Miyakogusa Predicted Gene
- Lj0g3v0269109.1
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= Lj0g3v0269109.1 Non Chatacterized Hit- tr|B8AHG3|B8AHG3_ORYSI
Putative uncharacterized protein OS=Oryza sativa
subsp,49.44,4e-18,DUF829,Protein of unknown function DUF829, TMEM53;
UNCHARACTERIZED,Protein of unknown function
DUF82,NODE_31241_length_1394_cov_20.254663.path2.1
(345 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma01g37860.1 454 e-128
Glyma11g07480.1 447 e-126
Glyma20g23580.1 195 5e-50
Glyma10g43250.1 192 6e-49
Glyma10g12450.1 170 2e-42
Glyma01g29640.1 132 4e-31
Glyma11g24350.1 60 3e-09
>Glyma01g37860.1
Length = 377
Score = 454 bits (1169), Expect = e-128, Method: Compositional matrix adjust.
Identities = 240/345 (69%), Positives = 270/345 (78%), Gaps = 29/345 (8%)
Query: 1 MEAHLRIFN--PSILGRRLLPKATPYPSTSYQLVPRRRILPISSTLSRSSQPPFPPISDP 58
MEA L++ + PS LGR L K T +PS + PR +TL+R PP P +P
Sbjct: 2 MEAQLKVLSLSPSTLGRHFLCKTTSHPSLPF---PR-------ATLTR---PPIPSNWNP 48
Query: 59 RRF-FSSLTSSQNLNFSIPNGNNLNPFHSHSQ-GGGETVWNPASENGGDVGFYGGKDRVA 116
RRF FSSLTSS +LN PF SHSQ GG WNPASE + F GGKDRVA
Sbjct: 49 RRFLFSSLTSSPSLN----------PFLSHSQTAGGAFPWNPASETR-NAAFCGGKDRVA 97
Query: 117 TVVLLGWLGAQTKHLKRYVEWYNSRGFHAVTFIVDVKELLRFDLGDMLEQRISMFADNLI 176
TVVLLGWLGA+TKHLKRYVEWYNSRG +A+TF+VDVKELLRFDLG +LE RIS+ AD+L+
Sbjct: 98 TVVLLGWLGARTKHLKRYVEWYNSRGINALTFVVDVKELLRFDLGHVLETRISLLADHLV 157
Query: 177 SWVSSEEHDGRERCLIFHTFSNTGWFTYGSILARMLGSQDLMEKIKGCIVDSGGGEPFNP 236
SWVS EEHDGRERCL+FHTFSNTGWF YG ILARMLGS++LMEKIKGCIVDSGGGEPFNP
Sbjct: 158 SWVSREEHDGRERCLVFHTFSNTGWFVYGYILARMLGSEELMEKIKGCIVDSGGGEPFNP 217
Query: 237 QVWAAGFSAAILKKRSSSAQAAVEVGNKLEKETEINLSKIQQNEPSPIETVVLSLLEKLF 296
+VWAAGFSAAILKKR+S VEV KL+ ETE++LSK+QQNEPS IETVVLSLLEK F
Sbjct: 218 KVWAAGFSAAILKKRNSLG-PVVEVEGKLKSETEVSLSKVQQNEPSTIETVVLSLLEKFF 276
Query: 297 SFGLQLPDVKQRLTKVVNVLLDHQPCPQLYLYSTGDKVVPFQSIE 341
SF LQLPDV QRLT++VNVL+ HQPCPQLYLYST DKVVP QSIE
Sbjct: 277 SFVLQLPDVNQRLTRIVNVLMKHQPCPQLYLYSTADKVVPCQSIE 321
>Glyma11g07480.1
Length = 387
Score = 447 bits (1149), Expect = e-126, Method: Compositional matrix adjust.
Identities = 234/334 (70%), Positives = 261/334 (78%), Gaps = 20/334 (5%)
Query: 13 LGRRLLPKATPYPSTSYQLVPRRRILPISSTLSRSSQPPFPPISDPRRF-FSSLTSSQNL 71
LGR L K T + S L R IS+TL+R PP PP SDPRRF FSSLTSS N
Sbjct: 13 LGRHFLCKTTSHSHPSLSL---PRAASISATLTR---PPIPPNSDPRRFPFSSLTSSTN- 65
Query: 72 NFSIPNGNNLNPFHSHSQGGGET----VWNPASENGGDVGFYGGKDRVATVVLLGWLGAQ 127
PN N PF SHSQG G +WNPAS+ +GGKDRVATVVLLGWLGA+
Sbjct: 66 ---TPNNN---PFLSHSQGAGAGAGTFLWNPASDTP-YAALHGGKDRVATVVLLGWLGAR 118
Query: 128 TKHLKRYVEWYNSRGFHAVTFIVDVKELLRFDLGDMLEQRISMFADNLISWVSSEEHDGR 187
TKHLKRYVEWYNSRG +A+TF+VD+KELLRFDLG +LE RIS+ AD+L+SWVS EEHDGR
Sbjct: 119 TKHLKRYVEWYNSRGINALTFVVDIKELLRFDLGHVLETRISLLADHLVSWVSREEHDGR 178
Query: 188 ERCLIFHTFSNTGWFTYGSILARMLGSQDLMEKIKGCIVDSGGGEPFNPQVWAAGFSAAI 247
ERCL+FHTFSNTGWF YG ILARMLGS++LMEKIKGCIVDSGGGEPFNPQVWAAGFSAAI
Sbjct: 179 ERCLVFHTFSNTGWFVYGYILARMLGSEELMEKIKGCIVDSGGGEPFNPQVWAAGFSAAI 238
Query: 248 LKKRSSSAQAAVEVGNKLEKETEINLSKIQQNEPSPIETVVLSLLEKLFSFGLQLPDVKQ 307
LKKR S VEV KL+ ETE++L KI+Q E S IET+VLSLLEK FSF LQLPDV Q
Sbjct: 239 LKKRISLG-PIVEVEGKLKSETEVSLPKIEQKESSTIETLVLSLLEKFFSFVLQLPDVNQ 297
Query: 308 RLTKVVNVLLDHQPCPQLYLYSTGDKVVPFQSIE 341
RLT++VNVL+ HQPCPQLYLYST DKVVP+QSIE
Sbjct: 298 RLTRIVNVLMKHQPCPQLYLYSTADKVVPYQSIE 331
>Glyma20g23580.1
Length = 438
Score = 195 bits (496), Expect = 5e-50, Method: Compositional matrix adjust.
Identities = 106/231 (45%), Positives = 144/231 (62%), Gaps = 15/231 (6%)
Query: 117 TVVLLGWLGAQTKHLKRYVEWYNSRGFHAVTFIVDVKELLRFDLGDMLEQRISMFADNLI 176
VVLLGWLGA+ KHLK+Y EWY RGFH VTF + E+L + G EQ + + D+L
Sbjct: 164 VVVLLGWLGARQKHLKKYAEWYTLRGFHVVTFTFPMGEVLSYQPGGKAEQNVHLLVDHLA 223
Query: 177 SWVSSEEHDGRERCLIFHTFSNTGWFTYGSILARMLGSQD--LMEKIKGCIVDSGGGEPF 234
W+ E ++ L+FHTFSNTGW TYG IL +QD + E+IKGCIVDS
Sbjct: 224 EWLEGES----DKNLVFHTFSNTGWLTYGVILEH-FQNQDPTITERIKGCIVDSAPVAYP 278
Query: 235 NPQVWAAGFSAAILKKRSSSAQAAV---EVGNKLEKETEINLSKIQQNEPSPIETVVLSL 291
+PQVWA+GFSAA LKK S + + V + G K+ +E +L +P+ E +L +
Sbjct: 279 DPQVWASGFSAAFLKKNSVATKGRVFSDQSGIKVSIGSEDDLGL----KPALTEAALLLI 334
Query: 292 LEKLFSFGLQLPDVKQRLTKVVNVLLDHQP-CPQLYLYSTGDKVVPFQSIE 341
L+K F L LP V +RL+ V+++L QP CPQLY+YS+ D+V+P S+E
Sbjct: 335 LKKFFEIILDLPSVNRRLSDVMSMLSSKQPSCPQLYMYSSADRVIPADSVE 385
>Glyma10g43250.1
Length = 435
Score = 192 bits (487), Expect = 6e-49, Method: Compositional matrix adjust.
Identities = 103/229 (44%), Positives = 142/229 (62%), Gaps = 15/229 (6%)
Query: 118 VVLLGWLGAQTKHLKRYVEWYNSRGFHAVTFIVDVKELLRFDLGDMLEQRISMFADNLIS 177
VVLLGWLGA+ +HLK+Y EWY S+GFH VTF + E+L + G EQ + + D+L
Sbjct: 164 VVLLGWLGARQRHLKKYAEWYTSKGFHVVTFTFPMGEILSYQPGGKAEQNVHLLVDHLAD 223
Query: 178 WVSSEEHDGRERCLIFHTFSNTGWFTYGSILARMLGSQD--LMEKIKGCIVDSGGGEPFN 235
W+ E ++ L+FHTFSNTGW TYG IL L QD + +IKGCIVDS +
Sbjct: 224 WLEGES----DKNLVFHTFSNTGWLTYGVILEH-LQKQDPTITGRIKGCIVDSAPVAYPD 278
Query: 236 PQVWAAGFSAAILKKRSSSAQAAVEVGNKLEKETEINLSKIQQN--EPSPIETVVLSLLE 293
P VWA+GFSAA LKK S + + G E+ I +S ++ +P+ E +L +L+
Sbjct: 279 PWVWASGFSAAFLKKNSVATK-----GRVFSDESGIKVSIGSEDWRKPALTEAALLLILK 333
Query: 294 KLFSFGLQLPDVKQRLTKVVNVLLDHQP-CPQLYLYSTGDKVVPFQSIE 341
K F L LP V +RL+ V+++L QP CPQLY+YS+ D+V+P S+E
Sbjct: 334 KFFEIILDLPSVNRRLSDVMSMLSSRQPSCPQLYMYSSADRVIPADSVE 382
>Glyma10g12450.1
Length = 184
Score = 170 bits (431), Expect = 2e-42, Method: Compositional matrix adjust.
Identities = 95/181 (52%), Positives = 112/181 (61%), Gaps = 30/181 (16%)
Query: 91 GGETVWNPASENGGDVGFYGGKDRVATVVLLGWLGAQTKHLKRYVEWYNSRGFHAVTFIV 150
GG +WNPASE + F GGKD VA VVLL W+GA TK LKR+VEWYN + +TF+V
Sbjct: 2 GGAFLWNPASETQ-NATFCGGKDCVAIVVLLRWVGASTKQLKRHVEWYNLHDINTLTFVV 60
Query: 151 DVKELLRFDLGDMLEQRISMFADNLISWVSSEEHDGRERCLIFHTFSNTGWFTYGSILAR 210
DVKELLRFDL + E DG+E CLIFHTF N TYG ILAR
Sbjct: 61 DVKELLRFDL--------------------AHERDGKEHCLIFHTFRN----TYGYILAR 96
Query: 211 MLGSQDLMEKIKGCIVDSGGGEPFNPQVWAAGFSAAILKKRSSSAQAAVEVGNKLEKETE 270
+LGS++LM+KIKGCIVDSGGGEPFNPQ+ S LK+ + GN L T+
Sbjct: 97 ILGSEELMQKIKGCIVDSGGGEPFNPQL-----SIKFLKRIQTLQMKRKSTGNNLFPWTQ 151
Query: 271 I 271
I
Sbjct: 152 I 152
>Glyma01g29640.1
Length = 141
Score = 132 bits (333), Expect = 4e-31, Method: Compositional matrix adjust.
Identities = 74/141 (52%), Positives = 92/141 (65%), Gaps = 13/141 (9%)
Query: 108 FYGGKDRVATVVLLGWLGAQTKHLKRYVEWYNSRGFHAVTFIVDVKELLRFDLGDML--- 164
F GGKD VA VVLL WLGA++KHLKR+ EWYN G +A+TFIVDVK+LLRFDL +L
Sbjct: 3 FCGGKDCVAMVVLLRWLGARSKHLKRHFEWYNLHGINALTFIVDVKDLLRFDLSHLLLTN 62
Query: 165 --------EQRISMFADNLISWVSSEEHDGRERCLIFHTFSNTGWFTYGSILARMLGSQD 216
E +++F + E L FS+ +YG ILAR+LGS++
Sbjct: 63 NPNSFFSIENDLNLFPRRPPRLLGVSRGTRWEGTLF--GFSHFQQHSYGYILARILGSEE 120
Query: 217 LMEKIKGCIVDSGGGEPFNPQ 237
LMEKIKGCI+DSGGGEPFNP+
Sbjct: 121 LMEKIKGCIIDSGGGEPFNPR 141
>Glyma11g24350.1
Length = 130
Score = 60.5 bits (145), Expect = 3e-09, Method: Compositional matrix adjust.
Identities = 31/54 (57%), Positives = 38/54 (70%), Gaps = 2/54 (3%)
Query: 80 NLNPFHSHSQ-GGGETVWNPASENGGDVGFYGGKDRVATVVLLGWLGAQTKHLK 132
+LNPF SHSQ GG +WNPASE + F GGKD VA VVLL WLG++++ L
Sbjct: 4 SLNPFLSHSQAAGGAFLWNPASET-QNTAFCGGKDYVAMVVLLKWLGSRSQGLS 56