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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0604500 |
Transcript ID | LotjaGi1g1v0604500.3 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | GPI ethanolamine phosphate transferase 1; TAIR: AT3G01380.2 sulfatase and phosphatidylinositolglycan class N domain-containing protein; Swiss-Prot: sp|Q5AXD1|MCD4_EMENI GPI ethanolamine phosphate transferase 1; TrEMBL-Plants: tr|A0A078IDZ6|A0A078IDZ6_BRANA BnaC05g48780D protein; Found in the gene: LotjaGi1g1v0604500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:114933667..114942586) extracted from Lotus japonicus Gifu genome v1.2.
ATGCGCACCGATGGGATCTTAGGAAACAGAGATAACTCAACAAAATGGTTGAAGACAAGGGAACGATGGCTCGTTGTACT GGGCGTCATCCTTCACGCTATCTACATGCTCAGCATCTTCGACATATACTTCAAAACCCCCATTGTCCGCGGCGTCGATC CCGTCACGCCTCGTTTCACTGCTCCCGCCAAACGCCTCGTGCTTCTCGTCGGTACGTCATGCACACCACCTGTTTGATGT TATGTTTCTGTGAATTTGGCTTCATGTTTGTAAAATGTGTTGTGTTTTTATTCAATTTTGATTTGATATGGTTGAGGTTT TAATGCAGCTGATGGATTGCGCGCGGACAAGTTCTTTGAGCCGGACGCGCAAGGGAATTACAGAGCACCGTTTTTAAGGA GAGTAATGAAGACGCAGGGTCGTTGGGGAGTTTCTCATGCTCGCCCTCCCACCGAGTCGAGGCCTGGACATGTTGCCATT ATTGCTGGTTTTTATGAAGATCCTAGTGCAGTTACAAAAGGTTGCTGTTATTCTCTTCCTTTATGGAATATTAGTTTTAA GAGGATAATTGAAATAGCTTAACTTAGTGTTTTTTTCTATCTCAAATAAAATTCTCTGATTTGACATTTTTTTTATTAAA ATGCATGGAGTAAAATGGTAGACTGTCATGACTTTTTATGCAGTAAAATGCAAGAGACTTATACAATATTTCTTTTGATT CTTGGCTTGGCTGGATAGCACTGCCTTGTGTCAACTAAAAGATACATTTGTTTTGGGTTCGCTGCAGGGTGGAAGGCTAA TCCTGTTGAGTTTGATTCGGTGTTTAACAGAAGCCGGCATACAATTTCTTTTGGAAGTCCTGATATAGTTCCAATTTTCT GTGGTGCCTTGCCGCATAGCACCTGGGATACGTATCCGCATGAGTTCGAGGACTTTGCAACTGGTGTGACTGCAGTTTTT TCAATATGCACTGTTTCATTTATGACAATCTTTTTCTCCCTACAATTTTTCCTTTATCCTTCTTGTTAGATATTTTAGAG ATCCCATGCCCCGCATGATAGTATGCTAGGTGGAAAAGTAAAATATTGACCATGTTAAATTCTCAATCCTCAATTTCATG TATCAATCAATTCAGGACTCTTAAATTCTTAATGCAGATGCATCATTCCTGGACATGTGGTCTCTTGATAAATTTCAGAG CCTTCTTAATCGGTCCAGTGAAGACCCAAAGTTAAAGGAGCTACTGCAGCAGGATAACCTTGTTGTATTCCTGCACCTGC TTGGATGTGACTCTAATGGCCATGCACATAGGCCCTTTTCGTCCATCTATCTCAATAATGTTAAGGTTGTTGACCATGTA GCTGAAAGTGTTTATAATCTTCTTGAAGATTATTACAAGGATAATCGTACAGCATACATTTTTACAGCAGATCATGGAAT GAGTGACAAAGGTTGCAATACTTTTTTATTTTATTTTTATCATACCTATGACTAGACACTCTCTTACTTCATGTCATAAC TTAAAATGTTAATTCCCCTATAGAAGTTGAAACGTGTCTGGTAAAATTTTCCTTTTGAGTTTAAAAGAGACTTTCAATTA AAAAATGCCTAAACAGTTTCTCCGTATTCACTTATCTATGTGTTGAGATATGTATAATGTGATTATATGTACTTTAATTC ATTTTGTATACATTTGTATTGTAAAAAGCCCTACTTTGTAGGATATTAAATTTAGGATGATCCTTTCCCTCTCAACCACT AGGTCAAAGATGTTTGATGTATCAATAAAATATTCACTTTCTCTAATCTCAAGTCTATTGATTTATACTTCTCACTTTTT TTATCACTCTGTATAATAATCCAAGGTACCTCAATTCTTCAAATAGCGGTATGTACACATTCGAATTTTCACCTGTAAGC CAATGCTTGTGCTTGTGCACATCTAGTTGAACGTACATTATATGCTAGATTATTGAAGCTTTGCTCCTAGGACCTAGAGT TAGTCTTTGCCTTAGACATAGAAGAATTTTCAATTTCCAAGTACTTCAGTTGTTCTTTTGTCTGTATTATACTTATTTGT TCGCTGTATTGAAATTAAAATAGTTTTAAAGTAATAATTTTGTGTATTTATTTGTTTATTTATTTTATTTCTATTCACAG GGAGCCATGGAGATGGGCATCCTTCAAATACTGATACTCCCCTTGTTGCTTGGGGAGCTGGTGTTAAATATCCAAGGCCA ATATCTAGCAGCAACCATTCTGATTGTGGTTTTAGGTTTGTTGATGACCATGTGCATGACGCTCCAACACCAATTGAATG GGGCTTGCATGGAATAGAAAGGGTGGATGTCAATCAGGCTGATATTGCACCACTGATGGTTGTAAAATTTATCTTTCACT GAGGATTTCTGCTCAAAGCGTGATGAATGTCTCTCCATTTTCCTTAGATTTTGATATACTTCATTCAATTTTCTGACAGT CTACACTACTCGGTTTACCATGTCCCGTTAATTCAGTTGGAAGTCTACCCATAGATTACATTAACATGACCAAGGTAGCC TTTGATTCTGATTTATAAAAGCTTGTTGTTCATTTTAGTGAACAGTAGTTTAATGTGCTTTTGTTCGCTACTCTCATTGG TATATATTGTCATTTTTATGGATTGTCTTGTCCTACTGGTGGTAAAAAGTGTAAAGGCTATCTACATGCTGAAGACTATA TATTTGCAGATGATCTGACTCTGATTAAGATTTAATTTATATTTTCTTCCAGGATGAAGAAGTTGAAGCTGTTCTATCCA ATACAAAAGAAATTCTGAACCAGTTTCTTCGCAAATCATGTATCCTTCGCCTATGTTGACTTATCATTGATGATATGTAC TGATTGTTCCTTAGTTTCAGCATGACATCTTCCACCATGGTTTCAAACTTTAACTGATATAAAGTAATTTTTCCTCTCAA GCAAAAATATGCTGAAGGGACCTCTAACGATAAAATACAAATATTTTCGGAGCCAATTCATGAGTAAAATGTTATGTAAG AAAGTAACAAAGAAAAAGACAGACAATGTAGAAGTAAAATGAATTGAAGAACTCCTTACTGATGTTGGTTTCATTGACAA CTTTAGACATTAAACAGTCGTACTCTTTATACTTCAAACCTTTCAAACCGCTATCTCATTATTCTTCAATTTTGGACAAA ATTGAGAGTCTGATATTGGCTAGAGATTATGATGCTGCAATGGAGCTATCCCAAAATCTCAGAAGTTTGGCATTGCAAGG ACTTCACTATTTTCAGACTTACGACTGGCTGATGCTCATGTCTGTAATTACCCTTGGGTATGTTGGTTGGATGATCTACC TTGTTCTTCATGTGCTGCAGTCTTACACTTCACTGCCAAGAAATATTTTTGGAATGGAGCAATCAGTTCAGAGAAATAGC CATGGAAAAGTAATGTTTTTGTAAGCTTAGCTTTTCCTAAATGGTATTTTTTAGCCTTTTTTGAACTGTATATTGCTTTG AGATGAAGAAAATAAAGAAATTTTGATGGAGATACACAAGACATGGAACATGGAAACTCAGTAGATTGAAATTCTTACCT GAAATTTATCGATTCTTATTGGTTTCATATAATTATCAGCTCTTTTTCCTTTGATGATTATCAATTAAATAATTAAATAA GTATGTATCTTATCTTCTTTTGCAGATATATCTATATGGATGTTTGGTGACGGGAATGCTTTGTTTGCTATTATTGCTAG AACGCTCTCCTCCTCTCTACCATGCATACATGATAATGACATCATTTTTATGGGTTCAAATAATTAGTGAATACCAGTTT ATAAAAGCATTATGGAAACACATATCTGGAAGAAGAATGAACTATATCATTAAGCTGCTAGCGATCACTGCTGTCTCAGT TTTCATTCTTGAGTTCCTGGTATGAATGGTTATCATAATATTCTCTAACCTAGTAAGGTTCAACTCATCTGATGAAGAAT ATTTGGTTTGCCTTACAGGTTAACAGCTTCACTGAGAGGAAGCTCTATACTTTGCTTTTTTTAATTGCTGGGGCCACAGC TTCATTTTATCTTTTTAAGTCTATTCCCTGGAGATCTGGTATACCGATATATGTTTGCATTGCATGTTGGTTTTTGTCCC TTTTCACACTGATGCCGGCAGAAATTCCAGACAATAATCAATTAGTGTAAGTCGCTTCCACCACTGAATATATAATTAGT ACAACATAAACAAGGCCAAAGTTTAATGTAAGAAAATGGTAGATCAACAACCTTCTGATTGAAAATAGTTTTAGGATGCC AAAGTTTCTCATGTTGATGTTTTCTCTTTATTTTAATCTGTTTGTTGCTCATCTGACAATTCTGAATCCAAAAAGTGTTC AACATTCCAAATTATCATGTTTGCAGGGTTAGTAGTGGGGCTGTTATTATCATTATAGGAATAGCTGCAAGGTGGTTAGA TTTACATGCTGGCAGAAGTAAGTATTGGCTAAGCATATGCAATTGTGAGTTGAGAAGTCCCAAATATTCATCTCTATTTT ACGTACAGGTAACTATAATGATTTTTCTACCATTGTGTTTGAAAGCTTAGCTAATACATGAAAAATTCACTGTTTACTAT TTCTTGTTTATCACTAGGCTCTTTTGGTTGCTTTATCTTCAGTCATGGTGTATTTATCAACTTCTCACAGAACTGAAAAG CAAGAGTTGCTTGCATTGCATCAGTTGGTAAATTGGTCTGTTGCTGGTATAGTTTTGACTTTTAATTCTTGTCCCTTTGC TTGAATTTCTTAGTCCTATTCAGACACTTTTACCAAATTGTACGCTGTTCTATTATAGTTGCCTTGATCTTTCTCAGAAT ACACAACTTTTTACCTGCCATTTTTTCTCTTTCTTGTCAATCTATATGTGGTATGGATGGCAATGGTTGCGATTATGTGT GATTATGTGTGATTATTTTTAGTTGATGTTGTGTATATTTGTATTATGGGAAGTTATACATAATTATAGGACACTCGGAT GATATCTTTGAGATAAAGGATGATTCTGAATTTCTTGTGCATGAAGCATTCAAATTTAAGATTCAATCTTGGTTGATATT GACAACCTATTTTTCTAGGTATGTCCATGGTACTCCCACTGTTTTCCGAAAATAGCCTCTTATCCCGGCTGACTTCCATA TTTCTTGGCTTTGCGCCTCCATTCCTTCTTCTCTCCATCGGGTATTATCTCTTTGACCAAACTTCTTTCAGACGTTCTTT GAATATATTCTTGATGTAATGATGCATATGTTTTTACCATTTCATTTTTGAAACATTTGCAGATATGAAGCTTTATTCTA TGCTGCCTTTGCTCTTGTACTTATGGCTTGGATACTCTTTGAAAATACACTTCTCAACTTTAATTTTATGACTAAGTCAT CAGGTTCCATTAAAAATGTTACAAATCATCTCATCCCTGGATCTGATAACAGATCTTTGCAGCTATCTGATGTGAGAATC GCATTGAGCTTTGTAAGTTTTTTCTTTTCTGTCTTATTTCCTTCAAATCTTGATTAAATTTGAGCAGCCCTTTTGAGTGA AGTATACTAGAGGAACTCCTTTTGAGATTTTATGAAATTACACAACCATTCTTAAGCAAAAAATTACACTGCCCTTGTTA ACGCCTTTTGATTGATAGAGTCTCTAAAATGGGAAGGAATATTCAGCTTAACCCAACAATTAACAATGGTTTTCTTTTAA TAGCTTTGCGACTTGTAATAGGCCTTCTTATGGAATCAGGATAATTCATCTCCTATTGTTACTTGTAACTGCCGGTAACA ATAATGAAATGCAGACAACAATATTTCTGGTTACTTAAAAGGAAGATATTCATATTATAATGGTCCGGCAGCTTTGTTGA AATCTCTATGTTGCTCTCCGAATCTATTGGAAATCTTGATTGTTAAAATGTGCATGACGTTTGTTTGTTTCTTTTGGCCA TGGCGTTTGTATTTAACATATAAATGTTTCACTCAGAAAGCCACATGGGCCTTAGGATAAGGATATGATCAGGGAAATGC AAAGATGTCTGGTTGCTGAAGTACAGAATATGTAACAGATTTGAATTGAAATAATCAAATATTTAAGATGTTTTCACAAG TAGTATAATGGAGCATATGACTGTTTAATGAACTAGATTTCATTTAGCTGATATACAAATAGTATTTGTCAAGATTCAGG GCCAACTGAAGCATGTAGATTATGCTCAATGTAAATTAAGTACGCTTTTCACAAGTGATATTTTTTGTTTTTTTGACATT AACACTCTTTTGTATCATGCAGATGGTTTTATTCAACATTGCCTTTTTTGGAACTGGAAATTTTGCAAGTATTGCTAGTT TTGAGATTTCATCTGTCTATCGGTTCATTACTATCTTTAGCGTAAGTGAAAATTAAACTCCTTTCAATTTCCAACTTACC TATCTTTAATAAGCTTTTGAACTGATATATTTCCTACCAATTGCAGCCATTTCTGATGGCGGCGCTACTGATCTTCAAGT TATTTATACCCTTCATACTTGTAATGTAAGTATTTGCAACTGTTCCACAAGATTACTTCTTTGAGACTAGAATTTCAAAA ATTGATTGAAAAAGTCATTTTCTTGCTGACGATGCATCCCAACTAAATGATTTGTGATCATATTGACTTCTTAGGCTGTC GATTTTCATATGATTGCGTGTCACCAGTATTGTTTTTAAAAAATTGGCAACAATTTTTCCCTAGGGATTCATTCACTTAA GCACTGATTGACTGTTGTCAGATCATTCGATATGTGTTGCACATTGTATGTCTTGAATATATCTGGTTTTTGTATTTAAT CATATAGAATATAACTTCATAGATCTTATCACAATTATTTCCTAGTTATTGGAGAAAATAATATTTCATCAGTATAATCT GTAGATGCCAAATTTATTAGAAATGTTTCTCTGGTGTAATCTGTAGATTCCAAATTACATATTTCACAAATAATACTTGT AATCTGAATATTTTATTGATACACTCTTTGATATGTGATCTACAAATAAATGAGTTTAGCTCTTCTAAAGTAAAGGAGTC TCTTTAGAAAGTAAAAAATCATCACAGTCATTGACTGAGAAACTAATGGTTGATATTCAAAGTTCACCATAGTTTGCTAT GCATGTGCAACAATAAGATCACAATCTCAACCGTTAATTGCCCAATGAGTGGCCGTGGTGACTTACTCTACCCAATTATG TTACTCTCTCACTTTATAGTAGCTTAATTCCAAATACATTTAGATACAAGGGTGTAATGGTAAAGGAAAGGATCATTCGA AATCTTGAAGATATGATCCTAATATCTTATAATTGGAAACCTTTTGTTCTGGGAATGAACATTGAGGATAGGGATAGTAC CTAGAGAGTGGAAAATTGTGCTAGAGAGAATGAGAATGAGAGAGAGAATGCTGAATTTCATGTGTTATTTTGTCAAATGA GCAAAAAGTCCCTTACAATTAACATCTACCTCCTATTTATAGGGCTTGGGTACTACCCATTGGGCCAATTGGGCCTCCGC GATTGAGGCCCAATTTAAGGCCAGGTTCCCGCCCTTGGGCGGGCTAAACCCTGGGCGTCGCTCCTCTAGGGGCTCGCCCA GTCCACTTTCCTATAATGCAAATATACACAAAATCAAATACAATCAAATCCCTTATAATCATATTACTCATAATCTCAAC AAGTTTTAACATTTTCTTGAGCTTGTTTCTTACTGACTTATTATTTACCGTAACAACTATGGTTCTGTATCTTCTGTTCA ATTGTTCATTTTATATTTATTTGCAATGGACTGAACTGCAGATGTGCATTCAGTGCAATAACCAAACTGAACCAAGTTCC AAGGATGGGATGCTATTTTCTTGTTATATTGTTCTCAGACGTAATGACTGTTCACTTCTTCTTCCTGGTATATACTCACC CTATTCTTTATAATTTTATTTAGTTTCAATAGTCTTCATTAAACTCTTTTATGTTCTCACAGTTCTTGATTTTTCATATT GTAAATATATTTGCCTTCACTTAATTATAGTAAATGCATGAGATCAATTGGTCAGCATAATAGAACAGTAAAATATCCCC TAGAAGTTACAATTGCTTTTCTTTTATTGCCGTCAACTTCAGTTCTTTCTTGTGTTAGTTTTCTGTTTTATTGGTTTCCT AGCACCACAGTTGTTGATAAATGTGAATATATAATTATAATTCAAGGTATGGCTAATGAAATAAGCTGTGCCTTTTTGTA ATTTTCTTTCACTTTATATTTATTATTATAATATATGAAAAATAAGGTTACTGTTTGAAAGAGAGACAGAACAAGAGATA ACAGGTAGAGAGAGATTGAGAAACCTTAAAGGCCATTGTTGGATATGATAGGACATAAAGCGTCGTAGCCGACCTCACCT AGTAGTGGAGAAAGACTTGGGTTATTAGAAATATTTCATATCTAATGTGAGGATCTGCAAACTTTTACTTATCCATCAAA TATAAGGATTTCAGTTATATACAACATGTCTTTCTGAGCTAGTTTGCTACTACTGGAAATTAAATTACTTTCAAGGCAAA ATGATTGTGGTTTTAACTGCAATTGGATACTCATATTTTTCCATTTGCTAATTTTAATGCCTCAGGGTATATATTTGAAG GCTAGTACCCTAATACTGAAATTTATGGTTGGCAGGTTCGGAATACAGGAAGTTGGATGGAAATTGGAAATAGTATCAGT CATTTTGGTATCATGAGTGCCCAAGTTGTTTTTGTTCTCTTACTCTTTGCCCTCACAAATACATACACAAAAGACATCCA CTGTAATTCCGCAGTACCGTCTGCACGAAAGGCAAATTAG
CDS sequence (LotjaGi1g1v0604500.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCGCACCGATGGGATCTTAGGAAACAGAGATAACTCAACAAAATGGTTGAAGACAAGGGAACGATGGCTCGTTGTACT GGGCGTCATCCTTCACGCTATCTACATGCTCAGCATCTTCGACATATACTTCAAAACCCCCATTGTCCGCGGCGTCGATC CCGTCACGCCTCGTTTCACTGCTCCCGCCAAACGCCTCGTGCTTCTCGTCGCTGATGGATTGCGCGCGGACAAGTTCTTT GAGCCGGACGCGCAAGGGAATTACAGAGCACCGTTTTTAAGGAGAGTAATGAAGACGCAGGGTCGTTGGGGAGTTTCTCA TGCTCGCCCTCCCACCGAGTCGAGGCCTGGACATGTTGCCATTATTGCTGGTTTTTATGAAGATCCTAGTGCAGTTACAA AAGGGTGGAAGGCTAATCCTGTTGAGTTTGATTCGGTGTTTAACAGAAGCCGGCATACAATTTCTTTTGGAAGTCCTGAT ATAGTTCCAATTTTCTGTGGTGCCTTGCCGCATAGCACCTGGGATACGTATCCGCATGAGTTCGAGGACTTTGCAACTGA TGCATCATTCCTGGACATGTGGTCTCTTGATAAATTTCAGAGCCTTCTTAATCGGTCCAGTGAAGACCCAAAGTTAAAGG AGCTACTGCAGCAGGATAACCTTGTTGTATTCCTGCACCTGCTTGGATGTGACTCTAATGGCCATGCACATAGGCCCTTT TCGTCCATCTATCTCAATAATGTTAAGGTTGTTGACCATGTAGCTGAAAGTGTTTATAATCTTCTTGAAGATTATTACAA GGATAATCGTACAGCATACATTTTTACAGCAGATCATGGAATGAGTGACAAAGGGAGCCATGGAGATGGGCATCCTTCAA ATACTGATACTCCCCTTGTTGCTTGGGGAGCTGGTGTTAAATATCCAAGGCCAATATCTAGCAGCAACCATTCTGATTGT GGTTTTAGGTTTGTTGATGACCATGTGCATGACGCTCCAACACCAATTGAATGGGGCTTGCATGGAATAGAAAGGGTGGA TGTCAATCAGGCTGATATTGCACCACTGATGTCTACACTACTCGGTTTACCATGTCCCGTTAATTCAGTTGGAAGTCTAC CCATAGATTACATTAACATGACCAAGTCTTACACTTCACTGCCAAGAAATATTTTTGGAATGGAGCAATCAGTTCAGAGA AATAGCCATGGAAAAATATATCTATATGGATGTTTGGTGACGGGAATGCTTTGTTTGCTATTATTGCTAGAACGCTCTCC TCCTCTCTACCATGCATACATGATAATGACATCATTTTTATGGGTTCAAATAATTAGTGAATACCAGTTTATAAAAGCAT TATGGAAACACATATCTGGAAGAAGAATGAACTATATCATTAAGCTGCTAGCGATCACTGCTGTCTCAGTTTTCATTCTT GAGTTCCTGGTTAACAGCTTCACTGAGAGGAAGCTCTATACTTTGCTTTTTTTAATTGCTGGGGCCACAGCTTCATTTTA TCTTTTTAAGTCTATTCCCTGGAGATCTGGTATACCGATATATGTTTGCATTGCATGTTGGTTTTTGTCCCTTTTCACAC TGATGCCGGCAGAAATTCCAGACAATAATCAATTAGTGGTTAGTAGTGGGGCTGTTATTATCATTATAGGAATAGCTGCA AGGTGGTTAGATTTACATGCTGGCAGAAGTAAGTATTGGCTAAGCATATGCAATTGTGAGTTGAGAAGTCCCAAATATTC ATCTCTATTTTACGTACAGGCTCTTTTGGTTGCTTTATCTTCAGTCATGGTGTATTTATCAACTTCTCACAGAACTGAAA AGCAAGAGTTGCTTGCATTGCATCAGTTGGTAAATTGGTCTGTTGCTGGTATGTCCATGGTACTCCCACTGTTTTCCGAA AATAGCCTCTTATCCCGGCTGACTTCCATATTTCTTGGCTTTGCGCCTCCATTCCTTCTTCTCTCCATCGGATATGAAGC TTTATTCTATGCTGCCTTTGCTCTTGTACTTATGGCTTGGATACTCTTTGAAAATACACTTCTCAACTTTAATTTTATGA CTAAGTCATCAGGTTCCATTAAAAATGTTACAAATCATCTCATCCCTGGATCTGATAACAGATCTTTGCAGCTATCTGAT GTGAGAATCGCATTGAGCTTTATGGTTTTATTCAACATTGCCTTTTTTGGAACTGGAAATTTTGCAAGTATTGCTAGTTT TGAGATTTCATCTGTCTATCGGTTCATTACTATCTTTAGCCCATTTCTGATGGCGGCGCTACTGATCTTCAAGTTATTTA TACCCTTCATACTTGTAATATGTGCATTCAGTGCAATAACCAAACTGAACCAAGTTCCAAGGATGGGATGCTATTTTCTT GTTATATTGTTCTCAGACGTAATGACTGTTCACTTCTTCTTCCTGGTTCGGAATACAGGAAGTTGGATGGAAATTGGAAA TAGTATCAGTCATTTTGGTATCATGAGTGCCCAAGTTGTTTTTGTTCTCTTACTCTTTGCCCTCACAAATACATACACAA AAGACATCCACTGTAATTCCGCAGTACCGTCTGCACGAAAGGCAAATTAG
Protein sequence (LotjaGi1g1v0604500.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MRTDGILGNRDNSTKWLKTRERWLVVLGVILHAIYMLSIFDIYFKTPIVRGVDPVTPRFTAPAKRLVLLVADGLRADKFF EPDAQGNYRAPFLRRVMKTQGRWGVSHARPPTESRPGHVAIIAGFYEDPSAVTKGWKANPVEFDSVFNRSRHTISFGSPD IVPIFCGALPHSTWDTYPHEFEDFATDASFLDMWSLDKFQSLLNRSSEDPKLKELLQQDNLVVFLHLLGCDSNGHAHRPF SSIYLNNVKVVDHVAESVYNLLEDYYKDNRTAYIFTADHGMSDKGSHGDGHPSNTDTPLVAWGAGVKYPRPISSSNHSDC GFRFVDDHVHDAPTPIEWGLHGIERVDVNQADIAPLMSTLLGLPCPVNSVGSLPIDYINMTKSYTSLPRNIFGMEQSVQR NSHGKIYLYGCLVTGMLCLLLLLERSPPLYHAYMIMTSFLWVQIISEYQFIKALWKHISGRRMNYIIKLLAITAVSVFIL EFLVNSFTERKLYTLLFLIAGATASFYLFKSIPWRSGIPIYVCIACWFLSLFTLMPAEIPDNNQLVVSSGAVIIIIGIAA RWLDLHAGRSKYWLSICNCELRSPKYSSLFYVQALLVALSSVMVYLSTSHRTEKQELLALHQLVNWSVAGMSMVLPLFSE NSLLSRLTSIFLGFAPPFLLLSIGYEALFYAAFALVLMAWILFENTLLNFNFMTKSSGSIKNVTNHLIPGSDNRSLQLSD VRIALSFMVLFNIAFFGTGNFASIASFEISSVYRFITIFSPFLMAALLIFKLFIPFILVICAFSAITKLNQVPRMGCYFL VILFSDVMTVHFFFLVRNTGSWMEIGNSISHFGIMSAQVVFVLLLFALTNTYTKDIHCNSAVPSARKAN
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
Phobius | 1 | 22 | 22 | - | – | |
TMHMM | 22 | 44 | 23 | - | – | |
PANTHER | 23 | 385 | 363 | 0.0 | ||
Phobius | 23 | 44 | 22 | - | – | |
Phobius | 45 | 405 | 361 | - | – | |
CDD | 61 | 374 | 314 | 1.41124E-161 | ||
SUPERFAMILY | 63 | 372 | 310 | 3.21E-38 | ||
Pfam | 241 | 309 | 69 | 9.2E-6 | ||
Pfam | 396 | 821 | 426 | 1.5E-110 | ||
PANTHER | 400 | 860 | 461 | 0.0 | ||
TMHMM | 406 | 423 | 18 | - | – | |
Phobius | 406 | 423 | 18 | - | – | |
Phobius | 424 | 428 | 5 | - | – | |
TMHMM | 428 | 445 | 18 | - | – | |
Phobius | 429 | 451 | 23 | - | – | |
Phobius | 452 | 462 | 11 | - | – | |
Phobius | 463 | 480 | 18 | - | – | |
TMHMM | 465 | 487 | 23 | - | – | |
Phobius | 481 | 491 | 11 | - | – | |
TMHMM | 492 | 514 | 23 | - | – | |
Phobius | 492 | 509 | 18 | - | – | |
Phobius | 510 | 517 | 8 | - | – | |
TMHMM | 518 | 540 | 23 | - | – | |
Phobius | 518 | 539 | 22 | - | – | |
Phobius | 540 | 544 | 5 | - | – | |
Phobius | 545 | 565 | 21 | - | – | |
TMHMM | 545 | 563 | 19 | - | – | |
Phobius | 566 | 585 | 20 | - | – | |
Phobius | 586 | 606 | 21 | - | – | |
TMHMM | 589 | 608 | 20 | - | – | |
Phobius | 607 | 617 | 11 | - | – | |
TMHMM | 617 | 639 | 23 | - | – | |
Phobius | 618 | 638 | 21 | - | – | |
Phobius | 639 | 642 | 4 | - | – | |
Phobius | 643 | 661 | 19 | - | – | |
TMHMM | 661 | 683 | 23 | - | – | |
Phobius | 662 | 666 | 5 | - | – | |
Phobius | 667 | 688 | 22 | - | – | |
Phobius | 689 | 722 | 34 | - | – | |
Phobius | 723 | 742 | 20 | - | – | |
TMHMM | 723 | 745 | 23 | - | – | |
Phobius | 743 | 761 | 19 | - | – | |
TMHMM | 760 | 782 | 23 | - | – | |
Phobius | 762 | 785 | 24 | - | – | |
Phobius | 786 | 796 | 11 | - | – | |
TMHMM | 795 | 814 | 20 | - | – | |
Phobius | 797 | 816 | 20 | - | – | |
Phobius | 817 | 827 | 11 | - | – | |
Phobius | 828 | 848 | 21 | - | – | |
TMHMM | 829 | 848 | 20 | - | – | |
Phobius | 849 | 869 | 21 | - | – |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Cellular component | Endoplasmic reticulum membrane | The lipid bilayer surrounding the endoplasmic reticulum. | ||
Biological process | GPI anchor biosynthetic process | The chemical reactions and pathways resulting in the formation of a glycosylphosphatidylinositol (GPI) anchor that attaches some membrane proteins to the lipid bilayer of the cell membrane. The phosphatidylinositol group is linked via the C-6 hydroxyl residue of inositol to a carbohydrate chain which is itself linked to the protein via an ethanolamine phosphate group, its amino group forming an amide linkage with the C-terminal carboxyl of the protein. Some GPI anchors have variants on this canonical linkage. | ||
Molecular function | Sulfuric ester hydrolase activity | Catalysis of the reaction: RSO-R' + H2O = RSOOH + R'H. This reaction is the hydrolysis of any sulfuric ester bond, any ester formed from sulfuric acid, O=SO(OH)2. | ||
Cellular component | Integral component of membrane | The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. | ||
Molecular function | Transferase activity | Catalysis of the transfer of a group, e.g. a methyl group, glycosyl group, acyl group, phosphorus-containing, or other groups, from one compound (generally regarded as the donor) to another compound (generally regarded as the acceptor). Transferase is the systematic name for any enzyme of EC class 2. | ||
Molecular function | Mannose-ethanolamine phosphotransferase activity | Catalysis of the transfer of ethanolamine phosphate to a mannose residue in the GPI lipid precursor. |
Expression pattern of LotjaGi1g1v0604500.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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