Miyakogusa Predicted Gene
- Lj0g3v0357059.1
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= Lj0g3v0357059.1 tr|G7K4N0|G7K4N0_MEDTR Serine acetyltransferase
OS=Medicago truncatula GN=MTR_5g095470 PE=4 SV=1,68.55,0,no
description,NULL; seg,NULL; SATase_N,Serine acetyltransferase,
N-terminal; Hexapep,Bacterial tran,CUFF.24658.1
(360 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma02g46870.1 449 e-126
Glyma14g01840.1 444 e-125
Glyma08g43940.1 407 e-113
Glyma18g08910.1 383 e-106
Glyma16g03080.1 350 1e-96
Glyma07g06480.1 345 6e-95
Glyma01g36460.1 257 1e-68
Glyma02g04770.1 248 1e-65
Glyma16g22630.1 196 4e-50
Glyma18g32500.1 171 1e-42
Glyma18g40780.1 166 3e-41
Glyma01g10810.1 165 9e-41
Glyma17g31460.1 161 1e-39
Glyma11g08930.1 136 3e-32
Glyma18g22970.1 92 1e-18
Glyma15g20280.1 91 3e-18
Glyma04g34460.1 90 5e-18
Glyma07g14310.1 88 2e-17
Glyma15g19610.1 82 1e-15
Glyma03g08220.1 81 2e-15
Glyma12g21410.1 71 2e-12
Glyma12g33100.1 52 1e-06
>Glyma02g46870.1
Length = 356
Score = 449 bits (1154), Expect = e-126, Method: Compositional matrix adjust.
Identities = 235/308 (76%), Positives = 257/308 (83%), Gaps = 4/308 (1%)
Query: 54 WGCSKSFTCQVPPLPVCKYGVKTLHTRSXXXXXXXXXXXXXXWMKMKEEAVEDVTVEPIL 113
WG K+ P + TLHT S W KM+EEA DVT EPIL
Sbjct: 52 WGHPKTIK---PSFNHSRIRFNTLHTGSTEEQVETGEVEVDVWTKMQEEAKLDVTEEPIL 108
Query: 114 STYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLGVLEGDQGIMDSVKDDLKA 173
S YY+T ILSH++LE++LANHLA+ LSS SLPS+TL DLF+ VLE DQ IMD+VK DL+A
Sbjct: 109 SNYYNTSILSHKTLETALANHLAINLSSTSLPSSTLSDLFVTVLETDQAIMDAVKCDLRA 168
Query: 174 VKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLAFMIQNRVSEVFAVDIHPG 233
VKERDPACISHVHCFLNFKGFLACQAHRVAH+LW QGRK+LA MIQNRVSE+FAVD+HPG
Sbjct: 169 VKERDPACISHVHCFLNFKGFLACQAHRVAHKLWLQGRKILAVMIQNRVSEIFAVDVHPG 228
Query: 234 AKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIGAGTC 293
A+IGSGILLDHATGIVVGETAVIGN+VSILHSVTLGGTGK SGDRHPKIGDGVLIGAGTC
Sbjct: 229 ARIGSGILLDHATGIVVGETAVIGNNVSILHSVTLGGTGKVSGDRHPKIGDGVLIGAGTC 288
Query: 294 ILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHTMDHTSNI 352
ILGNI VG GAKIGAGSVVIKDVPPRTTVVGNPAKLVGGK NPVKLDKIPS TMDHTS+I
Sbjct: 289 ILGNIKVGDGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGKNNPVKLDKIPSFTMDHTSHI 348
Query: 353 SEFYDYCV 360
++FYDYCV
Sbjct: 349 ADFYDYCV 356
>Glyma14g01840.1
Length = 351
Score = 444 bits (1143), Expect = e-125, Method: Compositional matrix adjust.
Identities = 223/290 (76%), Positives = 245/290 (84%), Gaps = 3/290 (1%)
Query: 74 VKTLHTRSXXX--XXXXXXXXXXXWMKMKEEAVEDVTVEPILSTYYDTFILSHRSLESSL 131
V TLHT S W KM+EEA DVTVEP LS YY+T ILSH SL+++L
Sbjct: 62 VNTLHTGSTVQHVEADEAVELDVLWTKMQEEAKLDVTVEPFLSDYYNTSILSHNSLQTAL 121
Query: 132 ANHLAVKLSSASLPSTTLYDLFLGVLEGDQGIMDSVKDDLKAVKERDPACISHVHCFLNF 191
ANHLA+KLS++SLPS+ L DLF+ VLE D+ IMD+VK DL+ VKE DPACISHVHCFLNF
Sbjct: 122 ANHLAMKLSNSSLPSSILSDLFVTVLETDKSIMDAVKSDLRVVKELDPACISHVHCFLNF 181
Query: 192 KGFLACQAHRVAHRLWSQGRKVLAFMIQNRVSEVFAVDIHPGAKIGSGILLDHATGIVVG 251
KGFLACQAHRVAH+LW QGRK+LA IQNRVS+VFAVD+HPGA+IGSGILLDHATGIVVG
Sbjct: 182 KGFLACQAHRVAHKLWLQGRKILAVTIQNRVSQVFAVDVHPGARIGSGILLDHATGIVVG 241
Query: 252 ETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIGAGTCILGNIMVGAGAKIGAGSV 311
ETAVIGN+V ILH VTLGGTGK SGDRHPKIGDGVLIGAGTCILGNI VG GAKIGAGSV
Sbjct: 242 ETAVIGNNVPILHGVTLGGTGKVSGDRHPKIGDGVLIGAGTCILGNIKVGDGAKIGAGSV 301
Query: 312 VIKDVPPRTTVVGNPAKLVGGKN-PVKLDKIPSHTMDHTSNISEFYDYCV 360
VIKDVPPRTTVVGNPAKLVGGKN VKLDKIP TMDHTS+I++FYDYCV
Sbjct: 302 VIKDVPPRTTVVGNPAKLVGGKNSSVKLDKIPIFTMDHTSHIADFYDYCV 351
>Glyma08g43940.1
Length = 387
Score = 407 bits (1046), Expect = e-113, Method: Compositional matrix adjust.
Identities = 224/357 (62%), Positives = 263/357 (73%), Gaps = 12/357 (3%)
Query: 5 RFLTSIVSPTKQQWSHHSSSPLAYTXXXXXXXXXXXXXXXXXXKTLDHSWG----CSKSF 60
+F + P K Q S +S P + + ++ DHS+ C SF
Sbjct: 26 QFTPIFLHPPKFQ-SLYSIHPFSLSMATCVDASTPLSRKPNGSQSDDHSFNYMKFCRPSF 84
Query: 61 TCQVPPLPVCKYG------VKTLHTRSXXXXXXXXXXXXXXWMKMKEEAVEDVTVEPILS 114
+ +VP +P+CK V+ TR W+K++EEA DV EPILS
Sbjct: 85 SDRVPCMPICKNRDTAFTRVEEFDTRVENHVEVDVVEGVDLWLKIQEEARLDVDQEPILS 144
Query: 115 TYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLGVLEGDQGIMDSVKDDLKAV 174
+YY + ILSH+SLES+LANHL+ LSS SLPS+TLYDLF+GV D I+ +VKDDL AV
Sbjct: 145 SYYFSSILSHKSLESALANHLSTNLSSLSLPSSTLYDLFMGVFADDNDIIGAVKDDLIAV 204
Query: 175 KERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLAFMIQNRVSEVFAVDIHPGA 234
KERDPACIS+VHC LNFKGFLACQAHR+AH+LW QGRKVLA +IQNRVS+VFAVDIHPGA
Sbjct: 205 KERDPACISYVHCLLNFKGFLACQAHRIAHKLWLQGRKVLALLIQNRVSDVFAVDIHPGA 264
Query: 235 KIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIGAGTCI 294
KIG GILLDHATG+VVGETAVIGN+VSILH+VTLGGTGK SGDRHPKIGDGVLIGAGTCI
Sbjct: 265 KIGRGILLDHATGLVVGETAVIGNNVSILHNVTLGGTGKASGDRHPKIGDGVLIGAGTCI 324
Query: 295 LGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHTMDHTS 350
LGNI +G GAKIGA SVV+K+VPPRTT VGNPA+LVGGK NP+KLDK+PS TMDHTS
Sbjct: 325 LGNIKIGDGAKIGACSVVLKEVPPRTTAVGNPARLVGGKDNPIKLDKMPSFTMDHTS 381
>Glyma18g08910.1
Length = 391
Score = 383 bits (983), Expect = e-106, Method: Compositional matrix adjust.
Identities = 213/315 (67%), Positives = 247/315 (78%), Gaps = 13/315 (4%)
Query: 48 KTLDHSWGCSKSFTCQVPPLPVCKYGVKTLHTR---------SXXXXXXXXXXXXXXWMK 98
++ ++ C +F+ +VP +P+CK T TR W+K
Sbjct: 72 RSFNYMKFCRPTFSDRVPCIPICK-NRDTAFTRVEEFDTCVEDNDDIEVEVVEGVDLWLK 130
Query: 99 MKEEAVEDVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLGVLE 158
++EEA DV EPILS+YY + ILSH+SLES+LANHL+ LSS SLPS+TL+DLF+GVL
Sbjct: 131 IQEEARLDVDQEPILSSYYFSSILSHKSLESALANHLSTNLSSLSLPSSTLFDLFMGVLV 190
Query: 159 GDQGIMD--SVKDDLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLAF 216
D +VKDDL AVKERDPACIS+VHC LNFKGFLACQAHR+AH+LW QGRKVLA
Sbjct: 191 DDGDDDIVGAVKDDLIAVKERDPACISYVHCLLNFKGFLACQAHRIAHKLWLQGRKVLAL 250
Query: 217 MIQNRVSEVFAVDIHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTSG 276
+IQNRVSEVFAVDIHPGAKIG GILLDHATG+VVGETAVIGN+VSILH+VTLGGTGK SG
Sbjct: 251 LIQNRVSEVFAVDIHPGAKIGRGILLDHATGLVVGETAVIGNNVSILHNVTLGGTGKASG 310
Query: 277 DRHPKIGDGVLIGAGTCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGK-NP 335
DRHPKIGDGVLIGAGTCILGNI +G GAKIGA SVV+K+VPPRTT VGNPA+LVGGK NP
Sbjct: 311 DRHPKIGDGVLIGAGTCILGNIKIGDGAKIGACSVVLKEVPPRTTAVGNPARLVGGKDNP 370
Query: 336 VKLDKIPSHTMDHTS 350
+KLDK+PS TMDHTS
Sbjct: 371 IKLDKMPSFTMDHTS 385
>Glyma16g03080.1
Length = 286
Score = 350 bits (898), Expect = 1e-96, Method: Compositional matrix adjust.
Identities = 170/266 (63%), Positives = 203/266 (76%), Gaps = 1/266 (0%)
Query: 96 WMKMKEEAVEDVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLG 155
W ++K EA D EP L++Y + ILSH SLE SL+ HL KL S++L ST LYDLFL
Sbjct: 21 WGQIKAEARRDAESEPALASYLYSTILSHSSLERSLSFHLGNKLCSSTLLSTLLYDLFLN 80
Query: 156 VLEGDQGIMDSVKDDLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLA 215
D + + DL+A +ERDPAC+S+ HC LN+KGFLACQAHRVAH LW Q R+ LA
Sbjct: 81 AFSSDPSLRSAAVADLRAARERDPACVSYSHCLLNYKGFLACQAHRVAHLLWRQSRRPLA 140
Query: 216 FMIQNRVSEVFAVDIHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTS 275
+ +R+++VFAVDIHP A+IG GIL DHATG+VVGETAVIGN+VSILH VTLGGTGK
Sbjct: 141 LALHSRIADVFAVDIHPAARIGKGILFDHATGVVVGETAVIGNNVSILHHVTLGGTGKVG 200
Query: 276 GDRHPKIGDGVLIGAGTCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGKN- 334
GDRHPKIGDGVLIGAG ILGNI +G GAK+GAGSVV+ DVPPRTT VGNPA+LVGGK
Sbjct: 201 GDRHPKIGDGVLIGAGATILGNIKIGEGAKVGAGSVVLIDVPPRTTAVGNPARLVGGKEK 260
Query: 335 PVKLDKIPSHTMDHTSNISEFYDYCV 360
P K + +P +MDHTS ISE+ DY +
Sbjct: 261 PSKHEDVPGESMDHTSFISEWSDYII 286
>Glyma07g06480.1
Length = 286
Score = 345 bits (884), Expect = 6e-95, Method: Compositional matrix adjust.
Identities = 168/266 (63%), Positives = 203/266 (76%), Gaps = 1/266 (0%)
Query: 96 WMKMKEEAVEDVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLG 155
W ++K EA D +EP L++Y + ILSH SL SL+ HL KL S++L ST LYDLFL
Sbjct: 21 WTQIKAEARRDAELEPALASYLYSTILSHSSLVRSLSFHLGNKLCSSTLLSTLLYDLFLN 80
Query: 156 VLEGDQGIMDSVKDDLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLA 215
D + + DL+A +ERDPAC+S+ HC LN+KGFLACQAHRVAH LW Q R+ LA
Sbjct: 81 AFSFDPSLCSAAVADLRAARERDPACVSYSHCLLNYKGFLACQAHRVAHLLWRQSRQPLA 140
Query: 216 FMIQNRVSEVFAVDIHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTS 275
+ +R+++VFAVDIHP A+IG GIL DHATG+VVGETAVIGN+VSILH VTLGGTGK
Sbjct: 141 LALHSRIADVFAVDIHPAARIGKGILFDHATGVVVGETAVIGNNVSILHHVTLGGTGKVG 200
Query: 276 GDRHPKIGDGVLIGAGTCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGKN- 334
GDRHPKIGDGVLIGAG ILGNI +G GAK+GAGSVV+ DVPP+TT VGNPA+LVGGK
Sbjct: 201 GDRHPKIGDGVLIGAGATILGNIKIGEGAKVGAGSVVLIDVPPQTTAVGNPARLVGGKEK 260
Query: 335 PVKLDKIPSHTMDHTSNISEFYDYCV 360
P K + +P +MDHTS ISE+ DY +
Sbjct: 261 PSKHEDVPGESMDHTSFISEWSDYII 286
>Glyma01g36460.1
Length = 247
Score = 257 bits (657), Expect = 1e-68, Method: Compositional matrix adjust.
Identities = 131/246 (53%), Positives = 170/246 (69%), Gaps = 4/246 (1%)
Query: 110 EPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLGVLEGDQGIMDSVKD 169
EPILS++ IL+H LE +LA +A +L + +L +T L D+F V+ D+ I S++
Sbjct: 4 EPILSSFLYASILAHDCLEQALAFVVANRLQNPTLLATQLMDIFCLVILHDKAIQRSIRL 63
Query: 170 DLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLAFMIQNRVSEVFAVD 229
D++A+K+RDPAC+S+ KG+ A Q HRVAH LW QGRKVLA +Q+RVSEVF VD
Sbjct: 64 DVQALKDRDPACLSYCSALWYTKGYHALQVHRVAHALWHQGRKVLALALQSRVSEVFGVD 123
Query: 230 IHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIG 289
IHP AKIG GILLDH TG+V+GETA++GN VS++H VTLGGTGK GDRHPK+G+G LI
Sbjct: 124 IHPAAKIGEGILLDHGTGVVIGETAIVGNRVSLMHGVTLGGTGKEIGDRHPKVGEGALIE 183
Query: 290 AGTCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGKNPVKLDKIPSHTMDHT 349
A ILGNI +G GA I AGS+V+KDVPP G PAK++ + PS TM H
Sbjct: 184 ASATILGNIKIGEGAMIAAGSLVLKDVPPHCIAAGIPAKVISALQ----EHDPSLTMKHD 239
Query: 350 SNISEF 355
++ F
Sbjct: 240 ASKDLF 245
>Glyma02g04770.1
Length = 385
Score = 248 bits (632), Expect = 1e-65, Method: Compositional matrix adjust.
Identities = 128/253 (50%), Positives = 175/253 (69%), Gaps = 4/253 (1%)
Query: 96 WMKMKEEAVEDVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLG 155
W ++EEA + EPILS+++ ILSH LE +LA LA +L +L +T L D+F
Sbjct: 135 WDVVREEAKLEAEKEPILSSFFHATILSHDCLEEALAFALANRLQKPTLLATQLMDIFSN 194
Query: 156 VLEGDQGIMDSVKDDLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLA 215
V++ D+GI S++ D++A K+R+PAC+ + L KG+ + Q +RVAH LW QGRKVLA
Sbjct: 195 VMKHDKGIQQSIRLDIQAFKDRNPACLLYCSALLFMKGYQSLQVYRVAHALWRQGRKVLA 254
Query: 216 FMIQNRVSEVFAVDIHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTS 275
+Q+RVSEVF VDIHP AKIG GIL+DH TG+V+GET ++G+ VS++ VTLGGT K +
Sbjct: 255 AALQSRVSEVFGVDIHPAAKIGDGILVDHGTGVVIGETVIVGSRVSLMQGVTLGGTVKET 314
Query: 276 GDRHPKIGDGVLIGAGTCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGKNP 335
GDRHPKI +GVLIGA ILGNI +G I AGS+V+++VPP + V G PAK++G +
Sbjct: 315 GDRHPKISEGVLIGAHATILGNIRIGECVMIAAGSLVLQEVPPHSIVAGVPAKVIGRVH- 373
Query: 336 VKLDKIPSHTMDH 348
+ PS TM
Sbjct: 374 ---EHYPSLTMQQ 383
>Glyma16g22630.1
Length = 391
Score = 196 bits (497), Expect = 4e-50, Method: Compositional matrix adjust.
Identities = 117/268 (43%), Positives = 166/268 (61%), Gaps = 12/268 (4%)
Query: 96 WMKMKEEAVEDVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLG 155
W ++EEA + EPILS+++ ILSH LE +LA LA +L + +L +T L D+F
Sbjct: 119 WDAVREEAKLEAEKEPILSSFFYATILSHDCLEQALAFALANRLQNPTLLATQLMDIFSN 178
Query: 156 VLEGDQGIMDSVKDDLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLA 215
V++ D+GI S++ D++A K+RDPAC+S+ L KG+ + Q +RVAH LW QGRKVLA
Sbjct: 179 VMKHDKGIQQSIRLDIQAFKDRDPACLSYCSALLYMKGYQSLQVYRVAHALWGQGRKVLA 238
Query: 216 FMIQNRVSE-VFAVDIHPGAKIGSGILL--DHATGIVVGETAVIGNDVSILHSVTLGGTG 272
+Q+RVSE VFA+ G GI+ D T + + ++ + VT GGTG
Sbjct: 239 SALQSRVSEVVFALGKKNGEIFRKGIIFVADDPTLYFLYCRFL---ELIYIQGVTFGGTG 295
Query: 273 KTSGDRHPKIGDGVLIGAGTCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGG 332
K +GDRHPKI +GVLIGA ILGNI +G I AGS+V+++VPP + V G PAK++G
Sbjct: 296 KETGDRHPKISEGVLIGAHATILGNITIGECVMIAAGSLVLQEVPPHSIVAGVPAKVIGR 355
Query: 333 KNPVKLDKIPSHTM--DHTSNISEFYDY 358
+ + PS TM D ++SE + Y
Sbjct: 356 VH----EHYPSLTMQQDENKHLSEEFFY 379
>Glyma18g32500.1
Length = 169
Score = 171 bits (433), Expect = 1e-42, Method: Compositional matrix adjust.
Identities = 88/118 (74%), Positives = 101/118 (85%), Gaps = 5/118 (4%)
Query: 244 HATGIVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIGAGTCILGNIMVGAG 303
HATG+ VGET +IGN+VSILH+VTLGGTGK SGDRH KIGDGVLIG GTCILGNI +G G
Sbjct: 56 HATGLAVGETTLIGNNVSILHNVTLGGTGKASGDRHLKIGDGVLIGPGTCILGNIKIGDG 115
Query: 304 AKIGAGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHTMDHTSNISEFYDYCV 360
AKIGA SVV+K+VPPRTT VGNPA++VGGK NP+KLDK+PS TMDHTS + DY +
Sbjct: 116 AKIGACSVVLKEVPPRTTAVGNPARVVGGKDNPIKLDKVPSFTMDHTS----WSDYVI 169
>Glyma18g40780.1
Length = 171
Score = 166 bits (421), Expect = 3e-41, Method: Compositional matrix adjust.
Identities = 90/135 (66%), Positives = 106/135 (78%), Gaps = 7/135 (5%)
Query: 229 DIHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLI 288
+I P ++ HATG+VV ETA IGN+VSILH+VTLGGTGK GDRH KIGDGVLI
Sbjct: 41 EIKPVVDKKGPVIAYHATGLVVEETAFIGNNVSILHNVTLGGTGKARGDRHLKIGDGVLI 100
Query: 289 GAG--TCILGNIMVGAGAKIGAGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHT 345
G G TCILGNI +G GAKIGA SVV+K+VPPRTT VGNPA++VGGK NP+KLDK+PS T
Sbjct: 101 GPGTWTCILGNIKIGDGAKIGACSVVLKEVPPRTTAVGNPARVVGGKDNPIKLDKMPSFT 160
Query: 346 MDHTSNISEFYDYCV 360
MDHTS ++DY +
Sbjct: 161 MDHTS----WFDYAI 171
>Glyma01g10810.1
Length = 139
Score = 165 bits (417), Expect = 9e-41, Method: Compositional matrix adjust.
Identities = 84/114 (73%), Positives = 98/114 (85%), Gaps = 5/114 (4%)
Query: 248 IVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIGAGTCILGNIMVGAGAKIG 307
+VVGETA+IGN+VSILH+VTLG TGK SGDRHPKIGDGVLIG GTCILGNI + GAKIG
Sbjct: 30 LVVGETALIGNNVSILHNVTLGETGKASGDRHPKIGDGVLIGPGTCILGNIKICDGAKIG 89
Query: 308 AGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHTMDHTSNISEFYDYCV 360
SVV+K+VPPRTT+VGNPA++VGGK NP+KLDK+PS TMDHTS + DY +
Sbjct: 90 VCSVVLKEVPPRTTIVGNPARVVGGKDNPIKLDKMPSFTMDHTS----WSDYVI 139
>Glyma17g31460.1
Length = 140
Score = 161 bits (408), Expect = 1e-39, Method: Compositional matrix adjust.
Identities = 84/115 (73%), Positives = 98/115 (85%), Gaps = 5/115 (4%)
Query: 247 GIVVGETAVIGNDVSILHSVTLGGTGKTSGDRHPKIGDGVLIGAGTCILGNIMVGAGAKI 306
G+VVGET +IGN+VSILH+VTLGGT K SGDRH KIGDGVLIG GTCILGNI +G GAKI
Sbjct: 30 GLVVGETTLIGNNVSILHNVTLGGTSKASGDRHLKIGDGVLIGPGTCILGNIKIGDGAKI 89
Query: 307 GAGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHTMDHTSNISEFYDYCV 360
GA VV+K+VPPRTT+VGNPA++VGGK NP+KLDK+PS TMDHTS + DY +
Sbjct: 90 GACFVVLKEVPPRTTIVGNPARVVGGKDNPIKLDKMPSFTMDHTS----WSDYVI 140
>Glyma11g08930.1
Length = 228
Score = 136 bits (343), Expect = 3e-32, Method: Compositional matrix adjust.
Identities = 68/143 (47%), Positives = 94/143 (65%)
Query: 96 WMKMKEEAVEDVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLPSTTLYDLFLG 155
W +++EA + EPILS++ IL+H LE +LA A +L + +L +T L D+F
Sbjct: 81 WNAVRDEAKLEAEKEPILSSFLYASILAHDCLEQALAFVAANRLQNPTLLATQLMDIFCN 140
Query: 156 VLEGDQGIMDSVKDDLKAVKERDPACISHVHCFLNFKGFLACQAHRVAHRLWSQGRKVLA 215
V+ D+ I S++ D++A K+RDPAC+S+ L KG+ A Q HRVAH LW QGRKVLA
Sbjct: 141 VILHDKAIQRSIRLDVQAFKDRDPACLSYCSALLYMKGYHALQVHRVAHTLWHQGRKVLA 200
Query: 216 FMIQNRVSEVFAVDIHPGAKIGS 238
+Q+RVSEVF VDIHPG + S
Sbjct: 201 LALQSRVSEVFGVDIHPGMPVSS 223
>Glyma18g22970.1
Length = 54
Score = 91.7 bits (226), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 46/54 (85%), Positives = 49/54 (90%), Gaps = 1/54 (1%)
Query: 307 GAGSVVIKDVPPRTTVVGNPAKLVGGK-NPVKLDKIPSHTMDHTSNISEFYDYC 359
G+GSVVIKDVPPRTTVVGNPAKLVGGK N VKLDKI TMDHTS+I+EFYDYC
Sbjct: 1 GSGSVVIKDVPPRTTVVGNPAKLVGGKNNSVKLDKISIFTMDHTSHIAEFYDYC 54
>Glyma15g20280.1
Length = 54
Score = 90.5 bits (223), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 45/54 (83%), Positives = 49/54 (90%), Gaps = 1/54 (1%)
Query: 307 GAGSVVIKDVPPRTTVVGNPAKLVGGKN-PVKLDKIPSHTMDHTSNISEFYDYC 359
G+GSVVIKDVPPRTTVVGNPAKLVGGKN VKLDKI TMDHTS+I++FYDYC
Sbjct: 1 GSGSVVIKDVPPRTTVVGNPAKLVGGKNSSVKLDKISIFTMDHTSHIADFYDYC 54
>Glyma04g34460.1
Length = 54
Score = 89.7 bits (221), Expect = 5e-18, Method: Compositional matrix adjust.
Identities = 45/54 (83%), Positives = 48/54 (88%), Gaps = 1/54 (1%)
Query: 307 GAGSVVIKDVPPRTTVVGNPAKLVGGKN-PVKLDKIPSHTMDHTSNISEFYDYC 359
GAGSVVIKDVPPRT VVGNPAKLVGGKN VKLDKI TMDHTS+I++FYDYC
Sbjct: 1 GAGSVVIKDVPPRTIVVGNPAKLVGGKNSSVKLDKISIFTMDHTSHIADFYDYC 54
>Glyma07g14310.1
Length = 54
Score = 87.8 bits (216), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 44/54 (81%), Positives = 47/54 (87%), Gaps = 1/54 (1%)
Query: 307 GAGSVVIKDVPPRTTVVGNPAKLVGGKN-PVKLDKIPSHTMDHTSNISEFYDYC 359
G GSVVIKDVPPRT VVGNPAKLVGGKN VKLDKI TMDHTS+I++FYDYC
Sbjct: 1 GVGSVVIKDVPPRTIVVGNPAKLVGGKNSSVKLDKISIFTMDHTSHIADFYDYC 54
>Glyma15g19610.1
Length = 54
Score = 81.6 bits (200), Expect = 1e-15, Method: Compositional matrix adjust.
Identities = 42/54 (77%), Positives = 46/54 (85%), Gaps = 1/54 (1%)
Query: 307 GAGSVVIKDVPPRTTVVGNPAKLVGGKNP-VKLDKIPSHTMDHTSNISEFYDYC 359
GAG VVIKDVPPRTTVVGN AKLVGGKN VKLDKI TM +TS+I++FYDYC
Sbjct: 1 GAGYVVIKDVPPRTTVVGNTAKLVGGKNGFVKLDKISIFTMHYTSHIADFYDYC 54
>Glyma03g08220.1
Length = 116
Score = 80.9 bits (198), Expect = 2e-15, Method: Compositional matrix adjust.
Identities = 37/60 (61%), Positives = 45/60 (75%)
Query: 209 QGRKVLAFMIQNRVSEVFAVDIHPGAKIGSGILLDHATGIVVGETAVIGNDVSILHSVTL 268
G KVLA +Q+R SEV VDIHP KIG GILLDH TG+V+GETA++GN VS++H T
Sbjct: 26 NGHKVLALALQSRASEVSGVDIHPTGKIGEGILLDHGTGVVIGETAMVGNKVSLMHRKTF 85
>Glyma12g21410.1
Length = 89
Score = 71.2 bits (173), Expect = 2e-12, Method: Composition-based stats.
Identities = 42/94 (44%), Positives = 51/94 (54%), Gaps = 6/94 (6%)
Query: 52 HSWGCSKSFTCQVPPLPVCKYGVKTLHTRSXXXXXXXXXXXXXXWMKMKEEAVEDVTVEP 111
H WG K+ V TL T S WM M+EEA VTVEP
Sbjct: 1 HCWGHPKTIKSNFN-----HNRVNTLQTSSIVEHVEADEVELDVWM-MQEEARLSVTVEP 54
Query: 112 ILSTYYDTFILSHRSLESSLANHLAVKLSSASLP 145
ILS YY+T L H+SL+++LANHLA+KLS+ SLP
Sbjct: 55 ILSNYYNTSFLYHKSLQTALANHLAIKLSNTSLP 88
>Glyma12g33100.1
Length = 201
Score = 51.6 bits (122), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 24/40 (60%), Positives = 31/40 (77%)
Query: 106 DVTVEPILSTYYDTFILSHRSLESSLANHLAVKLSSASLP 145
DV VEPILS YY+T LSH+SL+++LA HLA+K + LP
Sbjct: 41 DVIVEPILSNYYNTSTLSHKSLQTALAIHLAIKHGNTRLP 80