Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi1g1v0098200 |
Transcript ID | LotjaGi1g1v0098200.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Pentatricopeptide repeat-containing protein; TAIR: AT1G73710.1 Pentatricopeptide repeat (PPR) superfamily protein; Swiss-Prot: sp|Q9C9U0|PP118_ARATH Pentatricopeptide repeat-containing protein At1g73710; TrEMBL-Plants: tr|A0A1J7IG49|A0A1J7IG49_LUPAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0098200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:14963570..14973611) extracted from Lotus japonicus Gifu genome v1.2.
GCAAATTGCAATTTCACAAATTTCATAAACCTATCATAGTCAAAACTGTAAGGACTAATTGGTGCTAGTACCTCCCATTT GCTGAGCCTGTACTATACTTCTCCTACCATTCACCGCCGTTTTCCTTCAACCTCCCTTTCTTCTTCCAGCTTCACTGGTC GTGCCTTTGCGGCCACACATCAAACATGTCGTGTGCAGATAAATTCTATGTAAGTTCTTCATTTTCCTCGTTGTCTTCTT CAAATTTCACCAATATTTCCACAAAACCTTTCTGGGGTCAGTTCCCACCGTTGAATGTGAGGTGGGTATTTCCTCCTTTG AGCTGTTGCCACTCAAAGACTCTACCTTTACCCACAAAAATTTCATCTTCCACAAAAGGTAGTAGTAGTAGTAAGAAGAA GAAGAAGAAATATGGGGGTGTTTTGCCTTCAATTTTGAGGTCATTGGAGTTGGCCAGTGATGTTTCAGAAGCCCTTGATT CCTTTGGTGAGAATCTAGGTCCAAAAGAAATCACTGTTATTCTCAAGGAACAGGGTAGCTGGGAACGTCTTGTGAGGGTT TTTGAGTGGTTTAAGGCTCAGAAAGGGTATGTTCCTAATGTGATTCACTATAATGTGGTGCTTAGAGCATTGGGTAGAGC TCAGCAATGGGACCAGTTGAGGCTCTGTTGGATAGAGATGGCGAAAAACAGTGTTTTGCCAACAAACAACACTTACAGCA TGCTTGTTGATGTGTATGGGAAAGCGGGTCTTGTGAAAGAAGCTCTTTTGTGGATTAAGCATATGAGGATGAGAGGTTTT TTCCCTGATGAGGTTACCATGAGTACGGTTGTTAAGGTCTTGAAGAATGTGGGGGAGTTCGATAGGGCGGATAGGTTTTA CAAGGATTGGTGTGCTGGGAAGGTTGAGTTAGATGATCTTGATTTGGATTCTTTAACTGTTACTAGTACTGCCAGTGGTT CTAGAACAATACCTATTAGTTTCAAGCATTTTCTTTCCACTGAGCTATTTAAGATAGGTGGGAGAATTTCTGCTTCTAAT ACTATGGCTTCATCGAATGCAGAGAGCGCTCCCCAGAAACCGCGGCTCGCTTCCACTTACAATACCCTGATAGATTTGTA TGGCAAGGCCGGGCGGCTAAAAGACGCTGCTGATGTCTTTGCTGATATGTTGAAATCGGGAGTGGCTGTGGATACATACA CTTTTAACACTATGATCTTTATTTCTGGAAGTAATGGTAACATGTCGGAAGCTGAAACTTTGCTTGGTAAAATGGAAGAG AAGGGTATATCTCCTGATACAAAAACTTATAACATTTTTTTGTCTTTGTATGCTAAAGCCGGGAATATTGACGCTGCTCG TGATTATTATAGAAGGATCAGAGAGGTTGGGCTCTTCCCAGATGTTGTAACTTACAGAGCTCTTCTCAGTGCTTTATGCG CAAAGAACATGGTTCAAGCTGTGGAAGCCTTAATTGATGAAATGGACAAATCTTCTGTTTCTGTTGATGTGCATTCTCTT CCTGGTATTGTCAAGATGTATATTAATGAAGGGGCTCTTGATAAAGCAAATGACATGCTGCGTAAGTTTCAATTAAATAG GGAACCATCATCAATTATATGTGCTGCAATTATGGATGCTTTTGCTGAAAAGGGACTCTGGGCTGAAGCGGAGAATGTGT TTTATAGGGAAAGGGACATGGCAGGACAGTCAAGGGACATCTTAGAGTACAATGTCATGATCAAAGCATATGGCAAGGCA AAACTGTATGAGAAAGCTGTTTCTCTCTTCAAGGTAATGAAAAACCACGGGACTTGGCCTATTGATAGCACTTATAATTC TCTTATTCAAATGTTATCTGGTGCTGATTTAGTGGACCAAGCAAGGGACCTCATAGTTGAAATGCAGGAAATGGGGTTTA AGCCTCATTGTCAAACTTTTTCTGCTGTTATTGGATGCTATGCTCGTCTTGGTCAGCTGTCTGATGCAGTAAGTGTGTAT CATGAAATGCTAAGTGCTGGAGTGAAACCAAATGAGATTGTTTATGGATCTATAATAGATGGATTTTCAGAGCATGGTAG TCTTGAAGAGGCACTCAAATACTTCCACATGATGGAAGAATCTGGATTATCAGCAAATTTAGTTGTCTTAACAGCTCTAT TGAAGTCCTATTGTAAAGTTGGAAACTTAGACGGAGCGAAAGCCATCTACCAGAAGATGCAGAACATGGAAGGAGGTCTT GATTTAGTTGCTTGTAATAGTATGATTACTCTCTTTGCAGATCTCGGCTTGGTATCTGAAGCCAAGTTGGCTTTTGAAAA TTTGAAAGAAATGGGCTGGGCAGATTGTGTTTCATATGGAACAATGATGTATCTTTATAAAGATGTGGGTCTGATTGATG AGGCCATCGAGTTAGCTGAGGAGATGAAACTGTCGGGTTTACTGAGGGATTGTGTTTCGTATAACAAGGTACTGGTGTGT TATGCTGCTAATAGGCAATTTTACGAGTGTGGTGAAATAATACATGAAATGATATCTCAGAAGCTCTTGCCAAATGATGG AACTTTTAAAGTGTTATTCACTATATTGAAGAAGGGAGGTTTTCCTATTGAAGCAGCAGAACAGTTAGAGTCATCTTACC AGGAGGGGAAACCTTATGCTCGACAAGCAACCTTCACTGCTTTGTACTCCTTAGTTGGTATGCATACTTTGGCACTTGAA TCTGCCCAAACATTCATAGAATCTGAGGTTGATCTTGACTCTTACGCCTATAATGTGGCAATCTATGCATATGGTTCAGC TGGTGATATTGGTAAGGCCTTGAATTTATATATGAAAATGAGGGATAAGCATATGGAACCTGACCTTGTAACTCATATAA ATCTGGTTATTTGTTATGGAAAAGCTGGCATGGTTGAAGGTGTGAAACGGGTATATAGCCAATTAGATTATGGAGAGATT GAGCCGAATGAGTCTTTGTACAAGGCTATGATAGATGCCTATAAAACTTGCAATAGGAAGGACCTCTCTGAGTTAGTTAG CCAAGAAATGAAATCCACATTCAACTCAGAAGAATATTCTGAAACTGAAGATGTCACTGGAAGTGAAGCTGAGTATGAAA TCGGCAGTGAAGCTGAATATGACTATGATTCTGATGAAGCTTATTCAGGTCTGTAAAATCCCTAGTTGTTTGTATATTAG GATAGATAAGGTTTTATATGTATACTGTATAAATGTGGGTGGGATTTTGTTTTAAAAAAAATGCGGGTGGGATTTCTTTG CACATCAAAACTGTATATATTAAAAAAGGTTTTATCTTCTTAGTACATGTGAGTGAACAAGGATTTTCTTTATTTTTGTA ACTTTTAACCATGCACATATATGATAAATATGAAAAGACTGGCACAGTCTCGCAGAAAACTTATTACCACAACTTACAAA TAATGAAGCATCTTTTTTCTCAGCCTGAAACAGCTTACGCCCACAAGCATTATCCCCCGAAGCCACAATCCACTGCTGCA AATGTTATTCCTAACCTATTTGATAAGAACATCAGTCATTTTTCAAAACTGCCTTCCGAAAAAGGACACAGAACATTTTA CTATACAACCTTGGCAAGGGTAGGTTTGTTTTTTTAATATATGATTATAGATGATAGGTAACCCCTTTCTTTGATAGTTA GCTAGTTGCTTAGTTTCGGAAGTTAGTTAGAGAGTGAGAGATGAAGTGTTATAGCATAGAGGTAGCGAGGGACTTCTTCT TTGTGGTCAGGTTTGTAATTGTAGGATTTTGCCCCTCTAAGAACCACTTAAGAGGGTAAAGTAAGGTATCATAACCATTG ATTTCTCAATCAACGGGTATGATTGTGATCATATACTTTCACATATACAACAAACTATGGTGTTCTTTAAATCTCAATCA TTCATTTCTCGATCAATGGTTGTGACAGCTTACTTTACCATATGAAGTGGCTCCCTCACCTTAGAAGAGCCAAATCATTT AATTGTAAAATTGGGAGAGTTGAGTCTCTCGACTACCTAGGAATCATTCTTGTAGCTTTACTTCAATAAACTCAAGTCCT TCTTCTTCTGTAGTGCATGTTCATGAATAGAATTCCGTTTTTTATGTCACTTGTACTCTTCAAGTTGTACTTTGTCTTTT CTTTTTGAATATTGTTAGAAATAATAATATAAAAGCATTCATGTGGCCCTTACCCAACAACTTAAGCTTTTCGGATTATT GGTTGTTTGTCATGGTATCAAAGTCTCTATGACCAAGCGGTCTAGAGTTCAATCCTTGCCTCCCCCAATTCTTCTAATAA AAGGTTGAATTTTAACATATGGTAGGTGGACTTGTGCATTGTCCACACTTCAAGTCCAAATAGGACCTTGCGTGAGTGGG CGTGTTAGAAGTAATAATGTAAAACCATTCATGTGGCCCTTAGCCAACAACTTTAAGCTTTTGAGATAATTGGTTGTTTG GCAAATACTTCCCCTCCTCTATCAAATTATTTTATGTCGATTCTTTTTTTTTTAAAATAATAATACTTTTATTCTTTCTG GTTACTTTCTATTCCATAAGTGTTCGCACTGAAATCTGAATTACTTAGTTTATGTCTGCATCTGAGCCTTCCAGCAGAGA GCAGAGTAGAAATATGTATTCGGCATGAATTTGGTTTAACCATGGAATTTTTAATAACCAAAAGAAACCTGACTTTGGTT TAGATTAAATATCTTTTAAACATTTGAGTAATTTACACTTAACTACCTTGAGTTTTGTTTATGTGACCCAACTCCAAATT TCCTTAAATATTACACCTCACCCGATTTGAAGTACACGGAACGCTATCAGCTGTTGATGAAATATTTAGAATAGTTTCAT TGAACACTCACTACTCCTAAATTAAAGGCTAATCTGTCAGAACTGGTACCTTCAACAGAAAGAGAATGAACACAGAAAAG GAAAGAACTCTTGTCCAAAATGACTGAGATTCCAATCAGAGAAGAGGGAATATACAATTTCTGAGATAGTTTCCAACTGA TTCCCTATGAATCAGTTATTCCAGTACCTAACTTCTCAAAAGCTACCTAACTGAGGTGTATTCACCTCCTATATATGCTA ACTCAACTACTAACTGATAACCAGTTAGGTACTTTCTACTCATGCTAGGGGATCTAGTGGCTCTAGGAGAAAGCCTTGTC ATATCATAATCTAACCTCATGTAGTCACAATACATAATGTCATAACCATGGTTACTCACCTACTTTAGGCTGGAAAAGAG AAAAGAAAATGTCATTAGTTACTCATCATTAAAAGATTATAGTAAAGGAGAAATCTTCAAAAAAGAAACCCGAAAACCTC AATAACATTAGATTTTTTTGTGTGTGTTTATGGCCACTTGAGTTTATACAAGGGCTTGAATGTCATGTTAAAACTTAAAA GAAGTACATGATTAGTTTTCATGTTCTTTTCAGTCTTCTACACTGAATCTTTTTTTATGTTAATGGTATTATCATTTGTA CATTTTGGTGAAAGGTTTAACTTATTTTGAAAAGATATTTATTTACATTGTTTTCAAGCCTCTGGTTTTGGATCATTTTC AATAAAAATAGTTGTTAGATTATATGAAAGATATCTCATAATATTTGGACTGGATGAATAAAGCCTTTTGGAATTGTGAA TTTTATATGCGTCTGCCTTATTTTATATGTTTACCATTACTTGTCACTTACAGCATCCATAACTTTTTTTCTTGTTTTAT TAAATTTCAGGTAATATAAGCATTTGATGGAACTCAAATATCAAACTTGGAAGAACTACATGGAGTAAAAGGTATAGTTA ACTAGAGTTTGTTTCACGTCAGTTTGCATTCTAAGCTTTAACATAGTTCTATATAATTCCATATAGCTTATCAAAAAAAT AAAAAATTCCATATAAAGAAGTTGTTGTGTTTCACCTACAAATGGAAAAACATAATTTCTACTCTCCTATTAGAAAGGCA CAAGTTTTTATGTGTCAAGTTCCATATACTTGTACTAAACACTAATTATCCTCGATATTCTTCATTAAATTATATATATT GATTAAATTTTCTTAATGTCAATTTTTAGTTAATGTACTTAGTAGATAATATTTTGTTCAACTGCATCAAGCCATATTAT CATATGTTGATTACTTGACTTGGAATTCTTCTTTGCATGTATTTTCCCTTATTCCTTCAATCATCTCATTGATATTCCTC AACCACCCACATAGAATGTTCTTAGGTAAATTGACTGTGTCGCACTGTCGCTAGTTGCAAAATCTTTGCATTGATCAATG TTAACTCATTCTTAGGAGTTGTGCTTTATTTAGCATTCTCTGTTTTTAAGACATACATTTTAAGATTCATGAAAAATAAA AATTGAAATGAAAAACAATCAAGCAAGAAACCCAATATAACCAGTTTAAATGCTAGTGCATTCCATTTTATAGGTGTAGA AATTGCTCTCTTGATGCTGATATTAAAAATTTGTTACATATCTTACTTTGTAGGTTGTTGGATTGTGTATAAAACATTTG ATAACTTGATGTTTGAACTTGTGGCTTGAGTTTATGTCAGCCAATGATACACCAGAAAGGGATCCAACAGCCTGGTATGG ACTTAAGCATATTTGCTGAAAAGATGTTTTACTTCTGGTTCTTTCTATTACTGCTGTTACTGTTAAGGTCCCACATTGAC TAGAGATATGACTTAATAAGTCCAACATGGTATTAGAGCCTACCTACATTTGTTTATTAGAGACCACCCATATATGGGCC ACCCGCAAATATTCATTCCTAAAAAATTTCATGCTCCAGATGTTTAGTCCTAGACGTGAGCGGGTGTGTTAAGGTCTTGC ATTTACTAGAGATATGACCTAGTAAGTGCTTTTGGGGTTGAGTTAAATCTAACCCAAATTCTAAGATGGTATCAAAGCCT AGTTCTGTTTATTGGAGACTATCTATATGTGGGTCACCCGTAGATATTCAGTTCTGCAAATTCTACGCTCCACATGTTCA ACCCTGGGCATGAGGGGTTGTGTTAAAAAAGTCTCACATTGACTAGAGATATGACTAAATAAGTGTTTATAAATGGTAAA CAACATTTGCTCCAAATTACAGTAATGTAATTGTTTATTCAAAACTTGTTTCACCATTAATAATAAGAAAGCGTCACTTC ATTATAGTAACTTCGTAATTACTTCCAACAAAGCGTCTAACCTATATTGTCAATCCCTAAGCTAGCTTTTGGGTTAGAGT TATGCCTAACCCAAATTCTTAGAGTTATATTATTAATTAATTAGTAGTTTAGCTACTTGGGGCCTTATCTTGTCCCATTT TCTAATCCTAATAAGCTTCATTGCTCCAAATTACAGCAATGTAATTGTTGATTCAAAACTCGTTACACCATCAATTATAA GAAAGTGTCACTTTATTATAGTAACTTCATAATTACTTCCAACAAAGCTTCTAACCTATATTGTCAATCCCGGCGCGATC GTACCCGTAGTGTCACGGCCATACACTGGGACGGCAAGCACCATTATGTCTCATTTCAGTGCTGTGGTCGAGATTGCGGC CCATTTTGCGCGCGATCCCGACGTGATAGTGAGAGGGTCTGCACTTTATGAAAATGGCAAAAAATATCCCCTAGATGGGA GGATGAGATCGTGAGCCTCTCCCCACTTTCCTGCACTCTCGAGCAAGACTTCTTCGTCCTTGCTCTCTCAAGCGCGACAA CCGACCGATGACCATCGTGACCCTTTGGCGACCACCGGGACCTGATGCCCGGCGTGCTTCTGCTATGTTCTGCTATTCTG TTCTGCTCTGTTTCTTGACACAACTGATGGTGAAAAAGATGAAAGGCCAATGCTAGAAGATGATGGTTGATGATTTATTT TGTAGCTAGGAACTCTTATTTTCCTTGTTGTTTTTATGGTTTTTAGTTGTATGACTTTTTTCAAGACTGATGACTTTTAT TGCTAGTTTGCTACTATAAAAGAATGAATATGTTATGAATTTTTAGTAATATTTTTCATTAATTTATTATTTATGTAAAT AGTATAAATTAAACAAAACACAAACAAATTCACTATCCCGCTATCCCAGTTTTTGGGTTGGCCGCTACGCGCCAAGATCT AGGACTGACAACATAGCTTCTAACTGTTCTTTTAAAAAGATGGCACACTCACAATACAGATTAATTAGCAGTGAAAAAAC ATATTATGCTGCCAGTTGATCAAAATAAAATCCTTAAAAACAATATGGAAGCCGAGCAAGTTGCATGTGTTAATGTTTAG TAGTGTTACATAAGCACACTCAGAAATATATATATATATATATATATATATATATATATATTTTTGGTAAGCCTCACAGA AATATATATGTTGGGAATGGATATTATTGTTTGTTATAATGTTACAAAAAATATTTGCAGGCATAAAATATTCCTTGGGA AAAAATATAACCATCACATTCCCATGATTTCATTCCCACAAAAGGGTTTGGGAAAGACACATTCCCACCACATTCTCATA ATTTCATTCCCATGAGAGATGTCAAAAAAAGTAACTGTCACATTCCTATGATTTTTTTTCATGTTAACCAAACACATTTT TCTAAAATTTCTTGGAATATCATTCCCATCATTATATTCCTAGAATACATTGGTATAACTGGAAACAAACGCTACTCAGG TATTAATATTTGATGGAATATTGATGATATGAAGATCAATTGTAGGTCCTGGAGTTTGGATGAGGAAACTTGGAAATGTG TGAAGAGTTTCATAAGGATGGGACAACCAACATAACATGCATTGACCTTTCAACGGTTGCAGCGTACAACATGCACAAAC AGTTACTTTCCCCGGATGAAAAGGTTAGCTTGCTTAATGATTGCTTGCTGTTTGCATACAGCACATTGAAAAGCATTGGT AGGGAGGGTTTAAGCTGATTGCACATTTTTCTCAGTAACTTTTGGCCAGGTTTCAAGAATGGACTTTTAGTCTTGTCTCC TTAATAGCTCTTGCTGTGATTACGATACCTGTGGTGCAATTGGTGACCTTCGAACTGTGGCTTCCATATGAGAAGGTTCT TCTTATCTAGTCAACTGACACTAGCTGAGAAAAGGTTACTAAAGGCACATGCTTGAGCCACAGACACGGGTGAGCAATCA TTTGAAGGTTGATAAACTGAGCGTATCAGAGGTTTGAGCTCTGATGACATAGAAGAAACAGTAATTGAAGGAAAGGGAGA ATGAGGTTTGAGAACTCTTTCCAATTTCATTTATTGTGAATATTCTGTGTATGTTTTATGTATTATAGATTGAACTAGCT TTGTGGGATAACAGAGAAAGCTTCGGGGATATTCCACAGGAGGTTAGCCTCAACCGAATCTGTTAGAGAATTCAGTTGAG CTGTTATAACTGACTAAATTATTGGAGCTGAACTAAACTATATCTAATTAAGAACATCATACATGCGAAGTCCAAGCATA CTCCAAAAATATTAGAGGAGAATTATTTCTCATGAAGCATGAGACCAAGGAATTATTGGACGTTTCTGAATACTTTCTAA GAAGGCCAGGAGAAAATTATGAGGAATGATAATGGATGCTTTCATTCTTTCTTGAAGTGATATGCTACATTGCTACTGGT TTTCGCAGCATTCTCACCTAAGAAATTGTGTGAGTAAGTCTGTTTATTGTGAAAATTTTCAGATTATCATATGTTAAGAT TGTCTGAACTGTAAAATTATTTTTTGAGTTTTAATCTAGAAATTGTATATTTTTCTCTGTTGTTTTATTAATGTGAGTCA TTGTTGCCCCACACTGGTTTCATGAGTTTGATGCATTATCTAAATCCTGTGTTTATACTATAAGAATCCGTGGTGTTGTT TCCTTTGCTCTTTGATGTTCAATCTAGCCACCTAGGGTACTGATTTTGGGGGTTGTTGTGTAATATCAATAGTAGTAATA ATATTTTTCTGCCTAAGCATTTTTGTTCTGTTTTTCCATTTT
CDS sequence (LotjaGi1g1v0098200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCGTGTGCAGATAAATTCTATGTAAGTTCTTCATTTTCCTCGTTGTCTTCTTCAAATTTCACCAATATTTCCACAAA ACCTTTCTGGGGTCAGTTCCCACCGTTGAATGTGAGGTGGGTATTTCCTCCTTTGAGCTGTTGCCACTCAAAGACTCTAC CTTTACCCACAAAAATTTCATCTTCCACAAAAGGTAGTAGTAGTAGTAAGAAGAAGAAGAAGAAATATGGGGGTGTTTTG CCTTCAATTTTGAGGTCATTGGAGTTGGCCAGTGATGTTTCAGAAGCCCTTGATTCCTTTGGTGAGAATCTAGGTCCAAA AGAAATCACTGTTATTCTCAAGGAACAGGGTAGCTGGGAACGTCTTGTGAGGGTTTTTGAGTGGTTTAAGGCTCAGAAAG GGTATGTTCCTAATGTGATTCACTATAATGTGGTGCTTAGAGCATTGGGTAGAGCTCAGCAATGGGACCAGTTGAGGCTC TGTTGGATAGAGATGGCGAAAAACAGTGTTTTGCCAACAAACAACACTTACAGCATGCTTGTTGATGTGTATGGGAAAGC GGGTCTTGTGAAAGAAGCTCTTTTGTGGATTAAGCATATGAGGATGAGAGGTTTTTTCCCTGATGAGGTTACCATGAGTA CGGTTGTTAAGGTCTTGAAGAATGTGGGGGAGTTCGATAGGGCGGATAGGTTTTACAAGGATTGGTGTGCTGGGAAGGTT GAGTTAGATGATCTTGATTTGGATTCTTTAACTGTTACTAGTACTGCCAGTGGTTCTAGAACAATACCTATTAGTTTCAA GCATTTTCTTTCCACTGAGCTATTTAAGATAGGTGGGAGAATTTCTGCTTCTAATACTATGGCTTCATCGAATGCAGAGA GCGCTCCCCAGAAACCGCGGCTCGCTTCCACTTACAATACCCTGATAGATTTGTATGGCAAGGCCGGGCGGCTAAAAGAC GCTGCTGATGTCTTTGCTGATATGTTGAAATCGGGAGTGGCTGTGGATACATACACTTTTAACACTATGATCTTTATTTC TGGAAGTAATGGTAACATGTCGGAAGCTGAAACTTTGCTTGGTAAAATGGAAGAGAAGGGTATATCTCCTGATACAAAAA CTTATAACATTTTTTTGTCTTTGTATGCTAAAGCCGGGAATATTGACGCTGCTCGTGATTATTATAGAAGGATCAGAGAG GTTGGGCTCTTCCCAGATGTTGTAACTTACAGAGCTCTTCTCAGTGCTTTATGCGCAAAGAACATGGTTCAAGCTGTGGA AGCCTTAATTGATGAAATGGACAAATCTTCTGTTTCTGTTGATGTGCATTCTCTTCCTGGTATTGTCAAGATGTATATTA ATGAAGGGGCTCTTGATAAAGCAAATGACATGCTGCGTAAGTTTCAATTAAATAGGGAACCATCATCAATTATATGTGCT GCAATTATGGATGCTTTTGCTGAAAAGGGACTCTGGGCTGAAGCGGAGAATGTGTTTTATAGGGAAAGGGACATGGCAGG ACAGTCAAGGGACATCTTAGAGTACAATGTCATGATCAAAGCATATGGCAAGGCAAAACTGTATGAGAAAGCTGTTTCTC TCTTCAAGGTAATGAAAAACCACGGGACTTGGCCTATTGATAGCACTTATAATTCTCTTATTCAAATGTTATCTGGTGCT GATTTAGTGGACCAAGCAAGGGACCTCATAGTTGAAATGCAGGAAATGGGGTTTAAGCCTCATTGTCAAACTTTTTCTGC TGTTATTGGATGCTATGCTCGTCTTGGTCAGCTGTCTGATGCAGTAAGTGTGTATCATGAAATGCTAAGTGCTGGAGTGA AACCAAATGAGATTGTTTATGGATCTATAATAGATGGATTTTCAGAGCATGGTAGTCTTGAAGAGGCACTCAAATACTTC CACATGATGGAAGAATCTGGATTATCAGCAAATTTAGTTGTCTTAACAGCTCTATTGAAGTCCTATTGTAAAGTTGGAAA CTTAGACGGAGCGAAAGCCATCTACCAGAAGATGCAGAACATGGAAGGAGGTCTTGATTTAGTTGCTTGTAATAGTATGA TTACTCTCTTTGCAGATCTCGGCTTGGTATCTGAAGCCAAGTTGGCTTTTGAAAATTTGAAAGAAATGGGCTGGGCAGAT TGTGTTTCATATGGAACAATGATGTATCTTTATAAAGATGTGGGTCTGATTGATGAGGCCATCGAGTTAGCTGAGGAGAT GAAACTGTCGGGTTTACTGAGGGATTGTGTTTCGTATAACAAGGTACTGGTGTGTTATGCTGCTAATAGGCAATTTTACG AGTGTGGTGAAATAATACATGAAATGATATCTCAGAAGCTCTTGCCAAATGATGGAACTTTTAAAGTGTTATTCACTATA TTGAAGAAGGGAGGTTTTCCTATTGAAGCAGCAGAACAGTTAGAGTCATCTTACCAGGAGGGGAAACCTTATGCTCGACA AGCAACCTTCACTGCTTTGTACTCCTTAGTTGGTATGCATACTTTGGCACTTGAATCTGCCCAAACATTCATAGAATCTG AGGTTGATCTTGACTCTTACGCCTATAATGTGGCAATCTATGCATATGGTTCAGCTGGTGATATTGGTAAGGCCTTGAAT TTATATATGAAAATGAGGGATAAGCATATGGAACCTGACCTTGTAACTCATATAAATCTGGTTATTTGTTATGGAAAAGC TGGCATGGTTGAAGGTGTGAAACGGGTATATAGCCAATTAGATTATGGAGAGATTGAGCCGAATGAGTCTTTGTACAAGG CTATGATAGATGCCTATAAAACTTGCAATAGGAAGGACCTCTCTGAGTTAGTTAGCCAAGAAATGAAATCCACATTCAAC TCAGAAGAATATTCTGAAACTGAAGATGTCACTGGAAGTGAAGCTGAGTATGAAATCGGCAGTGAAGCTGAATATGACTA TGATTCTGATGAAGCTTATTCAGGTAATATAAGCATTTGA
Protein sequence (LotjaGi1g1v0098200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSCADKFYVSSSFSSLSSSNFTNISTKPFWGQFPPLNVRWVFPPLSCCHSKTLPLPTKISSSTKGSSSSKKKKKKYGGVL PSILRSLELASDVSEALDSFGENLGPKEITVILKEQGSWERLVRVFEWFKAQKGYVPNVIHYNVVLRALGRAQQWDQLRL CWIEMAKNSVLPTNNTYSMLVDVYGKAGLVKEALLWIKHMRMRGFFPDEVTMSTVVKVLKNVGEFDRADRFYKDWCAGKV ELDDLDLDSLTVTSTASGSRTIPISFKHFLSTELFKIGGRISASNTMASSNAESAPQKPRLASTYNTLIDLYGKAGRLKD AADVFADMLKSGVAVDTYTFNTMIFISGSNGNMSEAETLLGKMEEKGISPDTKTYNIFLSLYAKAGNIDAARDYYRRIRE VGLFPDVVTYRALLSALCAKNMVQAVEALIDEMDKSSVSVDVHSLPGIVKMYINEGALDKANDMLRKFQLNREPSSIICA AIMDAFAEKGLWAEAENVFYRERDMAGQSRDILEYNVMIKAYGKAKLYEKAVSLFKVMKNHGTWPIDSTYNSLIQMLSGA DLVDQARDLIVEMQEMGFKPHCQTFSAVIGCYARLGQLSDAVSVYHEMLSAGVKPNEIVYGSIIDGFSEHGSLEEALKYF HMMEESGLSANLVVLTALLKSYCKVGNLDGAKAIYQKMQNMEGGLDLVACNSMITLFADLGLVSEAKLAFENLKEMGWAD CVSYGTMMYLYKDVGLIDEAIELAEEMKLSGLLRDCVSYNKVLVCYAANRQFYECGEIIHEMISQKLLPNDGTFKVLFTI LKKGGFPIEAAEQLESSYQEGKPYARQATFTALYSLVGMHTLALESAQTFIESEVDLDSYAYNVAIYAYGSAGDIGKALN LYMKMRDKHMEPDLVTHINLVICYGKAGMVEGVKRVYSQLDYGEIEPNESLYKAMIDAYKTCNRKDLSELVSQEMKSTFN SEEYSETEDVTGSEAEYEIGSEAEYDYDSDEAYSGNISI
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 |
---|---|---|---|---|---|---|
Gene3D | 91 | 234 | 144 | 1.4E-27 | ||
PANTHER | 118 | 356 | 239 | 3.4E-127 | – | |
ProSiteProfiles | 138 | 172 | 35 | 9.01 | ||
ProSiteProfiles | 173 | 207 | 35 | 10.326 | ||
TIGRFAM | 176 | 209 | 34 | 1.2E-6 | ||
Pfam | 176 | 205 | 30 | 1.0E-4 | ||
ProSiteProfiles | 208 | 242 | 35 | 6.993 | ||
SUPERFAMILY | 295 | 536 | 242 | 3.14E-5 | – | |
Gene3D | 296 | 439 | 144 | 4.7E-39 | ||
ProSiteProfiles | 301 | 335 | 35 | 11.466 | ||
Pfam | 304 | 344 | 41 | 6.9E-12 | ||
TIGRFAM | 304 | 336 | 33 | 4.4E-9 | ||
ProSiteProfiles | 336 | 370 | 35 | 11.356 | ||
TIGRFAM | 338 | 372 | 35 | 3.0E-6 | ||
PANTHER | 350 | 498 | 149 | 3.4E-127 | – | |
Pfam | 359 | 417 | 59 | 3.4E-9 | ||
ProSiteProfiles | 371 | 405 | 35 | 11.531 | ||
TIGRFAM | 374 | 407 | 34 | 3.1E-7 | ||
ProSiteProfiles | 406 | 440 | 35 | 9.679 | ||
TIGRFAM | 408 | 442 | 35 | 2.9E-4 | ||
ProSiteProfiles | 441 | 471 | 31 | 5.327 | ||
Gene3D | 468 | 575 | 108 | 3.9E-18 | ||
ProSiteProfiles | 475 | 510 | 36 | 6.686 | ||
PANTHER | 508 | 681 | 174 | 3.4E-127 | – | |
ProSiteProfiles | 511 | 545 | 35 | 11.389 | ||
TIGRFAM | 515 | 542 | 28 | 3.7E-6 | ||
Pfam | 526 | 614 | 89 | 8.9E-10 | ||
ProSiteProfiles | 546 | 580 | 35 | 10.205 | ||
TIGRFAM | 549 | 580 | 32 | 2.6E-5 | ||
Gene3D | 576 | 702 | 127 | 1.8E-28 | ||
ProSiteProfiles | 581 | 615 | 35 | 11.466 | ||
TIGRFAM | 584 | 617 | 34 | 4.9E-9 | ||
Pfam | 615 | 663 | 49 | 2.8E-7 | ||
ProSiteProfiles | 616 | 650 | 35 | 11.4 | ||
TIGRFAM | 619 | 651 | 33 | 3.1E-7 | ||
ProSiteProfiles | 651 | 681 | 31 | 9.164 | ||
TIGRFAM | 654 | 680 | 27 | 1.0E-4 | ||
PANTHER | 656 | 818 | 163 | 3.4E-127 | – | |
ProSiteProfiles | 686 | 716 | 31 | 7.509 | ||
Pfam | 688 | 717 | 30 | 0.081 | ||
Gene3D | 703 | 830 | 128 | 1.2E-14 | ||
ProSiteProfiles | 720 | 754 | 35 | 9.416 | ||
Pfam | 722 | 752 | 31 | 0.0041 | ||
ProSiteProfiles | 755 | 789 | 35 | 8.89 | ||
TIGRFAM | 757 | 790 | 34 | 7.4E-4 | ||
Pfam | 757 | 785 | 29 | 0.37 | ||
PANTHER | 847 | 955 | 109 | 3.4E-127 | – | |
Gene3D | 852 | 962 | 111 | 6.8E-12 | ||
ProSiteProfiles | 858 | 892 | 35 | 11.104 | ||
TIGRFAM | 860 | 893 | 34 | 4.5E-6 | ||
Pfam | 861 | 888 | 28 | 0.0012 | ||
ProSiteProfiles | 893 | 927 | 35 | 7.936 | ||
ProSiteProfiles | 928 | 958 | 31 | 6.38 |
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 | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). |
Expression pattern of LotjaGi1g1v0098200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…