Miyakogusa Predicted Gene
- Lj2g3v2088070.1
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= Lj2g3v2088070.1 Non Chatacterized Hit- tr|I3S704|I3S704_LOTJA
Uncharacterized protein OS=Lotus japonicus PE=2 SV=1,100,0,WD40
repeat-like,WD40-repeat-containing domain; WD40,WD40 repeat; no
description,WD40/YVTN repeat-li,CUFF.38545.1
(326 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma11g02070.1 570 e-163
Glyma01g43410.1 564 e-161
Glyma18g10340.1 68 1e-11
Glyma08g43250.2 66 4e-11
Glyma08g43250.1 66 4e-11
Glyma08g43390.1 65 8e-11
Glyma18g10170.1 62 7e-10
>Glyma11g02070.1
Length = 326
Score = 570 bits (1470), Expect = e-163, Method: Compositional matrix adjust.
Identities = 278/326 (85%), Positives = 292/326 (89%)
Query: 1 MAKEVLTLDNGTTCSSWNYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNI 60
MAKE+LTLDNGTTC+SWNYSGTRLAAGSADGTLSI V EGNI
Sbjct: 1 MAKELLTLDNGTTCTSWNYSGTRLAAGSADGTLSIFDSREPPSSSSLRSTFKSRVLEGNI 60
Query: 61 VNIVWVPPAYGDAVACISVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISL 120
V IVW+PP YGDAVACIS DGIVSL EEV EDSQ LQWK+CK FG+SS KVLDVQFGISL
Sbjct: 61 VKIVWIPPEYGDAVACISADGIVSLWEEVAEDSQSLQWKMCKSFGNSSSKVLDVQFGISL 120
Query: 121 ASLKMVAAYSDGHMKVFELLDPLELKNWQLQAEFQNVIESVSSFGKAVCLSASISFNPQN 180
ASLKMVAAYSDG+++VFEL DPLEL+NWQLQAEFQNVIESVSSFGKA CLSASIS+NPQ
Sbjct: 121 ASLKMVAAYSDGNVRVFELSDPLELRNWQLQAEFQNVIESVSSFGKASCLSASISWNPQK 180
Query: 181 GGSQESSFLVGFNSNTSELNSAKVWEFDQAHQRWLPVAELAVPEDKGDQVYAVAWAPNIG 240
GGSQESSFLVGFNSNT ELNS+KVWEFDQAHQRWLPVAELA+PEDKGDQVYAVAWAPNIG
Sbjct: 181 GGSQESSFLVGFNSNTPELNSSKVWEFDQAHQRWLPVAELALPEDKGDQVYAVAWAPNIG 240
Query: 241 RTYEIIAVATHKGLAIWHLGLNPDHDGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTG 300
R YEIIAVATHKGLAIWHLGLNPDHDGRLPVERVA+LSGH+GMVWQMEWDMSGMTLATTG
Sbjct: 241 RPYEIIAVATHKGLAIWHLGLNPDHDGRLPVERVALLSGHEGMVWQMEWDMSGMTLATTG 300
Query: 301 QDGMVRLWQSNLNGVWHQQAAFEPTS 326
DGMVRLWQSNLNGVWHQQAAFEPTS
Sbjct: 301 HDGMVRLWQSNLNGVWHQQAAFEPTS 326
>Glyma01g43410.1
Length = 326
Score = 564 bits (1453), Expect = e-161, Method: Compositional matrix adjust.
Identities = 274/326 (84%), Positives = 290/326 (88%)
Query: 1 MAKEVLTLDNGTTCSSWNYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNI 60
MAKE+LTLDNGTTC+SWNYSGTRLAAGS DGTLSI V EGNI
Sbjct: 1 MAKELLTLDNGTTCTSWNYSGTRLAAGSVDGTLSIFDSRDPPSSSSLHSTFKSRVLEGNI 60
Query: 61 VNIVWVPPAYGDAVACISVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISL 120
V IVW+PP YGDAVACIS DGIVSL EEV EDSQ LQWK+CK FG+SS KVLD QFGISL
Sbjct: 61 VKIVWIPPEYGDAVACISADGIVSLWEEVAEDSQSLQWKMCKSFGNSSSKVLDAQFGISL 120
Query: 121 ASLKMVAAYSDGHMKVFELLDPLELKNWQLQAEFQNVIESVSSFGKAVCLSASISFNPQN 180
SLKMVAAYSDG+++VFEL DPLEL+NWQLQAEFQNVIESVSSFGKA CLSASIS+NPQ
Sbjct: 121 TSLKMVAAYSDGNVRVFELSDPLELRNWQLQAEFQNVIESVSSFGKASCLSASISWNPQK 180
Query: 181 GGSQESSFLVGFNSNTSELNSAKVWEFDQAHQRWLPVAELAVPEDKGDQVYAVAWAPNIG 240
GGSQESSFLVGFNSNTSELNS+KVWEFDQAHQRWLPVAELA+PE+KGDQ+YAVAWAPNIG
Sbjct: 181 GGSQESSFLVGFNSNTSELNSSKVWEFDQAHQRWLPVAELALPEEKGDQLYAVAWAPNIG 240
Query: 241 RTYEIIAVATHKGLAIWHLGLNPDHDGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTG 300
R YEIIAVATHKGLAIWHLGLNPDHDGRLPVERVA+LSGH+GMVWQMEWDMSGMTLATTG
Sbjct: 241 RPYEIIAVATHKGLAIWHLGLNPDHDGRLPVERVALLSGHEGMVWQMEWDMSGMTLATTG 300
Query: 301 QDGMVRLWQSNLNGVWHQQAAFEPTS 326
DGMVRLWQSNLNGVWHQQAAFEPTS
Sbjct: 301 HDGMVRLWQSNLNGVWHQQAAFEPTS 326
>Glyma18g10340.1
Length = 301
Score = 68.2 bits (165), Expect = 1e-11, Method: Compositional matrix adjust.
Identities = 77/317 (24%), Positives = 121/317 (38%), Gaps = 45/317 (14%)
Query: 18 NYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNIVNIVWVPPAYGDAVACI 77
+Y G RLA S+D T+ I H+G + +VW P +G +A
Sbjct: 20 DYYGKRLATASSDHTIKIIGVSNTASQHLATLTG----HQGPVWQVVWAHPKFGSLLASC 75
Query: 78 SVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISLASLKMVAAYSDGHMKVF 137
S DG V + +E ++ +W F V V + L + SDG++ VF
Sbjct: 76 SFDGRVIVWKEGNQN----EWTQAHVFDDHKSSVNSVAWAPHELGLCLACGSSDGNISVF 131
Query: 138 ELLDPLELKNWQLQAEFQNVIESVS---SFGKAVCLSASISFNPQ---NGGSQESSFLVG 191
++ + SVS S + A + Q +GG
Sbjct: 132 TARADGGWDTARIDQAHPVGVTSVSWAPSMAPGALVGAGLLDPVQKLCSGGCD------- 184
Query: 192 FNSNTSELNSAKVWEFDQAHQRW--LPVAELAVPEDKGDQVYAVAWAPNIGRTYEIIAVA 249
N+ KVW+ + + P ++ D V VAWAPN+G IA A
Sbjct: 185 --------NTVKVWKLNNGLWKMDCFPALQMHT-----DWVRDVAWAPNLGLPKSTIASA 231
Query: 250 THKG-LAIWHLGLNPDH-DGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTGQDGMVRL 307
+ G + IW + D +G+ VL+ VW++ W ++G LA + V L
Sbjct: 232 SQDGKVIIWTVAKEGDQWEGK-------VLNDFKTPVWRVSWSLTGNILAVADGNNNVTL 284
Query: 308 WQSNLNGVWHQQAAFEP 324
W+ ++G W Q EP
Sbjct: 285 WKEAVDGEWQQVTTVEP 301
>Glyma08g43250.2
Length = 301
Score = 66.2 bits (160), Expect = 4e-11, Method: Compositional matrix adjust.
Identities = 76/317 (23%), Positives = 121/317 (38%), Gaps = 45/317 (14%)
Query: 18 NYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNIVNIVWVPPAYGDAVACI 77
+Y G RLA S+D T+ I H+G + +VW P +G +A
Sbjct: 20 DYYGKRLATASSDHTIKIIGVSNSASQHLATLTG----HQGPVWQVVWAHPKFGSLLASC 75
Query: 78 SVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISLASLKMVAAYSDGHMKVF 137
S DG V + +E ++ +W F V V + L + SDG++ V
Sbjct: 76 SYDGRVIVWKEGNQN----EWTQAHVFDDHKSSVNSVAWAPHELGLCLACGSSDGNISVL 131
Query: 138 ELLDPLELKNWQLQAEFQNVIESVS---SFGKAVCLSASISFNPQ---NGGSQESSFLVG 191
++ + SVS S + A + Q +GG
Sbjct: 132 TARADGGWDTARIDQAHPVGVTSVSWAPSMAPGALVGAGLLDPVQKLCSGGCD------- 184
Query: 192 FNSNTSELNSAKVWEFDQAHQRW--LPVAELAVPEDKGDQVYAVAWAPNIGRTYEIIAVA 249
N+ KVW+ + + P ++ D V VAWAPN+G IA A
Sbjct: 185 --------NTVKVWKLNNGLWKMDCFPALQMHT-----DWVRDVAWAPNLGLPKSTIASA 231
Query: 250 THKG-LAIWHLGLNPDH-DGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTGQDGMVRL 307
+ G + IW + D +G+ VL+ + VW++ W ++G LA + V L
Sbjct: 232 SQDGKVIIWTVAKEGDQWEGK-------VLNDFNTPVWRVSWSLTGNILAVADGNNNVTL 284
Query: 308 WQSNLNGVWHQQAAFEP 324
W+ ++G W Q EP
Sbjct: 285 WKEAVDGEWQQVTTVEP 301
>Glyma08g43250.1
Length = 301
Score = 66.2 bits (160), Expect = 4e-11, Method: Compositional matrix adjust.
Identities = 76/317 (23%), Positives = 121/317 (38%), Gaps = 45/317 (14%)
Query: 18 NYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNIVNIVWVPPAYGDAVACI 77
+Y G RLA S+D T+ I H+G + +VW P +G +A
Sbjct: 20 DYYGKRLATASSDHTIKIIGVSNSASQHLATLTG----HQGPVWQVVWAHPKFGSLLASC 75
Query: 78 SVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISLASLKMVAAYSDGHMKVF 137
S DG V + +E ++ +W F V V + L + SDG++ V
Sbjct: 76 SYDGRVIVWKEGNQN----EWTQAHVFDDHKSSVNSVAWAPHELGLCLACGSSDGNISVL 131
Query: 138 ELLDPLELKNWQLQAEFQNVIESVS---SFGKAVCLSASISFNPQ---NGGSQESSFLVG 191
++ + SVS S + A + Q +GG
Sbjct: 132 TARADGGWDTARIDQAHPVGVTSVSWAPSMAPGALVGAGLLDPVQKLCSGGCD------- 184
Query: 192 FNSNTSELNSAKVWEFDQAHQRW--LPVAELAVPEDKGDQVYAVAWAPNIGRTYEIIAVA 249
N+ KVW+ + + P ++ D V VAWAPN+G IA A
Sbjct: 185 --------NTVKVWKLNNGLWKMDCFPALQMHT-----DWVRDVAWAPNLGLPKSTIASA 231
Query: 250 THKG-LAIWHLGLNPDH-DGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTGQDGMVRL 307
+ G + IW + D +G+ VL+ + VW++ W ++G LA + V L
Sbjct: 232 SQDGKVIIWTVAKEGDQWEGK-------VLNDFNTPVWRVSWSLTGNILAVADGNNNVTL 284
Query: 308 WQSNLNGVWHQQAAFEP 324
W+ ++G W Q EP
Sbjct: 285 WKEAVDGEWQQVTTVEP 301
>Glyma08g43390.1
Length = 301
Score = 65.5 bits (158), Expect = 8e-11, Method: Compositional matrix adjust.
Identities = 78/319 (24%), Positives = 122/319 (38%), Gaps = 49/319 (15%)
Query: 18 NYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNIVNIVWVPPAYGDAVACI 77
+Y G RLA S+D T+ I H+G + + W P +G +A
Sbjct: 20 DYYGKRLATASSDHTIKIIGVSNTASQHLATLTG----HQGPVWQVAWAHPKFGSLLASC 75
Query: 78 SVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISLASLKMVAAYSDGHMKVF 137
S DG V + +E ++ +W F V V + L + SDG++ V
Sbjct: 76 SYDGRVIVWKEGNQN----EWTQAHVFDDHKSSVNSVAWAPHELGLCLACGSSDGNISV- 130
Query: 138 ELLDPLELKNWQLQAEFQNVIESVSSFGKAVCLSASISFNPQNGGSQESSFLVGFN--SN 195
L A ++V S+S+ P S LVG
Sbjct: 131 ------------LTARADGGWDTVRIDQAHPVGVTSVSWAP----SMAPGALVGAGLLDP 174
Query: 196 TSEL------NSAKVWEFDQAHQRW--LPVAELAVPEDKGDQVYAVAWAPNIGRTYEIIA 247
+L N+ KVW+ + + P ++ D V VAWAPN+G IA
Sbjct: 175 VQKLCSGGCDNTVKVWKLNNGLWKMDCFPALQMHT-----DWVRDVAWAPNLGLPKSTIA 229
Query: 248 VATHKG-LAIWHLGLNPDH-DGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTGQDGMV 305
A+ G + IW + D +G+ VL+ + VW++ W ++G LA + V
Sbjct: 230 SASQDGKVIIWTVAKEGDQWEGK-------VLNDFNTPVWRVSWSLTGNILAVADGNNNV 282
Query: 306 RLWQSNLNGVWHQQAAFEP 324
LW+ ++G W Q EP
Sbjct: 283 TLWKEAVDGEWQQVTTVEP 301
>Glyma18g10170.1
Length = 346
Score = 62.4 bits (150), Expect = 7e-10, Method: Compositional matrix adjust.
Identities = 75/317 (23%), Positives = 122/317 (38%), Gaps = 45/317 (14%)
Query: 18 NYSGTRLAAGSADGTLSIXXXXXXXXXXXXXXXXXXXVHEGNIVNIVWVPPAYGDAVACI 77
+Y G RLA S+D T+ I H+G + + W P +G +A
Sbjct: 65 DYYGKRLATASSDHTIKIIGVSNTASQHLATLTG----HQGPVWQVAWAHPKFGSLLASC 120
Query: 78 SVDGIVSLLEEVVEDSQPLQWKICKCFGSSSDKVLDVQFGISLASLKMVAAYSDGHMKVF 137
S DG V + +E ++ +W F V V + L + SDG++ V
Sbjct: 121 SYDGRVIVWKEGNQN----EWTQAHVFDDHKSSVNSVAWVPHELGLCLACGSSDGNISVV 176
Query: 138 ELLDPLELKNWQLQAEFQNVIESVSSFGKAVCLSASISFNPQNGGSQESSFLVGFNSNTS 197
++ + SVS + S++ GG G
Sbjct: 177 TARADGGWDTARIDQAHPVGVTSVS-------WAPSMAPGALVGG--------GLLDPVQ 221
Query: 198 EL------NSAKVWEFDQAHQRW--LPVAELAVPEDKGDQVYAVAWAPNIGRTYEIIAVA 249
+L N+ KVW+ + + P ++ + D V VAWAPN+G IA A
Sbjct: 222 KLCSGGCDNTVKVWKLNNGLWKMDCFPALQMHM-----DWVRDVAWAPNLGLPKSTIASA 276
Query: 250 THKG-LAIWHLGLNPDH-DGRLPVERVAVLSGHDGMVWQMEWDMSGMTLATTGQDGMVRL 307
+ G + IW + + D +G+ VL+ VW++ W ++G LA + V L
Sbjct: 277 SQDGKVIIWTVAKDGDQWEGK-------VLNDFKTPVWRVSWSLTGNILAVADGNNNVTL 329
Query: 308 WQSNLNGVWHQQAAFEP 324
W+ ++G W Q EP
Sbjct: 330 WKEAVDGEWQQVTTVEP 346