Miyakogusa Predicted Gene
- Lj0g3v0263629.1
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= Lj0g3v0263629.1 Non Chatacterized Hit- tr|I1LS05|I1LS05_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.6632
PE=,72.33,0,Six-hairpin glycosidases,Six-hairpin glycosidase-like;
LANCSUPER,Lanthionine synthetase C-like; LANC,gene.g20494.t1.1
(325 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma12g12330.1 450 e-127
Glyma12g35060.1 403 e-112
Glyma12g12330.2 275 4e-74
Glyma18g01890.1 254 1e-67
Glyma11g37990.2 245 6e-65
Glyma11g37990.1 245 6e-65
Glyma18g01890.2 167 2e-41
Glyma13g35490.1 65 1e-10
>Glyma12g12330.1
Length = 414
Score = 450 bits (1158), Expect = e-127, Method: Compositional matrix adjust.
Identities = 217/300 (72%), Positives = 250/300 (83%), Gaps = 1/300 (0%)
Query: 27 SSSLPRDVTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKIVVPEDYPDDLKLGRAG 86
+S+ RDVTF+CGRAGVC+LGAVAA + G+ + YYL QF KI + +D PD+L GR G
Sbjct: 115 ASARSRDVTFICGRAGVCSLGAVAAKHAGDDESLKYYLAQFKKIKLSKDLPDELLYGRVG 174
Query: 87 LLWACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTKEICPLMFELYGEKCWGASHGL 146
LWACLFLNKH+G VP YTA +VDE+IKNGRALG K CPLMFE YGEK WGA+HGL
Sbjct: 175 FLWACLFLNKHLGLGTVPSNYTAVVVDEVIKNGRALGRKGRCPLMFEWYGEKYWGAAHGL 234
Query: 147 AGIMHVLMDMKLKPDELEDVKGTLKYMIRNRLPSGNYPISEVDR-NDEFVSWCHGAPGIA 205
AGIMHVLMDM+LKPDELEDV+GTLKYMI NR SGNYP+SE DR +D V WCHGAPG+A
Sbjct: 235 AGIMHVLMDMELKPDELEDVRGTLKYMISNRFRSGNYPVSEDDRKSDALVHWCHGAPGMA 294
Query: 206 ITLVKAAKVFGDKEFLDAAMQAAKVVWEQGLHKRVGICHGISGNAYVFLSLYQHTRDVQY 265
+TLVKAAKVFGDKEFLDAA++AA+VVW +GL K+VGICHGISGNAYVFLSLYQ T DV+Y
Sbjct: 295 LTLVKAAKVFGDKEFLDAAIEAAEVVWNRGLLKKVGICHGISGNAYVFLSLYQLTGDVKY 354
Query: 266 LDMARRFTCSVLDRAHKEIPRGEMHGGDQPYSLFEGIGGLAYLLLDMVDPTQSKFPAYEL 325
L A+ F C +LDRAHK I RGEMHGGD+PYS+FEG+GG+AYL LDM DP+ SKFPAYEL
Sbjct: 355 LYRAKAFACFLLDRAHKLISRGEMHGGDRPYSMFEGLGGMAYLFLDMSDPSLSKFPAYEL 414
>Glyma12g35060.1
Length = 405
Score = 403 bits (1035), Expect = e-112, Method: Compositional matrix adjust.
Identities = 190/292 (65%), Positives = 227/292 (77%)
Query: 34 VTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKIVVPEDYPDDLKLGRAGLLWACLF 93
VTF+CGRAGVCALGAV A + G+ +L YYL QF +I +P + P +L GRAG LWAC F
Sbjct: 114 VTFICGRAGVCALGAVIAKHTGDERLLDYYLRQFKEIAIPRESPYELLYGRAGYLWACSF 173
Query: 94 LNKHIGQDIVPYRYTARLVDEIIKNGRALGTKEICPLMFELYGEKCWGASHGLAGIMHVL 153
LNKHIG + +P + +VDE+I GR LG K CPLM+E +G+K WGA+HGLAGIMH L
Sbjct: 174 LNKHIGNNTIPTTHMRSIVDEVIMAGRHLGRKGRCPLMYEWHGKKYWGAAHGLAGIMHAL 233
Query: 154 MDMKLKPDELEDVKGTLKYMIRNRLPSGNYPISEVDRNDEFVSWCHGAPGIAITLVKAAK 213
MDM+LKPDE+EDVKGTL+YMI NRLPSGNYP SE ND V WCHGAPG+ +TLVKAA+
Sbjct: 234 MDMELKPDEVEDVKGTLRYMINNRLPSGNYPSSEGSENDRLVHWCHGAPGLTLTLVKAAE 293
Query: 214 VFGDKEFLDAAMQAAKVVWEQGLHKRVGICHGISGNAYVFLSLYQHTRDVQYLDMARRFT 273
VFGDKEF AA+ A +VVW++GL KRVGICHGISGN YVFLSLY+ T + +YL A+ F
Sbjct: 294 VFGDKEFSQAAVDAGEVVWKRGLLKRVGICHGISGNTYVFLSLYRMTGNEEYLYRAKAFA 353
Query: 274 CSVLDRAHKEIPRGEMHGGDQPYSLFEGIGGLAYLLLDMVDPTQSKFPAYEL 325
C +LDRA I G+MHGGD+PYSLFEG+GG+AY LDMVDP +KFP YEL
Sbjct: 354 CFLLDRAQNLISEGKMHGGDRPYSLFEGLGGMAYTCLDMVDPQMAKFPGYEL 405
>Glyma12g12330.2
Length = 317
Score = 275 bits (703), Expect = 4e-74, Method: Compositional matrix adjust.
Identities = 133/192 (69%), Positives = 154/192 (80%), Gaps = 1/192 (0%)
Query: 27 SSSLPRDVTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKIVVPEDYPDDLKLGRAG 86
+S+ RDVTF+CGRAGVC+LGAVAA + G+ + YYL QF KI + +D PD+L GR G
Sbjct: 115 ASARSRDVTFICGRAGVCSLGAVAAKHAGDDESLKYYLAQFKKIKLSKDLPDELLYGRVG 174
Query: 87 LLWACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTKEICPLMFELYGEKCWGASHGL 146
LWACLFLNKH+G VP YTA +VDE+IKNGRALG K CPLMFE YGEK WGA+HGL
Sbjct: 175 FLWACLFLNKHLGLGTVPSNYTAVVVDEVIKNGRALGRKGRCPLMFEWYGEKYWGAAHGL 234
Query: 147 AGIMHVLMDMKLKPDELEDVKGTLKYMIRNRLPSGNYPISEVDR-NDEFVSWCHGAPGIA 205
AGIMHVLMDM+LKPDELEDV+GTLKYMI NR SGNYP+SE DR +D V WCHGAPG+A
Sbjct: 235 AGIMHVLMDMELKPDELEDVRGTLKYMISNRFRSGNYPVSEDDRKSDALVHWCHGAPGMA 294
Query: 206 ITLVKAAKVFGD 217
+TLVKAAKV +
Sbjct: 295 LTLVKAAKVIDN 306
>Glyma18g01890.1
Length = 411
Score = 254 bits (648), Expect = 1e-67, Method: Compositional matrix adjust.
Identities = 143/309 (46%), Positives = 191/309 (61%), Gaps = 23/309 (7%)
Query: 32 RDVTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKI-------VVPED----YPDDL 80
R VTFLCGR GV ALGAV A+Y G+ Q +L F ++ V PE+ DL
Sbjct: 111 RHVTFLCGRGGVYALGAVVANYMGDLQKRDLFLGLFIEVAKERALPVGPEEGGFGMSYDL 170
Query: 81 KLGRAGLLWACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTKEI--CPLMFELYGEK 138
GRAG LW LF+NKH+G+D VP ++D ++ GRA G +I CPLM+ +G +
Sbjct: 171 LYGRAGFLWGALFVNKHLGEDAVPKDILMLIIDAVLAGGRA-GASDIKDCPLMYRWHGTR 229
Query: 139 CWGASHGLAGIMHVLMDMKLKPDELEDVKGTLKYMIRNRLP-SGNYPISEVDRNDEFVSW 197
GA++GLAGI+HVL+ L ++ EDVKGTL Y++ R P SGNYP SE + D+ V W
Sbjct: 230 YLGAANGLAGILHVLLHFPLPSEDAEDVKGTLWYLMSKRFPHSGNYPSSEGNPRDKLVQW 289
Query: 198 CHGAPGIAITLVKAAKVF-GDKEFLDAAMQAAKVVWEQGLHKRVGICHGISGNAYVFLSL 256
HGA G+AITL KAA+VF D+E DAA++A +VVW+ GL K+VG+ G+SGNAY FLSL
Sbjct: 290 GHGATGMAITLSKAAEVFPNDRELRDAAIEAGEVVWKSGLVKKVGLADGVSGNAYAFLSL 349
Query: 257 YQHTRDVQYLDMARRFTCSVLDRAHKEIPRGEMHGGDQPYSLFEGIGGLAYLLLDMVDPT 316
Y+ T++ Y + A+ F + D A YSLF+G+ G A L D++ P
Sbjct: 350 YRLTKESIYEERAKSFASFLYDNAKS-------LAAANGYSLFQGLAGTACLWFDLLAPD 402
Query: 317 QSKFPAYEL 325
S+FP YEL
Sbjct: 403 NSRFPGYEL 411
>Glyma11g37990.2
Length = 412
Score = 245 bits (625), Expect = 6e-65, Method: Compositional matrix adjust.
Identities = 138/308 (44%), Positives = 186/308 (60%), Gaps = 21/308 (6%)
Query: 32 RDVTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKI-------VVPED----YPDDL 80
R VTFLCGR GV ALGAV A+Y + +L F ++ V PE+ DL
Sbjct: 112 RHVTFLCGRGGVYALGAVVANYMEDLPKRDLFLGLFFEVAKERALPVGPEEGGFGMSYDL 171
Query: 81 KLGRAGLLWACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTK-EICPLMFELYGEKC 139
GRAG LW LF+NKH+G D VP ++D ++ GRA + E CPLM+ +G +
Sbjct: 172 LYGRAGFLWGALFVNKHLGDDAVPKDILMPIIDAVLAGGRAGASDVEDCPLMYRWHGTRY 231
Query: 140 WGASHGLAGIMHVLMDMKLKPDELEDVKGTLKYMIRNRLP-SGNYPISEVDRNDEFVSWC 198
GA++GLAGI+HVL+ L ++ EDVKGTL+Y++ R P SGNYP SE + D+ V W
Sbjct: 232 LGAANGLAGILHVLLHFPLPREDAEDVKGTLRYLMSKRFPHSGNYPSSEGNPRDKLVQWG 291
Query: 199 HGAPGIAITLVKAAKVF-GDKEFLDAAMQAAKVVWEQGLHKRVGICHGISGNAYVFLSLY 257
HGA G+AITL KAA+VF D+E DAA++A +VVW+ GL K+VG+ G+SGNAY FLSLY
Sbjct: 292 HGATGMAITLSKAAQVFPNDRELRDAAIEAGEVVWKSGLVKKVGLADGVSGNAYAFLSLY 351
Query: 258 QHTRDVQYLDMARRFTCSVLDRAHKEIPRGEMHGGDQPYSLFEGIGGLAYLLLDMVDPTQ 317
+ T++ Y + A+ F + D A YSL +G+ G L D++ P
Sbjct: 352 RLTKESIYEERAKSFASFMYDNAKS-------LASANGYSLSQGLAGTVCLWFDLLAPDS 404
Query: 318 SKFPAYEL 325
S+FP YEL
Sbjct: 405 SRFPGYEL 412
>Glyma11g37990.1
Length = 412
Score = 245 bits (625), Expect = 6e-65, Method: Compositional matrix adjust.
Identities = 138/308 (44%), Positives = 186/308 (60%), Gaps = 21/308 (6%)
Query: 32 RDVTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKI-------VVPED----YPDDL 80
R VTFLCGR GV ALGAV A+Y + +L F ++ V PE+ DL
Sbjct: 112 RHVTFLCGRGGVYALGAVVANYMEDLPKRDLFLGLFFEVAKERALPVGPEEGGFGMSYDL 171
Query: 81 KLGRAGLLWACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTK-EICPLMFELYGEKC 139
GRAG LW LF+NKH+G D VP ++D ++ GRA + E CPLM+ +G +
Sbjct: 172 LYGRAGFLWGALFVNKHLGDDAVPKDILMPIIDAVLAGGRAGASDVEDCPLMYRWHGTRY 231
Query: 140 WGASHGLAGIMHVLMDMKLKPDELEDVKGTLKYMIRNRLP-SGNYPISEVDRNDEFVSWC 198
GA++GLAGI+HVL+ L ++ EDVKGTL+Y++ R P SGNYP SE + D+ V W
Sbjct: 232 LGAANGLAGILHVLLHFPLPREDAEDVKGTLRYLMSKRFPHSGNYPSSEGNPRDKLVQWG 291
Query: 199 HGAPGIAITLVKAAKVF-GDKEFLDAAMQAAKVVWEQGLHKRVGICHGISGNAYVFLSLY 257
HGA G+AITL KAA+VF D+E DAA++A +VVW+ GL K+VG+ G+SGNAY FLSLY
Sbjct: 292 HGATGMAITLSKAAQVFPNDRELRDAAIEAGEVVWKSGLVKKVGLADGVSGNAYAFLSLY 351
Query: 258 QHTRDVQYLDMARRFTCSVLDRAHKEIPRGEMHGGDQPYSLFEGIGGLAYLLLDMVDPTQ 317
+ T++ Y + A+ F + D A YSL +G+ G L D++ P
Sbjct: 352 RLTKESIYEERAKSFASFMYDNAKS-------LASANGYSLSQGLAGTVCLWFDLLAPDS 404
Query: 318 SKFPAYEL 325
S+FP YEL
Sbjct: 405 SRFPGYEL 412
>Glyma18g01890.2
Length = 324
Score = 167 bits (422), Expect = 2e-41, Method: Compositional matrix adjust.
Identities = 95/197 (48%), Positives = 124/197 (62%), Gaps = 15/197 (7%)
Query: 32 RDVTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKI-------VVPED----YPDDL 80
R VTFLCGR GV ALGAV A+Y G+ Q +L F ++ V PE+ DL
Sbjct: 111 RHVTFLCGRGGVYALGAVVANYMGDLQKRDLFLGLFIEVAKERALPVGPEEGGFGMSYDL 170
Query: 81 KLGRAGLLWACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTKEI--CPLMFELYGEK 138
GRAG LW LF+NKH+G+D VP ++D ++ GRA G +I CPLM+ +G +
Sbjct: 171 LYGRAGFLWGALFVNKHLGEDAVPKDILMLIIDAVLAGGRA-GASDIKDCPLMYRWHGTR 229
Query: 139 CWGASHGLAGIMHVLMDMKLKPDELEDVKGTLKYMIRNRLP-SGNYPISEVDRNDEFVSW 197
GA++GLAGI+HVL+ L ++ EDVKGTL Y++ R P SGNYP SE + D+ V W
Sbjct: 230 YLGAANGLAGILHVLLHFPLPSEDAEDVKGTLWYLMSKRFPHSGNYPSSEGNPRDKLVQW 289
Query: 198 CHGAPGIAITLVKAAKV 214
HGA G+AITL KAA+V
Sbjct: 290 GHGATGMAITLSKAAEV 306
>Glyma13g35490.1
Length = 250
Score = 64.7 bits (156), Expect = 1e-10, Method: Compositional matrix adjust.
Identities = 38/102 (37%), Positives = 53/102 (51%), Gaps = 19/102 (18%)
Query: 34 VTFLCGRAGVCALGAVAAHYCGNSQLSGYYLTQFHKI----VVPEDYPDDLKLGRAGLLW 89
VTF+CGRAGVCALGAV A + G+ +L YY F+++ + P Y
Sbjct: 94 VTFICGRAGVCALGAVIARHSGDERLLDYYQRHFNRLGYLMICPMSY------------- 140
Query: 90 ACLFLNKHIGQDIVPYRYTARLVDEIIKNGRALGTKEICPLM 131
C+ +HIG + + + + DE+ GR LG K CPLM
Sbjct: 141 -CM-AEQHIGNNKIHTTHMRSVADEVTMAGRQLGRKGRCPLM 180