HGGVIV++ +EPMDS F ++LR+S+ HWKQ GK GVWIKLPI L +L
Sbjct: 11 VKILPATNDVHGGVIVDL--KEPMDSEDFATLLRSSLLHWKQQGKDGVWIKLPIELVNLA 68
Query: 92 EALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEKSG 151
E VKEGFWYHHAEP YLMLVYWIP TIP NA+HRV VGA+V+N+K+E EK G
Sbjct: 69 ETAVKEGFWYHHAEPNYLMLVYWIPKTGCTIPPNASHRVAVGAIVLNDKKE-----EKRG 123
Query: 152 HFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVD--SEF-VEV--------------- 193
F G G WK PTG+VD GE+I AA+REVKEETGV SE+ VE+
Sbjct: 124 GFHGIGVWKIPTGLVDAGEEIFEAAIREVKEETGVSIVSEYNVELPNAYCRINKKFPTLD 183
Query: 194 ------------------LAFRQSHMSFFEKSDLFFVCLLRPLTSDVQIQEI 227
L FR +H SFF KSD+ F+C+L PL+ D++ QE+
Sbjct: 184 LSFFFFLYHIIAFDILLFLIFRHTHNSFFGKSDISFICMLCPLSFDIKKQEL 235
>Glyma11g03890.1
Length = 314
Score = 217 bits (552), Expect = 8e-57, Method: Compositional matrix adjust.
Identities = 100/197 (50%), Positives = 140/197 (71%), Gaps = 4/197 (2%)
Query: 30 QQIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLAS 89
+ + +L + DD + GV+++ D R P + +TF + LR S+SHWK++GKKG+W++LP +
Sbjct: 52 RNLRVLDAFDDVYEGVVIDSD-RLPDNPSTFAANLRFSLSHWKKMGKKGIWLRLPSEQSD 110
Query: 90 LVEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEK 149
V +KEGF YHHAEP Y+ML YWIP G +PANA+H+VGVG V+N+ EVLVVQEK
Sbjct: 111 FVPIAIKEGFRYHHAEPGYVMLTYWIPEGPCMLPANASHQVGVGGFVINDSSEVLVVQEK 170
Query: 150 SGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFRQSHMSFFEKSDL 209
G WK PTG E++ A+REVKEETG+D+EFVEV+AFR + FEKSDL
Sbjct: 171 QCAPANRGQWKIPTGF---SEELYAGAIREVKEETGIDTEFVEVIAFRHARNVAFEKSDL 227
Query: 210 FFVCLLRPLTSDVQIQE 226
FF+C+LRPL++++ + +
Sbjct: 228 FFICMLRPLSAEIIVDD 244
>Glyma20g06680.2
Length = 250
Score = 208 bits (529), Expect = 4e-54, Method: Compositional matrix adjust.
Identities = 104/184 (56%), Positives = 130/184 (70%), Gaps = 6/184 (3%)
Query: 2 TTPIPVTSMSDTTDSSLAAVQMTAEEQVQQIELLTSTDDDHGGVIVEMDEREPMDSTTFL 61
++ P + MS T LA++ E + I L + +D HGGVIV ++ PMDS+ F
Sbjct: 50 SSGFPRSYMSAT----LASLAKEEEVPSKGINTLRAIEDQHGGVIVNIEN--PMDSSVFS 103
Query: 62 SILRASISHWKQLGKKGVWIKLPIHLASLVEALVKEGFWYHHAEPKYLMLVYWIPGGANT 121
S+L ASIS W++ GKKGVWIKLP ++LV++ VK GF +HHAEP YLMLV WIP +T
Sbjct: 104 SLLEASISQWREQGKKGVWIKLPREHSNLVDSAVKAGFRFHHAEPDYLMLVNWIPNTPDT 163
Query: 122 IPANATHRVGVGALVVNEKQEVLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREVK 181
+PANA+HRV VGA V+N +EVLVVQE +G F G G WK PTG VD+GEDIC AAVREVK
Sbjct: 164 LPANASHRVAVGAFVMNANREVLVVQESNGRFSGQGIWKLPTGGVDEGEDICTAAVREVK 223
Query: 182 EETG 185
EETG
Sbjct: 224 EETG 227
>Glyma17g15420.3
Length = 247
Score = 201 bits (511), Expect = 5e-52, Method: Compositional matrix adjust.
Identities = 94/167 (56%), Positives = 123/167 (73%), Gaps = 1/167 (0%)
Query: 31 QIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASL 90
++LL + DD++GGV+V D R P + TF S+LR S+S WK++GKKG+W+KLP+ + L
Sbjct: 82 NLKLLDAFDDEYGGVVVHPD-RLPSNPYTFASVLRLSLSQWKKMGKKGIWLKLPLDQSDL 140
Query: 91 VEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEKS 150
V VKEGF YHHAEP Y+ML YWIP G + +PANA+H+VGVG V+N+ EVLVVQE+
Sbjct: 141 VPIAVKEGFQYHHAEPGYVMLTYWIPEGPSMLPANASHQVGVGGFVINDNNEVLVVQERH 200
Query: 151 GHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFR 197
G WK PTG + + E+I AVREVKEETG+D+EFVEV+AFR
Sbjct: 201 CSPTTLGLWKIPTGFILEAEEIYTGAVREVKEETGIDTEFVEVIAFR 247
>Glyma01g41540.1
Length = 462
Score = 196 bits (499), Expect = 1e-50, Method: Compositional matrix adjust.
Identities = 98/206 (47%), Positives = 136/206 (66%), Gaps = 8/206 (3%)
Query: 30 QQIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLAS 89
+ + +L ++DD + GV+++ D R P + +TF + LR S+ HWK++GKKG+W++LP +
Sbjct: 29 RNLRVLDASDDVYEGVVIDSD-RLPDNPSTFAANLRFSLHHWKKVGKKGIWLRLPSEQSD 87
Query: 90 LVEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEK 149
V +KEGF YHHAEP Y+ML YWIP G +PANA+H+VGVG V++ EVLVVQEK
Sbjct: 88 FVPIAIKEGFRYHHAEPGYVMLTYWIPEGPFMLPANASHQVGVGGFVISGSNEVLVVQEK 147
Query: 150 SGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEVLAFR------QSHMSF 203
G WK PT V Q E++ A+REVKEETG+D+EFVEV+AF ++
Sbjct: 148 QCAPANCGLWKIPTRFVLQSEELYAGAIREVKEETGIDTEFVEVIAFSVVKWPVCTYNVA 207
Query: 204 FEKSDLFFVCL-LRPLTSDVQIQEIN 228
FEKSDLFF+C ++ TS I + N
Sbjct: 208 FEKSDLFFICTEIKTSTSSTDIVQTN 233
>Glyma07g39810.1
Length = 107
Score = 189 bits (479), Expect = 3e-48, Method: Compositional matrix adjust.
Identities = 94/109 (86%), Positives = 97/109 (88%), Gaps = 3/109 (2%)
Query: 32 IELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASLV 91
IELLTST D+HGGVIVEMD+ PMDS TF+SILRASISHWKQLG GVWIK PIHL SLV
Sbjct: 2 IELLTSTTDEHGGVIVEMDK--PMDSATFVSILRASISHWKQLGNMGVWIKSPIHLVSLV 59
Query: 92 EALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEK 140
EALVKEGFWYHHAEPKYLMLVYWIP ANTI ANATHRVGVGA VVNEK
Sbjct: 60 EALVKEGFWYHHAEPKYLMLVYWIPDSANTI-ANATHRVGVGAFVVNEK 107
>Glyma17g15420.4
Length = 246
Score = 181 bits (459), Expect = 5e-46, Method: Compositional matrix adjust.
Identities = 85/156 (54%), Positives = 112/156 (71%), Gaps = 1/156 (0%)
Query: 31 QIELLTSTDDDHGGVIVEMDEREPMDSTTFLSILRASISHWKQLGKKGVWIKLPIHLASL 90
++LL + DD++GGV+V D R P + TF S+LR S+S WK++GKKG+W+KLP+ + L
Sbjct: 82 NLKLLDAFDDEYGGVVVHPD-RLPSNPYTFASVLRLSLSQWKKMGKKGIWLKLPLDQSDL 140
Query: 91 VEALVKEGFWYHHAEPKYLMLVYWIPGGANTIPANATHRVGVGALVVNEKQEVLVVQEKS 150
V VKEGF YHHAEP Y+ML YWIP G + +PANA+H+VGVG V+N+ EVLVVQE+
Sbjct: 141 VPIAVKEGFQYHHAEPGYVMLTYWIPEGPSMLPANASHQVGVGGFVINDNNEVLVVQERH 200
Query: 151 GHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGV 186
G WK PTG + + E+I AVREVKEETG+
Sbjct: 201 CSPTTLGLWKIPTGFILEAEEIYTGAVREVKEETGL 236
>Glyma14g01740.1
Length = 256
Score = 164 bits (415), Expect = 6e-41, Method: Compositional matrix adjust.
Identities = 85/156 (54%), Positives = 107/156 (68%), Gaps = 8/156 (5%)
Query: 75 GKKGVWIKLPIHLASLVEALVKEGFWYHHAEPKYLMLVYW-IPGGANTIPANATHRVGVG 133
K GVWIKLP L + VE VKEGF YHHAEP YLMLVYW IP + T P NA+HRV VG
Sbjct: 5 AKCGVWIKLPTALVNFVETAVKEGFRYHHAEPNYLMLVYWIIPETSCTNPPNASHRVRVG 64
Query: 134 ALVVNEKQEVLVVQEKSGHFQGTGAWKFPTGVVDQGEDICVAAVREVKEETGVDSEFVEV 193
LV+N+K+E EK G F G WK PTG+V+ GE++ AAVREVKEETGV+ +
Sbjct: 65 GLVLNDKKE-----EKRGIFHEIGLWKIPTGIVEAGEELLAAAVREVKEETGVNDAVLHF 119
Query: 194 LAFR-QSHMSFFEKSDLFFVCLLRPL-TSDVQIQEI 227
+ + + S F KS+LFF+C+LRPL T D++ Q++
Sbjct: 120 IFVKMHADNSLFRKSELFFLCMLRPLSTDDIKKQDL 155