DK950463 |
Clone id |
TST38A01NGRL0008_L14 |
Library |
TST38 |
Length |
658 |
Definition |
Adiantum capillus-veneris mRNA. clone: TST38A01NGRL0008_L14. 5' end sequence. |
Accession |
DK950463 |
Tissue type |
prothallia |
Developmental stage |
gametophyte |
Contig ID |
CL329Contig1 |
Sequence |
GTGCCAAGCACCTCAATATCACCTTAACTCGCTCCAAATTTGAGGCTTTGGTGAATGATT TGATAGAAAGGACAAAGCAACCTTGCAAGAATTGCCTCAAAGATGCAGGAATCTCTGCCA AGGATGTTAATGAAGTCCTGTTGGTTGGAGGTATGACAAGGATGCCCAAAGTTCAAGAGG TGGTGTCGCAAATCTTTGGAAAAGAGCCAAGCAAAGGGGTGAACCCTGATGAGTGTGTGG CTATGGGTGCTGCCATTCAGGGTGGTGTCCTTCGTGGTGATGTAAAGGACTTGCTCTTGC TGGATGTGACACCACTGTCTCTTGGACTTGAAACACTAGGAGGTGTGTTCACTCGTCTTA TTTCAAGGAACACAACCATTCCCACGAAGAAAAGTCAAGTGTTTTCAACTGCTGCTGACA GCCAGACTCAAGTAGGTATTAAAGTACTCCAAGGTGAACGAGAAATGGCTGCTGATAACA AGTTGCTGGGACAGTTTGAGCTTGTGGGTATACCTCCCGCTCCTCGGGGTGTGCCACAGA TCGAAGTCACCTTTGACATTGATGCGAATGGAATTGTGAATGTCTCTGCGAGAGACAAAG CCACTAGCAAGGAACAGCAGATAACTATTCAATCTTCTGGTGGATTGTCAGAGTCTGA |
■■Homology search results ■■ |
- |
Swiss-Prot (release 56.9) |
Link to BlastX Result : Swiss-Prot |
sp_hit_id |
P37900 |
Definition |
sp|P37900|HSP7M_PEA Heat shock 70 kDa protein, mitochondrial OS=Pisum sativum |
Align length |
217 |
Score (bit) |
330.0 |
E-value |
4.0e-90 |
Report |
BLASTX 2.2.19 [Nov-02-2008]
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.
Query= DK950463|Adiantum capillus-veneris mRNA, clone: TST38A01NGRL0008_L14, 5' (658 letters)
Database: uniprot_sprot.fasta 412,525 sequences; 148,809,765 total letters
Searching..................................................done
Score E Sequences producing significant alignments: (bits) Value
sp|P37900|HSP7M_PEA Heat shock 70 kDa protein, mitochondrial OS=... 330 4e-90 sp|Q01899|HSP7M_PHAVU Heat shock 70 kDa protein, mitochondrial O... 328 2e-89 sp|Q08276|HSP7M_SOLTU Heat shock 70 kDa protein, mitochondrial O... 325 1e-88 sp|Q2VYT1|DNAK_MAGMM Chaperone protein dnaK OS=Magnetospirillum ... 301 2e-81 sp|Q1QRU1|DNAK_NITHX Chaperone protein dnaK OS=Nitrobacter hambu... 300 3e-81 sp|O05700|DNAK_RHOS7 Chaperone protein dnaK OS=Rhodopseudomonas ... 300 6e-81 sp|Q6NCY4|DNAK_RHOPA Chaperone protein dnaK OS=Rhodopseudomonas ... 300 6e-81 sp|Q21CI2|DNAK_RHOPB Chaperone protein dnaK OS=Rhodopseudomonas ... 299 8e-81 sp|Q2J320|DNAK_RHOP2 Chaperone protein dnaK OS=Rhodopseudomonas ... 299 8e-81 sp|Q3SW76|DNAK_NITWN Chaperone protein dnaK OS=Nitrobacter winog... 299 8e-81 sp|Q07US6|DNAK_RHOP5 Chaperone protein dnaK OS=Rhodopseudomonas ... 299 1e-80 sp|P94317|DNAK_BRAJA Chaperone protein dnaK OS=Bradyrhizobium ja... 299 1e-80 sp|Q13E60|DNAK_RHOPS Chaperone protein dnaK OS=Rhodopseudomonas ... 298 1e-80 sp|A8IPT1|DNAK_AZOC5 Chaperone protein dnaK OS=Azorhizobium caul... 297 3e-80 sp|Q98DD1|DNAK_RHILO Chaperone protein dnaK OS=Rhizobium loti GN... 296 5e-80 sp|Q11KJ6|DNAK_MESSB Chaperone protein dnaK OS=Mesorhizobium sp.... 296 6e-80 sp|Q0AKB1|DNAK_MARMM Chaperone protein dnaK OS=Maricaulis maris ... 296 8e-80 sp|Q05981|DNAK_BRUO2 Chaperone protein dnaK OS=Brucella ovis (st... 295 1e-79 sp|Q8YE76|DNAK_BRUME Chaperone protein dnaK OS=Brucella melitens... 295 1e-79 sp|Q57AD7|DNAK_BRUAB Chaperone protein dnaK OS=Brucella abortus ... 295 1e-79 sp|A6UEY0|DNAK_SINMW Chaperone protein dnaK OS=Sinorhizobium med... 295 2e-79 sp|Q2RNE6|DNAK_RHORT Chaperone protein dnaK OS=Rhodospirillum ru... 294 2e-79 sp|P42374|DNAK_RHIME Chaperone protein dnaK OS=Rhizobium melilot... 294 2e-79 sp|Q8FXX2|DNAK_BRUSU Chaperone protein dnaK OS=Brucella suis GN=... 294 3e-79 sp|Q6G554|DNAK_BARHE Chaperone protein dnaK OS=Bartonella hensel... 293 4e-79 sp|P50019|DNAK_AGRT5 Chaperone protein dnaK OS=Agrobacterium tum... 293 4e-79 sp|A9ILH7|DNAK_BART1 Chaperone protein dnaK OS=Bartonella triboc... 291 2e-78 sp|Q6G1F9|DNAK_BARQU Chaperone protein dnaK OS=Bartonella quinta... 291 2e-78 sp|Q2KDW6|DNAK_RHIEC Chaperone protein dnaK OS=Rhizobium etli (s... 291 3e-78 sp|Q1MN11|DNAK_RHIL3 Chaperone protein dnaK OS=Rhizobium legumin... 290 6e-78
>sp|P37900|HSP7M_PEA Heat shock 70 kDa protein, mitochondrial OS=Pisum sativum GN=HSP1 PE=2 SV=1 Length = 675
Score = 330 bits (846), Expect = 4e-90 Identities = 170/217 (78%), Positives = 186/217 (85%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFEALVN+LIERTK PCK+CLKDA IS KDV+EVLLVGGMTR+PKVQ+V Sbjct: 337 AKHLNITLTRSKFEALVNNLIERTKAPCKSCLKDANISIKDVDEVLLVGGMTRVPKVQQV 396
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAA+Q ETLGG+FTRLI Sbjct: 397 VSEIFGKSPSKGVNPDEAVAMGAALQGGILRGDVKELLLLDVTPLSLGIETLGGIFTRLI 456
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 SRNTTIPTKKSQVFSTAAD+QTQVGIKVLQGEREMAADNK LG+F+LVGIPPAPRG+PQI Sbjct: 457 SRNTTIPTKKSQVFSTAADNQTQVGIKVLQGEREMAADNKSLGEFDLVGIPPAPRGLPQI 516
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSE 653 EVTFDIDANGIV VSA+DK+T KEQQITI+SSGGLS+ Sbjct: 517 EVTFDIDANGIVTVSAKDKSTGKEQQITIRSSGGLSD 553
>sp|Q01899|HSP7M_PHAVU Heat shock 70 kDa protein, mitochondrial OS=Phaseolus vulgaris PE=2 SV=1 Length = 675
Score = 328 bits (841), Expect = 2e-89 Identities = 169/217 (77%), Positives = 184/217 (84%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFEALVN LIERTK PCK+CLKDA +S KDV+EVLLVGGMTR+PKVQEV Sbjct: 336 AKHLNITLTRSKFEALVNHLIERTKAPCKSCLKDANVSIKDVDEVLLVGGMTRVPKVQEV 395
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 V IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 396 VLNIFGKSPSKGVNPDEAVAMGAAIQGGILRGDVKELLLLDVTPLSLGIETLGGIFTRLI 455
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD+QTQVGIKVLQGEREMA+DNK+LG+F+LVGIPPAPRG+PQI Sbjct: 456 NRNTTIPTKKSQVFSTAADNQTQVGIKVLQGEREMASDNKMLGEFDLVGIPPAPRGLPQI 515
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSE 653 EVTFDIDANGIV VSA+DK+T KEQQITI+SSGGLSE Sbjct: 516 EVTFDIDANGIVTVSAKDKSTGKEQQITIRSSGGLSE 552
>sp|Q08276|HSP7M_SOLTU Heat shock 70 kDa protein, mitochondrial OS=Solanum tuberosum GN=HSP68 PE=2 SV=1 Length = 682
Score = 325 bits (834), Expect = 1e-88 Identities = 168/218 (77%), Positives = 185/218 (84%), Gaps = 1/218 (0%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE LVN LIERT+ PCKNCLKDAG+S KDV+EVLLVGGMTR+PKVQE+ Sbjct: 342 AKHLNITLTRSKFETLVNHLIERTRNPCKNCLKDAGVSLKDVDEVLLVGGMTRVPKVQEI 401
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAA+Q ETLGG+FTRLI Sbjct: 402 VSEIFGKSPSKGVNPDEAVAMGAALQGGILRGDVKELLLLDVTPLARGIETLGGIFTRLI 461
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRG-VPQ 539 +RNTTIPTKKSQVFSTAAD+QTQVGIKVLQGEREMA+DNKLLG+F+LVGIPPAP+G PQ Sbjct: 462 NRNTTIPTKKSQVFSTAADNQTQVGIKVLQGEREMASDNKLLGEFDLVGIPPAPKGYCPQ 521
Query: 540 IEVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSE 653 IEV FDIDANG+V VSA+DKATSKEQQITI+SSGGLSE Sbjct: 522 IEVIFDIDANGMVTVSAKDKATSKEQQITIRSSGGLSE 559
>sp|Q2VYT1|DNAK_MAGMM Chaperone protein dnaK OS=Magnetospirillum magneticum (strain AMB-1 / ATCC 700264) GN=dnaK PE=2 SV=1 Length = 642
Score = 301 bits (771), Expect = 2e-81 Identities = 152/217 (70%), Positives = 174/217 (80%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHLNI LTRSK EALV DL+ RT +PCK LKDAG+ A +++EV+LVGGMTRMPK+QEVV Sbjct: 289 KHLNIKLTRSKLEALVEDLVARTVEPCKAALKDAGVKASEIDEVILVGGMTRMPKIQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 + FG+EP KGVNPDE VA+GAAIQ ETLGGVFTRLI Sbjct: 349 KEFFGREPHKGVNPDEVVAIGAAIQGGVLKGEVKDVLLLDVTPLSLGIETLGGVFTRLID 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPT+KSQVFSTA D+QT V I+V QGEREMAADNK+LGQF+LVGIPPAPRGVPQ+E Sbjct: 409 RNTTIPTRKSQVFSTAEDNQTAVTIRVFQGEREMAADNKVLGQFDLVGIPPAPRGVPQVE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANG+VNVSA+DKAT KEQQI IQ+SGGLS++ Sbjct: 469 VTFDIDANGLVNVSAKDKATGKEQQIRIQASGGLSDA 505
>sp|Q1QRU1|DNAK_NITHX Chaperone protein dnaK OS=Nitrobacter hamburgensis (strain X14 / DSM 10229) GN=dnaK PE=2 SV=1 Length = 632
Score = 300 bits (769), Expect = 3e-81 Identities = 152/217 (70%), Positives = 176/217 (81%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHL + LTR+KFEALV+DL+++T +PC+ LKDAG++A ++ EV+LVGGMTRMPKVQEVV Sbjct: 289 KHLTMKLTRAKFEALVDDLVQKTIEPCRKALKDAGLTAGEIGEVVLVGGMTRMPKVQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 Q+FGKEP KGVNPDE VA+GAAIQ ETLGGVFTR+I Sbjct: 349 KQLFGKEPHKGVNPDEVVAIGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRIID 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPTKKSQVFSTA DSQ V I+V QGEREMAADNK+LGQF+L+GIPPAPRG+PQIE Sbjct: 409 RNTTIPTKKSQVFSTAEDSQNAVTIRVFQGEREMAADNKILGQFDLMGIPPAPRGMPQIE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANGIVNVSA+DKAT KEQQI IQ+SGGLSE+ Sbjct: 469 VTFDIDANGIVNVSAKDKATGKEQQIRIQASGGLSEA 505
>sp|O05700|DNAK_RHOS7 Chaperone protein dnaK OS=Rhodopseudomonas sp. (strain No.7) GN=dnaK PE=2 SV=1 Length = 631
Score = 300 bits (767), Expect = 6e-81 Identities = 151/217 (69%), Positives = 177/217 (81%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHL + LTR+KFEALV+DL+++T +PC+ LKDAG++A +++EV+LVGGMTRMPKVQEVV Sbjct: 289 KHLTMKLTRAKFEALVDDLVQKTIEPCRKALKDAGLTAGEISEVVLVGGMTRMPKVQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 Q+FGKEP KGVNPDE VA+GAAIQ ETLGGVFTR+I Sbjct: 349 KQLFGKEPHKGVNPDEVVAIGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRIID 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPTKKSQVFSTA D+Q V I+V QGEREMAADNK+LGQF+L+GIPPAPRG+PQIE Sbjct: 409 RNTTIPTKKSQVFSTAEDNQNAVTIRVFQGEREMAADNKMLGQFDLMGIPPAPRGMPQIE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANGIVNVSA+DKAT KEQQI IQ+SGGLS+S Sbjct: 469 VTFDIDANGIVNVSAKDKATGKEQQIRIQASGGLSDS 505
>sp|Q6NCY4|DNAK_RHOPA Chaperone protein dnaK OS=Rhodopseudomonas palustris GN=dnaK PE=2 SV=1 Length = 631
Score = 300 bits (767), Expect = 6e-81 Identities = 151/217 (69%), Positives = 177/217 (81%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHL + LTR+KFEALV+DL+++T +PC+ LKDAG++A +++EV+LVGGMTRMPKVQEVV Sbjct: 289 KHLTMKLTRAKFEALVDDLVQKTIEPCRKALKDAGLTAGEISEVVLVGGMTRMPKVQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 Q+FGKEP KGVNPDE VA+GAAIQ ETLGGVFTR+I Sbjct: 349 KQLFGKEPHKGVNPDEVVAIGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRIID 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPTKKSQVFSTA D+Q V I+V QGEREMAADNK+LGQF+L+GIPPAPRG+PQIE Sbjct: 409 RNTTIPTKKSQVFSTAEDNQNAVTIRVFQGEREMAADNKMLGQFDLMGIPPAPRGMPQIE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANGIVNVSA+DKAT KEQQI IQ+SGGLS+S Sbjct: 469 VTFDIDANGIVNVSAKDKATGKEQQIRIQASGGLSDS 505
>sp|Q21CI2|DNAK_RHOPB Chaperone protein dnaK OS=Rhodopseudomonas palustris (strain BisB18) GN=dnaK PE=2 SV=1 Length = 632
Score = 299 bits (766), Expect = 8e-81 Identities = 151/217 (69%), Positives = 176/217 (81%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHL + LTR+KFEALV+DL+++T +PC+ LKDAG++A ++ EV+LVGGMTRMPKVQEVV Sbjct: 289 KHLTMKLTRAKFEALVDDLVQKTIEPCRKALKDAGLTAGEIGEVVLVGGMTRMPKVQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 Q+FGKEP KGVNPDE VA+GAAIQ ETLGGVFTR+I Sbjct: 349 KQLFGKEPHKGVNPDEVVAIGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRIIE 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPTKKSQVFSTA D+Q V I+V QGEREMAADNK+LGQF+L+GIPP+PRG+PQIE Sbjct: 409 RNTTIPTKKSQVFSTAEDNQNAVTIRVFQGEREMAADNKILGQFDLMGIPPSPRGMPQIE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANGIVNVSARDKAT KEQQI IQ+SGGLSE+ Sbjct: 469 VTFDIDANGIVNVSARDKATGKEQQIRIQASGGLSEA 505
>sp|Q2J320|DNAK_RHOP2 Chaperone protein dnaK OS=Rhodopseudomonas palustris (strain HaA2) GN=dnaK PE=2 SV=1 Length = 633
Score = 299 bits (766), Expect = 8e-81 Identities = 151/217 (69%), Positives = 176/217 (81%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHL + LTR+KFEALV+DL+++T +PC+ LKDAG++A ++ EV+LVGGMTRMPKVQEVV Sbjct: 289 KHLTMKLTRAKFEALVDDLVQKTIEPCRKALKDAGLTAGEIGEVVLVGGMTRMPKVQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 Q+FGKEP KGVNPDE VA+GAAIQ ETLGGVFTR+I Sbjct: 349 KQLFGKEPHKGVNPDEVVAIGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRIIE 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPTKKSQVFSTA D+Q V I+V QGEREMAADNK+LGQF+L+GIPPAPRG+PQIE Sbjct: 409 RNTTIPTKKSQVFSTAEDNQNAVTIRVFQGEREMAADNKILGQFDLMGIPPAPRGMPQIE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANGIVNVSA+DKAT KEQQI IQ+SGGLS+S Sbjct: 469 VTFDIDANGIVNVSAKDKATGKEQQIRIQASGGLSDS 505
>sp|Q3SW76|DNAK_NITWN Chaperone protein dnaK OS=Nitrobacter winogradskyi (strain Nb-255 / ATCC 25391) GN=dnaK PE=2 SV=1 Length = 630
Score = 299 bits (766), Expect = 8e-81 Identities = 151/217 (69%), Positives = 176/217 (81%) Frame = +3
Query: 6 KHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEVV 185 KHL + LTR+KFEALV+DL+++T +PC+ LKDAG++A ++ EV+LVGGMTRMPKVQEVV Sbjct: 289 KHLTMKLTRAKFEALVDDLVQKTIEPCRKALKDAGLTAGEIGEVVLVGGMTRMPKVQEVV 348
Query: 186 SQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLIS 365 Q+FGKEP KGVNPDE VA+GAAIQ ETLGGVFTR+I Sbjct: 349 KQLFGKEPHKGVNPDEVVAIGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRIID 408
Query: 366 RNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQIE 545 RNTTIPTKKSQVFSTA D+Q V I+V QGEREMAADNK+LGQF+L+GIPPAPRG+PQIE Sbjct: 409 RNTTIPTKKSQVFSTAEDNQNAVTIRVFQGEREMAADNKILGQFDLMGIPPAPRGMPQIE 468
Query: 546 VTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 VTFDIDANGIVNVSA+DKAT KEQQI IQ+SGGLSE+ Sbjct: 469 VTFDIDANGIVNVSAKDKATGKEQQIRIQASGGLSEA 505
|
TrEMBL (release 39.9) |
Link to BlastX Result : TrEMBL |
tr_hit_id |
A9T8F3 |
Definition |
tr|A9T8F3|A9T8F3_PHYPA Predicted protein OS=Physcomitrella patens subsp. patens |
Align length |
218 |
Score (bit) |
342.0 |
E-value |
9.0e-93 |
Report |
BLASTX 2.2.19 [Nov-02-2008]
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.
Query= DK950463|Adiantum capillus-veneris mRNA, clone: TST38A01NGRL0008_L14, 5' (658 letters)
Database: uniprot_trembl.fasta 7,341,751 sequences; 2,391,615,440 total letters
Searching..................................................done
Score E Sequences producing significant alignments: (bits) Value
tr|A9T8F3|A9T8F3_PHYPA Predicted protein OS=Physcomitrella paten... 342 9e-93 tr|A9T8E8|A9T8E8_PHYPA Predicted protein OS=Physcomitrella paten... 342 9e-93 tr|A9SA41|A9SA41_PHYPA Predicted protein OS=Physcomitrella paten... 340 6e-92 tr|A9SA40|A9SA40_PHYPA Predicted protein (Fragment) OS=Physcomit... 340 6e-92 tr|Q8GTB0|Q8GTB0_ORYSJ Putative heat shock 70 KD protein, mitoch... 334 2e-90 tr|Q10SR3|Q10SR3_ORYSJ Os03g0113700 protein OS=Oryza sativa subs... 334 2e-90 tr|A2XBQ0|A2XBQ0_ORYSI Putative uncharacterized protein OS=Oryza... 334 2e-90 tr|Q6Z7L1|Q6Z7L1_ORYSJ Os02g0774300 protein OS=Oryza sativa subs... 332 1e-89 tr|A7QS95|A7QS95_VITVI Chromosome chr3 scaffold_157, whole genom... 332 1e-89 tr|A3ABU8|A3ABU8_ORYSJ Putative uncharacterized protein OS=Oryza... 332 1e-89 tr|A2XA53|A2XA53_ORYSI Putative uncharacterized protein OS=Oryza... 332 1e-89 tr|B6U4A3|B6U4A3_MAIZE Heat shock 70 kDa protein OS=Zea mays PE=... 332 2e-89 tr|B4F8Q2|B4F8Q2_MAIZE Putative uncharacterized protein OS=Zea m... 329 1e-88 tr|A7R436|A7R436_VITVI Chromosome undetermined scaffold_611, who... 329 1e-88 tr|A2Q199|A2Q199_MEDTR Chaperone DnaK OS=Medicago truncatula GN=... 326 7e-88 tr|B6UGG5|B6UGG5_MAIZE Heat shock 70 kDa protein OS=Zea mays PE=... 324 3e-87 tr|Q9LDZ0|Q9LDZ0_ARATH At5g09590 OS=Arabidopsis thaliana GN=F17I... 323 4e-87 tr|O50047|O50047_SPIOL Heat shock 70 protein OS=Spinacia olerace... 323 4e-87 tr|O49045|O49045_SPIOL Heat shock 70 protein OS=Spinacia olerace... 323 4e-87 tr|A3C065|A3C065_ORYSJ Putative uncharacterized protein OS=Oryza... 323 6e-87 tr|Q01AH9|Q01AH9_OSTTA Heat shock protein 70 / HSP70 (ISS) OS=Os... 319 1e-85 tr|Q9SZJ3|Q9SZJ3_ARATH Heat shock protein 70 like protein OS=Ara... 315 1e-84 tr|Q8GUM2|Q8GUM2_ARATH Heat shock protein 70 like protein (At4g3... 315 1e-84 tr|A4RWG3|A4RWG3_OSTLU Heat Shock Protein 70 OS=Ostreococcus luc... 315 1e-84 tr|A8IZU0|A8IZU0_CHLRE Heat shock protein 70C OS=Chlamydomonas r... 306 6e-82 tr|B2IBR4|B2IBR4_BEII9 Chaperone protein DnaK OS=Beijerinckia in... 301 2e-80 tr|B8EIP9|B8EIP9_METSI Chaperone protein DnaK OS=Methylocella si... 301 3e-80 tr|B6JCI3|B6JCI3_OLICO Chaperone protein DnaK OS=Oligotropha car... 300 7e-80 tr|B3Q972|B3Q972_RHOPT Chaperone protein DnaK OS=Rhodopseudomona... 300 7e-80 tr|Q56WU4|Q56WU4_ARATH Heat shock protein 70 like protein (Fragm... 300 7e-80
>tr|A9T8F3|A9T8F3_PHYPA Predicted protein OS=Physcomitrella patens subsp. patens GN=PHYPADRAFT_192625 PE=3 SV=1 Length = 680
Score = 342 bits (878), Expect = 9e-93 Identities = 176/218 (80%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLN+TLTRSK+E LVN LIERTKQPCK+CLKDAG+SAKDV+EVLLVGGMTRMPKVQEV Sbjct: 340 AKHLNVTLTRSKYEQLVNHLIERTKQPCKDCLKDAGLSAKDVDEVLLVGGMTRMPKVQEV 399
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 V+ IF KEPSKGVNPDECVAMGAAIQ ETLGGVFTRLI Sbjct: 400 VNSIFSKEPSKGVNPDECVAMGAAIQGGVLRGDVKDILLLDVTPLSLGIETLGGVFTRLI 459
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD QTQVG+KVLQGEREMAADNK+LGQF+LVGIPPAPRG+PQI Sbjct: 460 TRNTTIPTKKSQVFSTAADGQTQVGVKVLQGEREMAADNKVLGQFDLVGIPPAPRGMPQI 519
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIVNVSARDKAT KEQ ITIQSSGGLSE+ Sbjct: 520 EVTFDIDANGIVNVSARDKATGKEQAITIQSSGGLSEA 557
>tr|A9T8E8|A9T8E8_PHYPA Predicted protein OS=Physcomitrella patens subsp. patens GN=PHYPADRAFT_141802 PE=3 SV=1 Length = 643
Score = 342 bits (878), Expect = 9e-93 Identities = 176/218 (80%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLN+TLTRSK+E LVN LIERTKQPCK+CLKDAG+SAKDV+EVLLVGGMTRMPKVQEV Sbjct: 303 AKHLNVTLTRSKYEQLVNHLIERTKQPCKDCLKDAGLSAKDVDEVLLVGGMTRMPKVQEV 362
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 V+ IF KEPSKGVNPDECVAMGAAIQ ETLGGVFTRLI Sbjct: 363 VNSIFSKEPSKGVNPDECVAMGAAIQGGVLRGDVKDILLLDVTPLSLGIETLGGVFTRLI 422
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD QTQVG+KVLQGEREMAADNK+LGQF+LVGIPPAPRG+PQI Sbjct: 423 TRNTTIPTKKSQVFSTAADGQTQVGVKVLQGEREMAADNKVLGQFDLVGIPPAPRGMPQI 482
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIVNVSARDKAT KEQ ITIQSSGGLSE+ Sbjct: 483 EVTFDIDANGIVNVSARDKATGKEQAITIQSSGGLSEA 520
>tr|A9SA41|A9SA41_PHYPA Predicted protein OS=Physcomitrella patens subsp. patens GN=PHYPADRAFT_182738 PE=3 SV=1 Length = 676
Score = 340 bits (871), Expect = 6e-92 Identities = 173/218 (79%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLN+TLTRSK+E LVN LIERTKQPC++CLKDAG++AKDV+EVLLVGGMTRMPKVQE+ Sbjct: 336 AKHLNVTLTRSKYEQLVNHLIERTKQPCRDCLKDAGLTAKDVDEVLLVGGMTRMPKVQEI 395
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 V+ IF KEPSKGVNPDECVAMGAAIQ ETLGGVFTRLI Sbjct: 396 VNNIFSKEPSKGVNPDECVAMGAAIQGGVLRGDVKDILLLDVTPLSLGIETLGGVFTRLI 455
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD QTQVG+KVLQGEREMAADNK+LGQF+LVGIPPAPRG+PQI Sbjct: 456 TRNTTIPTKKSQVFSTAADGQTQVGVKVLQGEREMAADNKVLGQFDLVGIPPAPRGMPQI 515
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIVNVSARDKAT KEQ ITIQSSGGLSE+ Sbjct: 516 EVTFDIDANGIVNVSARDKATGKEQAITIQSSGGLSEA 553
>tr|A9SA40|A9SA40_PHYPA Predicted protein (Fragment) OS=Physcomitrella patens subsp. patens GN=PHYPADRAFT_182736 PE=3 SV=1 Length = 643
Score = 340 bits (871), Expect = 6e-92 Identities = 173/218 (79%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLN+TLTRSK+E LVN LIERTKQPC++CLKDAG++AKDV+EVLLVGGMTRMPKVQE+ Sbjct: 336 AKHLNVTLTRSKYEQLVNHLIERTKQPCRDCLKDAGLTAKDVDEVLLVGGMTRMPKVQEI 395
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 V+ IF KEPSKGVNPDECVAMGAAIQ ETLGGVFTRLI Sbjct: 396 VNNIFSKEPSKGVNPDECVAMGAAIQGGVLRGDVKDILLLDVTPLSLGIETLGGVFTRLI 455
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD QTQVG+KVLQGEREMAADNK+LGQF+LVGIPPAPRG+PQI Sbjct: 456 TRNTTIPTKKSQVFSTAADGQTQVGVKVLQGEREMAADNKVLGQFDLVGIPPAPRGMPQI 515
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIVNVSARDKAT KEQ ITIQSSGGLSE+ Sbjct: 516 EVTFDIDANGIVNVSARDKATGKEQAITIQSSGGLSEA 553
>tr|Q8GTB0|Q8GTB0_ORYSJ Putative heat shock 70 KD protein, mitochondrial (Putative uncharacterized protein) OS=Oryza sativa subsp. japonica GN=OSJNBa0090O10.7 PE=3 SV=1 Length = 656
Score = 334 bits (857), Expect = 2e-90 Identities = 171/218 (78%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE+LVN LIERT+ PCK+CLKDAGI+ KDV+EVLLVGGMTR+PKVQEV Sbjct: 318 AKHLNITLTRSKFESLVNSLIERTRDPCKSCLKDAGITTKDVDEVLLVGGMTRVPKVQEV 377
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 378 VSEIFGKAPSKGVNPDEAVAMGAAIQGGILRGDVKDLLLLDVTPLSLGIETLGGIFTRLI 437
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTT+PTKKSQVFSTAAD+QTQVGIKVLQGEREMAADNKLLG+F+LVGIPPAPRG+PQI Sbjct: 438 NRNTTVPTKKSQVFSTAADNQTQVGIKVLQGEREMAADNKLLGEFDLVGIPPAPRGMPQI 497
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIV VSA+DKAT KEQQITI+SSGGLSE+ Sbjct: 498 EVTFDIDANGIVTVSAKDKATGKEQQITIRSSGGLSEA 535
>tr|Q10SR3|Q10SR3_ORYSJ Os03g0113700 protein OS=Oryza sativa subsp. japonica GN=Os03g0113700 PE=2 SV=1 Length = 676
Score = 334 bits (857), Expect = 2e-90 Identities = 171/218 (78%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE+LVN LIERT+ PCK+CLKDAGI+ KDV+EVLLVGGMTR+PKVQEV Sbjct: 338 AKHLNITLTRSKFESLVNSLIERTRDPCKSCLKDAGITTKDVDEVLLVGGMTRVPKVQEV 397
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 398 VSEIFGKAPSKGVNPDEAVAMGAAIQGGILRGDVKDLLLLDVTPLSLGIETLGGIFTRLI 457
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTT+PTKKSQVFSTAAD+QTQVGIKVLQGEREMAADNKLLG+F+LVGIPPAPRG+PQI Sbjct: 458 NRNTTVPTKKSQVFSTAADNQTQVGIKVLQGEREMAADNKLLGEFDLVGIPPAPRGMPQI 517
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIV VSA+DKAT KEQQITI+SSGGLSE+ Sbjct: 518 EVTFDIDANGIVTVSAKDKATGKEQQITIRSSGGLSEA 555
>tr|A2XBQ0|A2XBQ0_ORYSI Putative uncharacterized protein OS=Oryza sativa subsp. indica GN=OsI_09713 PE=3 SV=1 Length = 676
Score = 334 bits (857), Expect = 2e-90 Identities = 171/218 (78%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE+LVN LIERT+ PCK+CLKDAGI+ KDV+EVLLVGGMTR+PKVQEV Sbjct: 338 AKHLNITLTRSKFESLVNSLIERTRDPCKSCLKDAGITTKDVDEVLLVGGMTRVPKVQEV 397
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 398 VSEIFGKAPSKGVNPDEAVAMGAAIQGGILRGDVKDLLLLDVTPLSLGIETLGGIFTRLI 457
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTT+PTKKSQVFSTAAD+QTQVGIKVLQGEREMAADNKLLG+F+LVGIPPAPRG+PQI Sbjct: 458 NRNTTVPTKKSQVFSTAADNQTQVGIKVLQGEREMAADNKLLGEFDLVGIPPAPRGMPQI 517
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIV VSA+DKAT KEQQITI+SSGGLSE+ Sbjct: 518 EVTFDIDANGIVTVSAKDKATGKEQQITIRSSGGLSEA 555
>tr|Q6Z7L1|Q6Z7L1_ORYSJ Os02g0774300 protein OS=Oryza sativa subsp. japonica GN=OJ1448_G06.10 PE=3 SV=1 Length = 679
Score = 332 bits (851), Expect = 1e-89 Identities = 168/218 (77%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE+LVN LIERT++PCKNCLKDAGI+ K+V+EVLLVGGMTR+PKVQE+ Sbjct: 338 AKHLNITLTRSKFESLVNSLIERTREPCKNCLKDAGITTKEVDEVLLVGGMTRVPKVQEI 397
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 398 VSEIFGKSPSKGVNPDEAVAMGAAIQGGILRGDVKELLLLDVTPLSLGIETLGGIFTRLI 457
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD+QTQVGI+VLQGEREMA DNKLLG+F+LVGIPPAPRG+PQI Sbjct: 458 NRNTTIPTKKSQVFSTAADNQTQVGIRVLQGEREMATDNKLLGEFDLVGIPPAPRGMPQI 517
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIV VSA+DK+T KEQQITI+SSGGLSE+ Sbjct: 518 EVTFDIDANGIVTVSAKDKSTGKEQQITIRSSGGLSEA 555
>tr|A7QS95|A7QS95_VITVI Chromosome chr3 scaffold_157, whole genome shotgun sequence OS=Vitis vinifera GN=GSVIVT00005738001 PE=3 SV=1 Length = 626
Score = 332 bits (851), Expect = 1e-89 Identities = 171/217 (78%), Positives = 187/217 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE+LVN LIERT+ PCK+CLKDAGIS K+V+EVLLVGGMTR+PKVQEV Sbjct: 287 AKHLNITLTRSKFESLVNHLIERTRGPCKSCLKDAGISTKEVDEVLLVGGMTRVPKVQEV 346
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 347 VSEIFGKSPSKGVNPDEAVAMGAAIQGGILRGDVKELLLLDVTPLSLGIETLGGIFTRLI 406
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD+QTQVGIKVLQGEREMA+DNKLLG+FEL+GIPPAPRG+PQI Sbjct: 407 NRNTTIPTKKSQVFSTAADNQTQVGIKVLQGEREMASDNKLLGEFELMGIPPAPRGMPQI 466
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSE 653 EVTFDIDANGIV VSA+DKAT KEQQITI+SSGGLSE Sbjct: 467 EVTFDIDANGIVTVSAKDKATGKEQQITIRSSGGLSE 503
>tr|A3ABU8|A3ABU8_ORYSJ Putative uncharacterized protein OS=Oryza sativa subsp. japonica GN=OsJ_008270 PE=3 SV=1 Length = 773
Score = 332 bits (851), Expect = 1e-89 Identities = 168/218 (77%), Positives = 188/218 (86%) Frame = +3
Query: 3 AKHLNITLTRSKFEALVNDLIERTKQPCKNCLKDAGISAKDVNEVLLVGGMTRMPKVQEV 182 AKHLNITLTRSKFE+LVN LIERT++PCKNCLKDAGI+ K+V+EVLLVGGMTR+PKVQE+ Sbjct: 338 AKHLNITLTRSKFESLVNSLIERTREPCKNCLKDAGITTKEVDEVLLVGGMTRVPKVQEI 397
Query: 183 VSQIFGKEPSKGVNPDECVAMGAAIQXXXXXXXXXXXXXXXXXXXXXXXETLGGVFTRLI 362 VS+IFGK PSKGVNPDE VAMGAAIQ ETLGG+FTRLI Sbjct: 398 VSEIFGKSPSKGVNPDEAVAMGAAIQGGILRGDVKELLLLDVTPLSLGIETLGGIFTRLI 457
Query: 363 SRNTTIPTKKSQVFSTAADSQTQVGIKVLQGEREMAADNKLLGQFELVGIPPAPRGVPQI 542 +RNTTIPTKKSQVFSTAAD+QTQVGI+VLQGEREMA DNKLLG+F+LVGIPPAPRG+PQI Sbjct: 458 NRNTTIPTKKSQVFSTAADNQTQVGIRVLQGEREMATDNKLLGEFDLVGIPPAPRGMPQI 517
Query: 543 EVTFDIDANGIVNVSARDKATSKEQQITIQSSGGLSES 656 EVTFDIDANGIV VSA+DK+T KEQQITI+SSGGLSE+ Sbjct: 518 EVTFDIDANGIVTVSAKDKSTGKEQQITIRSSGGLSEA 555
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