Miyakogusa Predicted Gene
- Lj4g3v1388350.1
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= Lj4g3v1388350.1 Non Chatacterized Hit- tr|I1MUP0|I1MUP0_SOYBN
Uncharacterized protein OS=Glycine max PE=4 SV=1,85.66,0,URIDINE
CYTIDINE KINASE,Uridine kinase-like protein; URIDINE KINASE,NULL;
PRK,Phosphoribulokinase/ur,CUFF.49110.1
(295 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma17g13830.1 424 e-119
Glyma16g06250.2 410 e-115
Glyma16g06250.1 410 e-115
Glyma19g25360.2 403 e-113
Glyma19g25360.1 403 e-112
Glyma08g45270.1 357 6e-99
Glyma18g08180.1 352 2e-97
Glyma02g47270.1 320 9e-88
Glyma19g07090.1 308 4e-84
Glyma14g01480.1 298 4e-81
Glyma0042s00200.1 147 2e-35
Glyma07g24960.1 146 2e-35
Glyma05g24240.1 141 9e-34
Glyma17g32630.1 132 5e-31
Glyma13g04470.1 112 4e-25
Glyma01g09660.1 74 2e-13
Glyma02g14110.1 74 2e-13
Glyma17g09080.1 70 3e-12
Glyma12g17670.1 70 4e-12
Glyma05g07610.1 62 9e-10
Glyma20g02060.1 52 9e-07
>Glyma17g13830.1
Length = 451
Score = 424 bits (1091), Expect = e-119, Method: Compositional matrix adjust.
Identities = 219/298 (73%), Positives = 235/298 (78%), Gaps = 12/298 (4%)
Query: 1 MDDEMEALSGAHFSGWXXXXXXXXXXXXXXXXXXXXFVIGVSGGTASGKTTVCDMIIQQL 60
MD +E LSGAHFSGW FVIGVSGGTASGKTTVCD+IIQQL
Sbjct: 1 MDMVIEVLSGAHFSGWHPSTTSSCSSPTSSHHP---FVIGVSGGTASGKTTVCDLIIQQL 57
Query: 61 QDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKSGQSVQVPIYD 120
QDHRVVLVSQDSFYRGLTN+ELKR HEYNFDHP+AFDTEQLVETLS+LKSGQSVQVP YD
Sbjct: 58 QDHRVVLVSQDSFYRGLTNDELKRVHEYNFDHPNAFDTEQLVETLSKLKSGQSVQVPFYD 117
Query: 121 FKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXXXXXXXXXXXXXX 180
FKLHQRSS+ RQVNASEVIILEGILVFHEQRVRNMM+MKIFVDA
Sbjct: 118 FKLHQRSSERSRQVNASEVIILEGILVFHEQRVRNMMNMKIFVDADPDVRLARRIRRDTV 177
Query: 181 XXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIVQHIRTKLGQH 240
+ YAKFVKPAFDDFILPSKKYAD+IIPRGGDN VAIDLIVQHIRTKLGQH
Sbjct: 178 ERGRD----VHSYAKFVKPAFDDFILPSKKYADIIIPRGGDNLVAIDLIVQHIRTKLGQH 233
Query: 241 NLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV-----GTLSFMQ 293
NLCKIYPN+NVIQSTFQ RGMHTLIRD+++SKHDFVFYS+RLIR+V G L F +
Sbjct: 234 NLCKIYPNVNVIQSTFQTRGMHTLIRDRDLSKHDFVFYSDRLIRVVVEHGLGYLPFTE 291
>Glyma16g06250.2
Length = 343
Score = 410 bits (1055), Expect = e-115, Method: Compositional matrix adjust.
Identities = 212/308 (68%), Positives = 230/308 (74%), Gaps = 15/308 (4%)
Query: 1 MDDEMEALSGAHFSGWXXXXXXXXXXXXXXXXXXXX----------FVIGVSGGTASGKT 50
+D MEA SG HFSG FVIGVSGGTASGKT
Sbjct: 8 IDYVMEAASGPHFSGLRLDGRVPSSATAASSTPDSTLTLDSLPNQPFVIGVSGGTASGKT 67
Query: 51 TVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKS 110
TVCDMIIQQL DHRVVLV+QDSFYRGL EEL+R HEYNFDHPDAFDTEQL+E +L S
Sbjct: 68 TVCDMIIQQLHDHRVVLVNQDSFYRGLNPEELERVHEYNFDHPDAFDTEQLLECTRKLIS 127
Query: 111 GQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXXXX 170
GQ V VPIYDFK HQRSSD+FRQVNAS+VIILEGILVFH+QRVR++M+MKIFVDA
Sbjct: 128 GQGVHVPIYDFKKHQRSSDSFRQVNASDVIILEGILVFHDQRVRDLMNMKIFVDADADVR 187
Query: 171 XXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIV 230
SVLEQYAKFVKPAFDDF+LPSKKYADVIIPRGGDNHVAIDLIV
Sbjct: 188 LARRIRRDTVERGRDINSVLEQYAKFVKPAFDDFVLPSKKYADVIIPRGGDNHVAIDLIV 247
Query: 231 QHIRTKLGQHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV---- 286
QHIRTKLGQH+LCKIYPN+ VIQSTFQ RGMHTLIRD++ISKHDFVFYS+RLIRLV
Sbjct: 248 QHIRTKLGQHDLCKIYPNVYVIQSTFQIRGMHTLIRDRDISKHDFVFYSDRLIRLVVEHG 307
Query: 287 -GTLSFMQ 293
G L F +
Sbjct: 308 LGHLPFTE 315
>Glyma16g06250.1
Length = 474
Score = 410 bits (1054), Expect = e-115, Method: Compositional matrix adjust.
Identities = 212/308 (68%), Positives = 230/308 (74%), Gaps = 15/308 (4%)
Query: 1 MDDEMEALSGAHFSGWXXXXXXXXXXXXXXXXXXXX----------FVIGVSGGTASGKT 50
+D MEA SG HFSG FVIGVSGGTASGKT
Sbjct: 8 IDYVMEAASGPHFSGLRLDGRVPSSATAASSTPDSTLTLDSLPNQPFVIGVSGGTASGKT 67
Query: 51 TVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKS 110
TVCDMIIQQL DHRVVLV+QDSFYRGL EEL+R HEYNFDHPDAFDTEQL+E +L S
Sbjct: 68 TVCDMIIQQLHDHRVVLVNQDSFYRGLNPEELERVHEYNFDHPDAFDTEQLLECTRKLIS 127
Query: 111 GQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXXXX 170
GQ V VPIYDFK HQRSSD+FRQVNAS+VIILEGILVFH+QRVR++M+MKIFVDA
Sbjct: 128 GQGVHVPIYDFKKHQRSSDSFRQVNASDVIILEGILVFHDQRVRDLMNMKIFVDADADVR 187
Query: 171 XXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIV 230
SVLEQYAKFVKPAFDDF+LPSKKYADVIIPRGGDNHVAIDLIV
Sbjct: 188 LARRIRRDTVERGRDINSVLEQYAKFVKPAFDDFVLPSKKYADVIIPRGGDNHVAIDLIV 247
Query: 231 QHIRTKLGQHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV---- 286
QHIRTKLGQH+LCKIYPN+ VIQSTFQ RGMHTLIRD++ISKHDFVFYS+RLIRLV
Sbjct: 248 QHIRTKLGQHDLCKIYPNVYVIQSTFQIRGMHTLIRDRDISKHDFVFYSDRLIRLVVEHG 307
Query: 287 -GTLSFMQ 293
G L F +
Sbjct: 308 LGHLPFTE 315
>Glyma19g25360.2
Length = 430
Score = 403 bits (1036), Expect = e-113, Method: Compositional matrix adjust.
Identities = 208/298 (69%), Positives = 224/298 (75%), Gaps = 12/298 (4%)
Query: 1 MDDEMEALSGAHFSGWXXXXXXXXXXXXXXXX------------XXXXFVIGVSGGTASG 48
+D MEA SG HFSG FVIGVSGGTASG
Sbjct: 8 IDYVMEAASGPHFSGLRLDGRMPSSATAAAASSSADSTLTPDFLPNQPFVIGVSGGTASG 67
Query: 49 KTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQL 108
KTTVCDMIIQQL DHRVVLV+QDSFYRGL EEL+R HEYNFDHPDAFDTEQL+E +L
Sbjct: 68 KTTVCDMIIQQLHDHRVVLVNQDSFYRGLNPEELERVHEYNFDHPDAFDTEQLLECTMKL 127
Query: 109 KSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXX 168
SGQ V VPIYDFK HQRSSD+FRQVNAS+VIILEGILVFH+QRVR++M+MKIFVD
Sbjct: 128 ISGQGVHVPIYDFKKHQRSSDSFRQVNASDVIILEGILVFHDQRVRDLMNMKIFVDTDAD 187
Query: 169 XXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDL 228
SVLEQYAKFVKPAFDDF+LPSKKYADVIIPRGGDNHVAIDL
Sbjct: 188 VRLARRIRRDTMERGRDINSVLEQYAKFVKPAFDDFVLPSKKYADVIIPRGGDNHVAIDL 247
Query: 229 IVQHIRTKLGQHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV 286
IVQHIRTKLGQH+LCKIYPN VIQSTFQ RGMHTLIRD++ISKHDFVFYS+RLIRLV
Sbjct: 248 IVQHIRTKLGQHDLCKIYPNAYVIQSTFQIRGMHTLIRDRDISKHDFVFYSDRLIRLV 305
>Glyma19g25360.1
Length = 476
Score = 403 bits (1036), Expect = e-112, Method: Compositional matrix adjust.
Identities = 211/310 (68%), Positives = 228/310 (73%), Gaps = 17/310 (5%)
Query: 1 MDDEMEALSGAHFSGWXXXXXXXXXXXXXXXX------------XXXXFVIGVSGGTASG 48
+D MEA SG HFSG FVIGVSGGTASG
Sbjct: 8 IDYVMEAASGPHFSGLRLDGRMPSSATAAAASSSADSTLTPDFLPNQPFVIGVSGGTASG 67
Query: 49 KTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQL 108
KTTVCDMIIQQL DHRVVLV+QDSFYRGL EEL+R HEYNFDHPDAFDTEQL+E +L
Sbjct: 68 KTTVCDMIIQQLHDHRVVLVNQDSFYRGLNPEELERVHEYNFDHPDAFDTEQLLECTMKL 127
Query: 109 KSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXX 168
SGQ V VPIYDFK HQRSSD+FRQVNAS+VIILEGILVFH+QRVR++M+MKIFVD
Sbjct: 128 ISGQGVHVPIYDFKKHQRSSDSFRQVNASDVIILEGILVFHDQRVRDLMNMKIFVDTDAD 187
Query: 169 XXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDL 228
SVLEQYAKFVKPAFDDF+LPSKKYADVIIPRGGDNHVAIDL
Sbjct: 188 VRLARRIRRDTMERGRDINSVLEQYAKFVKPAFDDFVLPSKKYADVIIPRGGDNHVAIDL 247
Query: 229 IVQHIRTKLGQHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV-- 286
IVQHIRTKLGQH+LCKIYPN VIQSTFQ RGMHTLIRD++ISKHDFVFYS+RLIRLV
Sbjct: 248 IVQHIRTKLGQHDLCKIYPNAYVIQSTFQIRGMHTLIRDRDISKHDFVFYSDRLIRLVVE 307
Query: 287 ---GTLSFMQ 293
G L F +
Sbjct: 308 HGLGHLPFTE 317
>Glyma08g45270.1
Length = 477
Score = 357 bits (917), Expect = 6e-99, Method: Compositional matrix adjust.
Identities = 180/288 (62%), Positives = 209/288 (72%), Gaps = 7/288 (2%)
Query: 5 MEALSGAHFSGW------XXXXXXXXXXXXXXXXXXXXFVIGVSGGTASGKTTVCDMIIQ 58
ME+ S HFSG+ FVIGV+GG ASGKTTVCDMIIQ
Sbjct: 10 MESSSEVHFSGFHMDGFEQRKASIEQPTTSETDMYKQPFVIGVAGGAASGKTTVCDMIIQ 69
Query: 59 QLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKSGQSVQVPI 118
QL D RVVLV+QDSFY LT EEL R +YNFDHPDAFDT+QL+ + +LK G++V +P
Sbjct: 70 QLHDQRVVLVNQDSFYNNLTEEELTRVQDYNFDHPDAFDTKQLLHVMDKLKHGEAVDIPK 129
Query: 119 YDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXXXXXXXXXXXX 178
YDFK + +S D R+VN S+VIILEGILVFH+ RVR +M+MKIFVD
Sbjct: 130 YDFKSY-KSDDVLRRVNPSDVIILEGILVFHDPRVRELMNMKIFVDTDADVRLARRIRRD 188
Query: 179 XXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIVQHIRTKLG 238
+VL+QY+KFVKPAFDDFILP+KKYAD+IIPRGGDNHVAIDLIVQHIRTKLG
Sbjct: 189 TTEKGRDIGAVLDQYSKFVKPAFDDFILPTKKYADIIIPRGGDNHVAIDLIVQHIRTKLG 248
Query: 239 QHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV 286
QH+LCKIYPNL VIQSTFQ RGMHTLIRD + +KHDF+FYS+RLIRLV
Sbjct: 249 QHDLCKIYPNLYVIQSTFQIRGMHTLIRDAKTTKHDFIFYSDRLIRLV 296
>Glyma18g08180.1
Length = 477
Score = 352 bits (904), Expect = 2e-97, Method: Compositional matrix adjust.
Identities = 179/288 (62%), Positives = 207/288 (71%), Gaps = 7/288 (2%)
Query: 5 MEALSGAHFSGW------XXXXXXXXXXXXXXXXXXXXFVIGVSGGTASGKTTVCDMIIQ 58
ME+ + HFSG+ FVIGV+GG ASGKTTVCDMIIQ
Sbjct: 10 MESSAEVHFSGFHMDGFEQRKASIEQPTTSETDMYKQPFVIGVAGGAASGKTTVCDMIIQ 69
Query: 59 QLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKSGQSVQVPI 118
QL D RVVLV+QDSFY LT EEL R +YNFDHP AFDTEQL+ + +LK G++V +P
Sbjct: 70 QLHDQRVVLVNQDSFYNNLTEEELTRVQDYNFDHPGAFDTEQLLRVMDKLKHGEAVDIPK 129
Query: 119 YDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXXXXXXXXXXXX 178
YDFK + +S D R+VN S+VIILEGILVFH+ RVR +M+MKIFVD
Sbjct: 130 YDFKSY-KSDDMLRRVNPSDVIILEGILVFHDPRVRELMNMKIFVDTGADVRLARRIRRD 188
Query: 179 XXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIVQHIRTKLG 238
+VL+Q +KFVKPAFDDFILP+KKYAD+IIPRGGDNHVAIDLIVQHIRTKLG
Sbjct: 189 TTEKGRDIGAVLDQDSKFVKPAFDDFILPTKKYADIIIPRGGDNHVAIDLIVQHIRTKLG 248
Query: 239 QHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV 286
QH+LCKIYPNL VIQSTFQ RGMHTLIRD + +KHDFVFYS+RLIRLV
Sbjct: 249 QHDLCKIYPNLYVIQSTFQVRGMHTLIRDAKTTKHDFVFYSDRLIRLV 296
>Glyma02g47270.1
Length = 458
Score = 320 bits (821), Expect = 9e-88, Method: Compositional matrix adjust.
Identities = 167/286 (58%), Positives = 197/286 (68%), Gaps = 15/286 (5%)
Query: 3 DEMEALSGAHFSGWXXXXXXXXXXXXXXXXXXXXFVIGVSGGTASGK--TTVCDMIIQQL 60
D ME+LS HFSG+ G T S T+VCDMI+QQL
Sbjct: 8 DLMESLSEVHFSGFHIDGLEQRKA-------------GTEQPTTSTTDMTSVCDMIVQQL 54
Query: 61 QDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKSGQSVQVPIYD 120
D RVVLV+QDSFY LT EEL R +YNFD P+AFDTEQL+ + +LK GQ+V +P YD
Sbjct: 55 HDQRVVLVNQDSFYHNLTQEELTRVQDYNFDLPEAFDTEQLLRVMDKLKRGQAVDIPNYD 114
Query: 121 FKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMKIFVDAXXXXXXXXXXXXXXX 180
FK ++ R+VN ++VIILEGILVFH+ RVR +M+MKIFVD
Sbjct: 115 FKGYKNDVFPARRVNPADVIILEGILVFHDPRVRALMNMKIFVDTDADVRLARRIKRDTA 174
Query: 181 XXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIVQHIRTKLGQH 240
+VL+QY+KFVKPAFDDFILP+KKYAD+IIPRG DNHVAIDLIVQHIRTKLGQH
Sbjct: 175 DNARDIGAVLDQYSKFVKPAFDDFILPTKKYADIIIPRGRDNHVAIDLIVQHIRTKLGQH 234
Query: 241 NLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRLV 286
++CKIY NL VIQSTFQ RGMHTLIRD + +KHDFVFYS+RLIRLV
Sbjct: 235 DMCKIYRNLYVIQSTFQIRGMHTLIRDSQTTKHDFVFYSDRLIRLV 280
>Glyma19g07090.1
Length = 416
Score = 308 bits (789), Expect = 4e-84, Method: Compositional matrix adjust.
Identities = 149/246 (60%), Positives = 188/246 (76%), Gaps = 1/246 (0%)
Query: 41 VSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQ 100
V+GGTASGKTTVC+MI QL D RVVL++QDSFY L+++ L++ +EYNFDHPDAFDT+
Sbjct: 1 VAGGTASGKTTVCNMINTQLHDQRVVLITQDSFYHSLSDKMLQKVNEYNFDHPDAFDTKL 60
Query: 101 LVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMMDMK 160
L+ TL +LK GQ V +P YDF H+R + RQV + +I+LEGILV H+ VRN+++MK
Sbjct: 61 LLSTLEKLKCGQPVTIPNYDFNSHKRI-EAGRQVQPANIIVLEGILVLHDSGVRNLLNMK 119
Query: 161 IFVDAXXXXXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGG 220
IFVD +VL+QY++FVKP+F+DF+LP+KKYAD+IIP GG
Sbjct: 120 IFVDEDSDVRLTRRMQRLAIERGRNIENVLDQYSRFVKPSFEDFVLPTKKYADIIIPSGG 179
Query: 221 DNHVAIDLIVQHIRTKLGQHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSN 280
DN VAIDLIVQ+IR KLGQH+LCKIYPN+ VI STFQ +GMHTLIRD + +KHDFVFYS+
Sbjct: 180 DNDVAIDLIVQNIRMKLGQHDLCKIYPNIFVICSTFQIKGMHTLIRDVKTTKHDFVFYSD 239
Query: 281 RLIRLV 286
RLIRLV
Sbjct: 240 RLIRLV 245
>Glyma14g01480.1
Length = 466
Score = 298 bits (764), Expect = 4e-81, Method: Compositional matrix adjust.
Identities = 159/295 (53%), Positives = 191/295 (64%), Gaps = 22/295 (7%)
Query: 3 DEMEALSGAHFSGW------XXXXXXXXXXXXXXXXXXXXFVIGVSGGTASGKTTVCDMI 56
D ME+LS HFSG+ FVIGV+GG ASGKT+VCDMI
Sbjct: 8 DLMESLSEVHFSGFHMDGLEQRKAGTEQPTTSATDMYKQPFVIGVAGGAASGKTSVCDMI 67
Query: 57 IQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFDTEQLVETLSQLKSGQSVQV 116
+QQL D RVVLV+QDSFY LT EEL R +YNFDHP+AFDTEQL+ + +LK Q+V +
Sbjct: 68 VQQLHDQRVVLVNQDSFYHNLTEEELTRVQDYNFDHPEAFDTEQLLRVMDKLKHSQAVDI 127
Query: 117 PIYDFKLHQRSSDTFRQVNASE------VIILEGILVFHEQRVRNMMDMKIFVDAXXXXX 170
P YDFK ++ R++ S V +L + H + D+++
Sbjct: 128 PKYDFKGYKNDVFPARRLFTSMHILYLFVALLSYAITLHCEMFSADADVRL--------- 178
Query: 171 XXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIV 230
+VL+QY+KFVKPAFDDFILP+KKYAD+IIPRGGDNHVAIDLIV
Sbjct: 179 -ARRIKRDTADNAREIGAVLDQYSKFVKPAFDDFILPTKKYADIIIPRGGDNHVAIDLIV 237
Query: 231 QHIRTKLGQHNLCKIYPNLNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLIRL 285
QHIRTKLGQH+LCKIYPNL VIQSTFQ RGMHTLIRD + +KHDFVFYS+RLIRL
Sbjct: 238 QHIRTKLGQHDLCKIYPNLYVIQSTFQIRGMHTLIRDSQTTKHDFVFYSDRLIRL 292
>Glyma0042s00200.1
Length = 194
Score = 147 bits (370), Expect = 2e-35, Method: Compositional matrix adjust.
Identities = 81/136 (59%), Positives = 96/136 (70%), Gaps = 18/136 (13%)
Query: 37 FVIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAF 96
F IGVS GTASGKTTV +MIIQQL DH VVLV++D FY GL E+LKR H+YNF+HP
Sbjct: 55 FAIGVSRGTASGKTTVGNMIIQQLHDHCVVLVNKDLFYHGLNPEKLKRVHKYNFNHP--- 111
Query: 97 DTEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQ---------VNASEVIILEGILV 147
E +L SGQ V V IYDFK HQRS D+F Q VN+S+VIILEGILV
Sbjct: 112 ------ECTRKLISGQGVHVTIYDFKNHQRSFDSFCQDVNVVLLALVNSSDVIILEGILV 165
Query: 148 FHEQRVRNMMDMKIFV 163
FH+Q V ++++MKIFV
Sbjct: 166 FHDQCVWDLLNMKIFV 181
>Glyma07g24960.1
Length = 122
Score = 146 bits (369), Expect = 2e-35, Method: Compositional matrix adjust.
Identities = 73/97 (75%), Positives = 79/97 (81%)
Query: 37 FVIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAF 96
FVIGVSG TASGKTTVCDMIIQQL DHRVVLV+QDSFY L EEL+R HEY FDH DAF
Sbjct: 26 FVIGVSGDTASGKTTVCDMIIQQLHDHRVVLVNQDSFYHWLNPEELERVHEYYFDHRDAF 85
Query: 97 DTEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQ 133
DTEQL++ +L SGQ V VPIYDFK Q SSD+FRQ
Sbjct: 86 DTEQLLKCTRKLISGQGVHVPIYDFKKQQHSSDSFRQ 122
>Glyma05g24240.1
Length = 95
Score = 141 bits (355), Expect = 9e-34, Method: Compositional matrix adjust.
Identities = 64/95 (67%), Positives = 81/95 (85%)
Query: 189 VLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIVQHIRTKLGQHNLCKIYPN 248
++ QY++FVKP+F+DF+LP+KKYAD+ I GGDN VAIDLIV +IR KLGQH+LCKIYPN
Sbjct: 1 MIVQYSRFVKPSFEDFVLPTKKYADIFILSGGDNDVAIDLIVHNIRMKLGQHDLCKIYPN 60
Query: 249 LNVIQSTFQARGMHTLIRDKEISKHDFVFYSNRLI 283
+ VI T Q +GMHTLIRD + +KHDFVFYS+R+I
Sbjct: 61 IFVICLTLQIKGMHTLIRDVKTTKHDFVFYSDRVI 95
>Glyma17g32630.1
Length = 200
Score = 132 bits (332), Expect = 5e-31, Method: Compositional matrix adjust.
Identities = 58/70 (82%), Positives = 65/70 (92%)
Query: 188 SVLEQYAKFVKPAFDDFILPSKKYADVIIPRGGDNHVAIDLIVQHIRTKLGQHNLCKIYP 247
+VL+QY+KFVKPAFDDFILP+KKYAD+IIPRGGDNHVAI L VQHIRTKLG+H+LC IYP
Sbjct: 32 AVLDQYSKFVKPAFDDFILPTKKYADIIIPRGGDNHVAIGLTVQHIRTKLGKHDLCNIYP 91
Query: 248 NLNVIQSTFQ 257
NL VIQ TFQ
Sbjct: 92 NLYVIQPTFQ 101
>Glyma13g04470.1
Length = 136
Score = 112 bits (280), Expect = 4e-25, Method: Compositional matrix adjust.
Identities = 58/88 (65%), Positives = 63/88 (71%), Gaps = 10/88 (11%)
Query: 38 VIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPD--- 94
+ V GGTAS KTTVCDMIIQQL DHRVVLV+QDSFY GL EEL+R HEYNFDHPD
Sbjct: 31 TLRVFGGTASSKTTVCDMIIQQLHDHRVVLVNQDSFYHGLNPEELERFHEYNFDHPDNFQ 90
Query: 95 -------AFDTEQLVETLSQLKSGQSVQ 115
AFDTEQL+E +L SGQ V
Sbjct: 91 LYSLYVYAFDTEQLLECTRKLISGQGVH 118
>Glyma01g09660.1
Length = 664
Score = 74.3 bits (181), Expect = 2e-13, Method: Compositional matrix adjust.
Identities = 48/180 (26%), Positives = 86/180 (47%), Gaps = 9/180 (5%)
Query: 37 FVIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAF 96
++GV+G + +GKT + I+ + + ++S D++ + R + NFD P
Sbjct: 66 ILVGVAGPSGAGKTIFTEKILNFMPS--IAIISMDNY------NDASRIVDGNFDDPRLT 117
Query: 97 DTEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNM 156
D + L++ L LK G+ VQVPIYDFK R+ + +S ++I+EGI E ++R +
Sbjct: 118 DYDTLLQNLHNLKEGKPVQVPIYDFKSSSRTGYRTVEAPSSRIVIIEGIYALSE-KLRPL 176
Query: 157 MDMKIFVDAXXXXXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVII 216
MD+++ V ++ Q ++ V P + FI P + A + I
Sbjct: 177 MDLRVSVTGGVHLDLVKRVIRDIQRAGQEPEEIIHQISETVYPMYKAFIEPDLQTAHIKI 236
>Glyma02g14110.1
Length = 664
Score = 73.9 bits (180), Expect = 2e-13, Method: Compositional matrix adjust.
Identities = 48/180 (26%), Positives = 87/180 (48%), Gaps = 9/180 (5%)
Query: 37 FVIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAF 96
++GV+G + +GKT + I+ + + ++S D++ + R + NFD P
Sbjct: 66 ILVGVAGPSGAGKTVFTEKILNFMPS--IAVISMDNY------NDASRIVDGNFDDPRLT 117
Query: 97 DTEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNM 156
D + L++ L LK G+ VQVPIYDFK R+ +V +S ++I+EGI E ++R +
Sbjct: 118 DYDTLLQNLHDLKEGKPVQVPIYDFKSSSRTGYRTVEVPSSRIVIIEGIYALSE-KLRPL 176
Query: 157 MDMKIFVDAXXXXXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVII 216
+D+++ V ++ Q ++ V P + FI P + A + I
Sbjct: 177 LDLRVSVTGGVHLDLVKRVIRDIQRAGQEPEEIIHQISETVYPMYKAFIEPDLQTAHIKI 236
>Glyma17g09080.1
Length = 661
Score = 70.1 bits (170), Expect = 3e-12, Method: Compositional matrix adjust.
Identities = 47/179 (26%), Positives = 86/179 (48%), Gaps = 9/179 (5%)
Query: 38 VIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFD 97
++GV+G + +GKT + ++ + + +++ D++ + R + NFD P D
Sbjct: 66 LVGVAGPSGAGKTVFTEKVLNFMPS--IAVITMDNY------NDSSRIIDGNFDDPRLTD 117
Query: 98 TEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVFHEQRVRNMM 157
+ L+E + LK+G+ VQVPIYDFK R +V +S ++I+EGI E + R ++
Sbjct: 118 YDTLLENIQGLKAGKPVQVPIYDFKSSSRIGYRTVEVPSSRIVIIEGIYALSE-KSRPLL 176
Query: 158 DMKIFVDAXXXXXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPSKKYADVII 216
D+++ V ++ Q ++ V P + FI P K A + I
Sbjct: 177 DLRVSVTGGVHFDLVKRVLRDIHRAGQEPEEIIHQISETVYPMYKAFIEPDLKTAHLKI 235
>Glyma12g17670.1
Length = 132
Score = 69.7 bits (169), Expect = 4e-12, Method: Compositional matrix adjust.
Identities = 32/45 (71%), Positives = 37/45 (82%)
Query: 49 KTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHP 93
KTTV +MIIQQL DH VVLV++D FY GL EELKR H+YNF+HP
Sbjct: 87 KTTVGNMIIQQLHDHCVVLVNKDLFYHGLNPEELKRVHKYNFNHP 131
>Glyma05g07610.1
Length = 573
Score = 61.6 bits (148), Expect = 9e-10, Method: Compositional matrix adjust.
Identities = 38/128 (29%), Positives = 61/128 (47%), Gaps = 1/128 (0%)
Query: 89 NFDHPDAFDTEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQVNASEVIILEGILVF 148
NFD P D + L+E + LK+G+ VQVPIYDFK R +V S ++I+EGI
Sbjct: 22 NFDDPRLTDYDTLLENIQGLKAGKPVQVPIYDFKSSSRIGYRTVEVPGSRIVIIEGIYAL 81
Query: 149 HEQRVRNMMDMKIFVDAXXXXXXXXXXXXXXXXXXXXXLSVLEQYAKFVKPAFDDFILPS 208
E ++R ++D+++ V ++ Q ++ V P + FI P
Sbjct: 82 SE-KLRPLLDLRVSVTGGVHFDLVKRVLRDIHRAGQEPEEIIHQISETVYPMYKAFIEPD 140
Query: 209 KKYADVII 216
+ A + I
Sbjct: 141 LQTAHLKI 148
>Glyma20g02060.1
Length = 714
Score = 51.6 bits (122), Expect = 9e-07, Method: Compositional matrix adjust.
Identities = 36/129 (27%), Positives = 66/129 (51%), Gaps = 17/129 (13%)
Query: 38 VIGVSGGTASGKTTVCDMIIQQLQDHRVVLVSQDSFYRGLTNEELKRGHEYNFDHPDAFD 97
++G+ G + SGKT++ + + +VS +S+Y K+ ++ +D A D
Sbjct: 549 IVGIGGPSGSGKTSLAHKMANIIGCE---VVSLESYY--------KQVKDFKYDDFSALD 597
Query: 98 TEQLVETLSQLKSGQSVQVPIYDFKLHQRSSDTFRQVNASE---VIILEGILVFHEQRVR 154
L + + +++GQ +VPI+D + RS F+++ SE VII EG+ H +R
Sbjct: 598 LSLLSKNIDDIRNGQRTKVPIFDLESGARSG--FKELEVSEDCGVIIFEGVYALHPD-IR 654
Query: 155 NMMDMKIFV 163
+D+ I V
Sbjct: 655 ISLDLWIAV 663