Miyakogusa Predicted Gene
- Lj6g3v0814380.1
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= Lj6g3v0814380.1 Non Chatacterized Hit- tr|I1JJF8|I1JJF8_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.6047
PE=,90.43,0,Pirin_C,Pirin, C-terminal domain; Pirin,Pirin, N-terminal
domain; SUBFAMILY NOT NAMED,NULL; PIRIN-RE,CUFF.58332.1
(299 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma02g46600.1 572 e-163
Glyma14g02060.1 570 e-163
Glyma08g43660.1 521 e-148
Glyma18g09500.1 469 e-132
Glyma08g47620.1 414 e-116
Glyma18g53860.1 408 e-114
Glyma08g43660.2 398 e-111
>Glyma02g46600.1
Length = 301
Score = 572 bits (1475), Expect = e-163, Method: Compositional matrix adjust.
Identities = 275/303 (90%), Positives = 287/303 (94%), Gaps = 6/303 (1%)
Query: 1 MPDQ----YLKEPRTVSRKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSVAAPA 56
MPDQ Y+ EPR V+RKFLARPQHEGVGAVVRRSIGRFELKYFDPF+VLDEFSV APA
Sbjct: 1 MPDQDICSYINEPRLVARKFLARPQHEGVGAVVRRSIGRFELKYFDPFIVLDEFSVTAPA 60
Query: 57 GFPDHPHRGFETVTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRGIVHSEMSAPSAQGT 116
GFPDHPHRGFETVTYMLQGA+THEDFEGHKGTIEAGDLQWMTAGRGIVHSEM P+AQGT
Sbjct: 61 GFPDHPHRGFETVTYMLQGAITHEDFEGHKGTIEAGDLQWMTAGRGIVHSEM--PAAQGT 118
Query: 117 QKGLQLWINLAAQHKMIEPRYQEMLSKDIAEAVKDGIKVRVIAGEALGIKSPIYTRTPTM 176
QKGLQLWINLA++HKMIEPRYQEMLSKDIAE + DGIKVRVIAGEALGIKSPIYTRTPTM
Sbjct: 119 QKGLQLWINLASKHKMIEPRYQEMLSKDIAETMIDGIKVRVIAGEALGIKSPIYTRTPTM 178
Query: 177 YLDFTLKPGAHLQQLIPKSWNAFVYILEGEGVFGNSKSQPTTPHHILLLGSGDGLEAWNK 236
YLDFTLKPGAHLQQ+IPKSWNAFVYILEGEGVFGN KSQP T HHILLLGSGDGLEAWNK
Sbjct: 179 YLDFTLKPGAHLQQIIPKSWNAFVYILEGEGVFGNQKSQPVTSHHILLLGSGDGLEAWNK 238
Query: 237 SSKALRFILVGGEPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWKSESAVS 296
SSK LRFILVGGEPLGE VVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHW+SESA+S
Sbjct: 239 SSKVLRFILVGGEPLGESVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWRSESAIS 298
Query: 297 LDF 299
LD+
Sbjct: 299 LDY 301
>Glyma14g02060.1
Length = 301
Score = 570 bits (1468), Expect = e-163, Method: Compositional matrix adjust.
Identities = 276/303 (91%), Positives = 286/303 (94%), Gaps = 6/303 (1%)
Query: 1 MPDQ----YLKEPRTVSRKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSVAAPA 56
MPDQ + EPR V+RKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSV APA
Sbjct: 1 MPDQDIFSCISEPRLVARKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSVTAPA 60
Query: 57 GFPDHPHRGFETVTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRGIVHSEMSAPSAQGT 116
GFPDHPHRGFETVTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRG+VHSEM P+AQGT
Sbjct: 61 GFPDHPHRGFETVTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRGLVHSEM--PAAQGT 118
Query: 117 QKGLQLWINLAAQHKMIEPRYQEMLSKDIAEAVKDGIKVRVIAGEALGIKSPIYTRTPTM 176
QKGLQLWINLA++HKMIEPRYQEMLSKDIAE + DGIKVRVIAGEALGIKSPIYTRTPTM
Sbjct: 119 QKGLQLWINLASKHKMIEPRYQEMLSKDIAETMIDGIKVRVIAGEALGIKSPIYTRTPTM 178
Query: 177 YLDFTLKPGAHLQQLIPKSWNAFVYILEGEGVFGNSKSQPTTPHHILLLGSGDGLEAWNK 236
YLDFTLKPGAHLQQLIPKSWNAFVYILEGEGVFGN KSQP T HHILLLG GDGLEAWNK
Sbjct: 179 YLDFTLKPGAHLQQLIPKSWNAFVYILEGEGVFGNQKSQPVTSHHILLLGPGDGLEAWNK 238
Query: 237 SSKALRFILVGGEPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWKSESAVS 296
SSK LRFILVGGEPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHW+SESA+S
Sbjct: 239 SSKVLRFILVGGEPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWRSESAIS 298
Query: 297 LDF 299
LD+
Sbjct: 299 LDY 301
>Glyma08g43660.1
Length = 298
Score = 521 bits (1343), Expect = e-148, Method: Compositional matrix adjust.
Identities = 250/291 (85%), Positives = 267/291 (91%), Gaps = 2/291 (0%)
Query: 6 LKEPRTVSRKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSVAAPAGFPDHPHRG 65
L EPR V+RKFLARPQ EGVG VVRRSIG FELKYFDPF+VLDEFSV APAGFPDHPHRG
Sbjct: 10 LNEPRLVARKFLARPQIEGVGTVVRRSIGGFELKYFDPFIVLDEFSVTAPAGFPDHPHRG 69
Query: 66 FETVTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRGIVHSEMSAPSAQGTQKGLQLWIN 125
FETVTYMLQGA+ HEDFEGHKGTIEAGDLQWMTAGRGIVHSEM P+AQGTQKGLQLWIN
Sbjct: 70 FETVTYMLQGAIMHEDFEGHKGTIEAGDLQWMTAGRGIVHSEM--PAAQGTQKGLQLWIN 127
Query: 126 LAAQHKMIEPRYQEMLSKDIAEAVKDGIKVRVIAGEALGIKSPIYTRTPTMYLDFTLKPG 185
LA+++KMIEPRYQE+LSKDIAEA DGIKVRVIAGEALGIKSPIYTRTPTM+LDF+LKPG
Sbjct: 128 LASKYKMIEPRYQEVLSKDIAEAEDDGIKVRVIAGEALGIKSPIYTRTPTMFLDFSLKPG 187
Query: 186 AHLQQLIPKSWNAFVYILEGEGVFGNSKSQPTTPHHILLLGSGDGLEAWNKSSKALRFIL 245
HLQQ IP SWNAFVYILEGEG+FGN SQP+ HHILLLG GDGLEAWNKSSK LRFIL
Sbjct: 188 GHLQQPIPNSWNAFVYILEGEGIFGNMISQPSNSHHILLLGPGDGLEAWNKSSKLLRFIL 247
Query: 246 VGGEPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWKSESAVS 296
VG EPLGEP+VQFGPFVMN+QEEIDQTIDDFEN+ NGFEKARHW SES ++
Sbjct: 248 VGAEPLGEPLVQFGPFVMNSQEEIDQTIDDFENFANGFEKARHWTSESQIN 298
>Glyma18g09500.1
Length = 328
Score = 469 bits (1208), Expect = e-132, Method: Compositional matrix adjust.
Identities = 236/320 (73%), Positives = 259/320 (80%), Gaps = 31/320 (9%)
Query: 5 YLKEPRTVSRKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFS--------VAAPA 56
+L EPR V+RKFLARPQ EGVGAVVRRSIGRFELKYFDPF+VLDEFS +A A
Sbjct: 9 FLNEPRLVARKFLARPQIEGVGAVVRRSIGRFELKYFDPFIVLDEFSGESECVCLIAPKA 68
Query: 57 GFPD-------HPHRGFETVTYMLQ--------GAVTHEDFEGHKGTIEAGDLQWMTAGR 101
G+ H + + + Y L G + HEDFEGHKGTIEAGDLQWMTAGR
Sbjct: 69 GYISKKTRMTPHVNVFYLLLEYQLSYYQLVPKVGVIMHEDFEGHKGTIEAGDLQWMTAGR 128
Query: 102 GIVHSEM--------SAPSAQGTQKGLQLWINLAAQHKMIEPRYQEMLSKDIAEAVKDGI 153
GIVHSEM P AQGTQ+GLQLWINLA+++KMIEPRYQE+LSKDIAEA DGI
Sbjct: 129 GIVHSEMPGAQGIHSKMPGAQGTQRGLQLWINLASKYKMIEPRYQEVLSKDIAEAEDDGI 188
Query: 154 KVRVIAGEALGIKSPIYTRTPTMYLDFTLKPGAHLQQLIPKSWNAFVYILEGEGVFGNSK 213
KVRVIAGEALGIKSPIYTRTPTM+LDFTLKPG HLQQ IPKSWNAFVY+LEGEG+FGN K
Sbjct: 189 KVRVIAGEALGIKSPIYTRTPTMFLDFTLKPGGHLQQPIPKSWNAFVYVLEGEGIFGNMK 248
Query: 214 SQPTTPHHILLLGSGDGLEAWNKSSKALRFILVGGEPLGEPVVQFGPFVMNTQEEIDQTI 273
SQP+ HHILLLG+GDGLEAWN+SSK LRFILVG EPLGEP+VQFGPFVMNTQEEIDQTI
Sbjct: 249 SQPSNSHHILLLGAGDGLEAWNQSSKLLRFILVGAEPLGEPLVQFGPFVMNTQEEIDQTI 308
Query: 274 DDFENYTNGFEKARHWKSES 293
DDFEN+ NGFEKARHW+SES
Sbjct: 309 DDFENFANGFEKARHWRSES 328
>Glyma08g47620.1
Length = 325
Score = 414 bits (1065), Expect = e-116, Method: Compositional matrix adjust.
Identities = 191/284 (67%), Positives = 229/284 (80%), Gaps = 2/284 (0%)
Query: 9 PRTVSRKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSVAAPAGFPDHPHRGFET 68
PR V +K LA+ QHEG GAVVRR IGR ELK DPFL+LD FSV+ PAGFPDHPHRGFET
Sbjct: 44 PRLVLKKVLAKSQHEGDGAVVRRGIGRSELKNLDPFLMLDHFSVSPPAGFPDHPHRGFET 103
Query: 69 VTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRGIVHSEMSAPSAQGTQKGLQLWINLAA 128
VTYML+G +TH+DF GHKGTI AGD+QWMTAGRGI+HSEM P+ KGLQLWINL++
Sbjct: 104 VTYMLEGGITHQDFAGHKGTIRAGDVQWMTAGRGIIHSEM--PAEANNNKGLQLWINLSS 161
Query: 129 QHKMIEPRYQEMLSKDIAEAVKDGIKVRVIAGEALGIKSPIYTRTPTMYLDFTLKPGAHL 188
+ KMIEP YQE+ S++IA A KDG++VRVIAGEA+G+ SP+YTRTPTMYL F++ P
Sbjct: 162 RDKMIEPNYQELPSENIATAEKDGVEVRVIAGEAMGVHSPVYTRTPTMYLVFSMMPKTQW 221
Query: 189 QQLIPKSWNAFVYILEGEGVFGNSKSQPTTPHHILLLGSGDGLEAWNKSSKALRFILVGG 248
Q IP+SWNAFVYI+EGEGVFG+ S PT PHH+L+L GDGL WN SSK LRF+L+GG
Sbjct: 222 NQSIPESWNAFVYIIEGEGVFGSPTSSPTVPHHVLVLTQGDGLSVWNNSSKPLRFVLIGG 281
Query: 249 EPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWKSE 292
+PL EPVVQ GPFVMNTQ EI+ TI+D+ NGFE +++W S+
Sbjct: 282 QPLNEPVVQHGPFVMNTQSEIENTIEDYHYGRNGFEMSKYWMSQ 325
>Glyma18g53860.1
Length = 324
Score = 408 bits (1048), Expect = e-114, Method: Compositional matrix adjust.
Identities = 187/284 (65%), Positives = 226/284 (79%), Gaps = 2/284 (0%)
Query: 9 PRTVSRKFLARPQHEGVGAVVRRSIGRFELKYFDPFLVLDEFSVAAPAGFPDHPHRGFET 68
PR V +K LA+ QHEG GAVVRR IGR ELK DPFL+LD FSV+ PAGFPDHPHRGFET
Sbjct: 42 PRLVLKKVLAKSQHEGDGAVVRRGIGRSELKNLDPFLMLDHFSVSPPAGFPDHPHRGFET 101
Query: 69 VTYMLQGAVTHEDFEGHKGTIEAGDLQWMTAGRGIVHSEMSAPSAQGTQKGLQLWINLAA 128
VTYML+G +TH+DF GHKGTI GD+QWMTAGRGI+HSEM P+ KGLQLWINL++
Sbjct: 102 VTYMLEGGITHQDFAGHKGTIRKGDVQWMTAGRGIIHSEM--PAEANNNKGLQLWINLSS 159
Query: 129 QHKMIEPRYQEMLSKDIAEAVKDGIKVRVIAGEALGIKSPIYTRTPTMYLDFTLKPGAHL 188
+ KM+EP YQE+ S++I A KDG++VRVIAGEA+G+ SP+YTRTPTMYL F + PG
Sbjct: 160 RDKMMEPNYQELPSENIPRAEKDGVEVRVIAGEAMGVHSPVYTRTPTMYLVFCMMPGTQW 219
Query: 189 QQLIPKSWNAFVYILEGEGVFGNSKSQPTTPHHILLLGSGDGLEAWNKSSKALRFILVGG 248
Q IP+SWNAFVY +EGEGVFG S PT HH+L+L GDGL WN SSK LRF+L+GG
Sbjct: 220 HQRIPESWNAFVYTIEGEGVFGCPSSSPTVAHHVLVLSQGDGLSVWNNSSKPLRFVLIGG 279
Query: 249 EPLGEPVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWKSE 292
+PL EPVVQ+GPFVMNTQ EI++TI+D+ NGFE +++W S+
Sbjct: 280 QPLNEPVVQYGPFVMNTQSEIEKTIEDYHYGRNGFEMSKYWMSQ 323
>Glyma08g43660.2
Length = 224
Score = 398 bits (1022), Expect = e-111, Method: Compositional matrix adjust.
Identities = 190/223 (85%), Positives = 205/223 (91%), Gaps = 2/223 (0%)
Query: 74 QGAVTHEDFEGHKGTIEAGDLQWMTAGRGIVHSEMSAPSAQGTQKGLQLWINLAAQHKMI 133
QGA+ HEDFEGHKGTIEAGDLQWMTAGRGIVHSEM P+AQGTQKGLQLWINLA+++KMI
Sbjct: 4 QGAIMHEDFEGHKGTIEAGDLQWMTAGRGIVHSEM--PAAQGTQKGLQLWINLASKYKMI 61
Query: 134 EPRYQEMLSKDIAEAVKDGIKVRVIAGEALGIKSPIYTRTPTMYLDFTLKPGAHLQQLIP 193
EPRYQE+LSKDIAEA DGIKVRVIAGEALGIKSPIYTRTPTM+LDF+LKPG HLQQ IP
Sbjct: 62 EPRYQEVLSKDIAEAEDDGIKVRVIAGEALGIKSPIYTRTPTMFLDFSLKPGGHLQQPIP 121
Query: 194 KSWNAFVYILEGEGVFGNSKSQPTTPHHILLLGSGDGLEAWNKSSKALRFILVGGEPLGE 253
SWNAFVYILEGEG+FGN SQP+ HHILLLG GDGLEAWNKSSK LRFILVG EPLGE
Sbjct: 122 NSWNAFVYILEGEGIFGNMISQPSNSHHILLLGPGDGLEAWNKSSKLLRFILVGAEPLGE 181
Query: 254 PVVQFGPFVMNTQEEIDQTIDDFENYTNGFEKARHWKSESAVS 296
P+VQFGPFVMN+QEEIDQTIDDFEN+ NGFEKARHW SES ++
Sbjct: 182 PLVQFGPFVMNSQEEIDQTIDDFENFANGFEKARHWTSESQIN 224