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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0050600 |
| Transcript ID | LotjaGi1g1v0050600.3 |
| Related isoforms 5 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Rho GTPase-activating protein; TAIR: AT5G19390.1 Rho GTPase activation protein (RhoGAP) with PH domain-containing protein; Swiss-Prot: sp|Q8RWQ4|RGAP7_ARATH Rho GTPase-activating protein 7; TrEMBL-Plants: tr|A0A1J7HR12|A0A1J7HR12_LUPAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0050600 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:7222791..7233711) extracted from Lotus japonicus Gifu genome v1.2.
TTTCAAGTTGAACTTACCTTGTGGTTCTTAACATATGTTACTGTTTTGCAGGTTTTCAAAAGTGGCCCACTTTTCATATC TTCCAAAGGTTGGTATCCATATCCTCCCAAGTATTCTTGTGAGAGGATAAATGATTTTTTTTAAACTTTGGTTGATCCTG TTTTCTCTCAAATGTATTTACTTTATCCAATAAATCGATGATATAGTAACTTATCTTTGTTTTATTGTTTTGAACTTTTG TAGGAATAGGCTGGAAGTCTTGGAAGAAGCGGTGGTTTATACTTACACGGACATCATTGGTTTTTTTCAAAAATGACCCT GTTAGTATCACTCAGACCTTTCCCATTCTTGTTAAGATCTTTGCTTGGATATTTTCTGTGTTAATTTCTTCTTTTATTGT TTTGTATGTTTCAACTCTCTGATTAAGCAGATATGGTTATAGTCTAGGTATTATTTTGTACAAGAGCAGTGACATAGTGA TTGATTAAGCTTACTTCTTATATGAACATCATTTATGGATATACTTTGTGGCGCTAATTTTTTTTTTTGAAAAATATCAT TTAGTTATTGGAGATTAAGTTGTGACTGTAGACCTTAGATGATTGGATAATACTACAAAAAGAAAATTACTTAGCTGATG CTTTTCTTCGTTTACTCAAATATATGTGAGTTACTTTTGTCATATCTATGATTGTCTCCCCTTTGATTGGTCATGTAGAG TGCCCTTCCCCAGAGAGGTGGTGAAGTAAACTTGACTCTGGGGGGTATTGACTTGAACAATTCCGGGAGGTATGTTTGGC AACTTTACTTTTTGTATTTTTAAAATTTCATGATCTGTTTTCTAATTGTGAATTTTATTTTCCAGTGTTGTTGTTAGAGA AGACAAAAAGCTACTTACGGTATTATTTCCAGATGGACGTGATGGGCGAGCATTCACCCTTAAGGTGATTCATTTACTAC TATATTTTTAATCAGAACTCAGAAGGATTAGAATTAAGTTATCCCTACTTGTAAATTGTATTTTAATTGTTGGGTTGTGT GAATTCCCTTTATTTTTTTAAAATACCAGGCTGAGACATCGGAAGACTTATTTGAATGGAAGACAGCTCTTGAGCAAGCC CTTGCACAAGCACCAAGTGCTGCCCTTGTCATGGGACACAACGGGATTTTTCGGAGTGACGCGAGTGATTCTATTGAAGG GTCTTTCCATCAATGTTTGTACTCATTACATATTATATCTTATTCATTTGTTTTATGTTTATAACTTATGTTAGTTATAT GTCAATACTATTGTTGTAGTTGTTGATGTTTTTGTTATTTTGGGTTAGAACTTCTGCAGTTCGGAGCTTTTTTTATATGA TTAGCATTTATTTATTGATTTATGTAGATTTTTGACATCCTAATTTTATATTTTATGCAAAAGAACCTGCCTTCATGATG TTCACTATATTTCTTCTTGTGCTTCTAGGGAGGGACAAGCGTCCAGTTAAGTCTTTGGTTGTTGGAAGACCAATTCTTTT AGCACTGGAAGATATTGATGGAGGTCCATCTTTCCTTGAGAAAGCTCTTCGGTTTCTGGAGAAGAATGGTAAGTTATGAT CTTCTATTACCCAGTGCATCTGCATTTCATTTTATTTATTATCGTCCCATGCTTCAAATTAGTAATTACTTGTTAAGTTT TATTTCCTCAGTAAGCTGTTTGTTCAGAACTAATTGGCTAGTAGGCCTAGTGAACCCCATGCCTTTTCTCCTATGGCTTG TTAGCTGGAGAGCATGTTGTGTCGGTCTTTTATCTTGGTTTTTTTTATTATATTGTTTTGACTAGGTTAAAATGCAAATT AGCTCTTCAACTTTCGCCCTTTGACAAATAGCCTTTGATTTCAATTACAGTAGTTGAACTTCTTAACCTTTAAATAACAA CATTGGAGAAAATTGCTTAGTTGATAAATTGGAGTTCCTTTTCACGCCATGTTTTCTAACTTGGACATGCATCCGACTGT ACAATGGGAAAAACTGTTAAATGCATAAAACATGTTCTGCCCTATTTTTCAGTAAAGGGTTTATGGTGATTTTACTAATT TTCATTTTCAGGAACTAAAATTGAAGGAATACTGCGGCAGTCTGCAGACGTTGAGGAAGTAGATCGGAGAGTTCAAGAAT ATGAGCAAGGTAATTAAATTCCCTACCACTAAGTGCATTTAAAGAGAGTAGTTTATAGGCACATATAACATCAATATAGT TAATTGAGCCTCAAAGGAACAGCTAGCAAAGAACAAAAAATATGGAGGAAAGGAAATCTTGATTTCATAAATCCAAACTA TCTAATATTGGTTAGAGATTTCTAATCAAGCATAGCTTCGCACTTGTTCTAGGACTTTGAATTGTTCTGATCATCTGATG TAGTTATTCTTTCTTGCCTTCCAAAAATCCATATTTTAAAGTATGGACCCACTCTTCATATCAGTCACCCTTTGTATTAA ACCAATATTGTGATGATTTTCATTGTTCAAACTTTTTTTTTTAAAGACGGCATCCACGTTTAAATACTAAGTTTATTTTT TGTGAAACTTATAAATCTCTTATTTTTAACTGATATTACCAGGCAAGACTGAATTTGGTCCTGAGGAGGATGCCCATGTT GTTGGTGACTGTGTCAAGGTATTTATCTGGGTTTTTGATAACTGTTGCGTTTATGACTACATGAAAAATGAAACAAACTA TATGTTGAACATACTGTACTTAAGATTCTCCTCAAGCTATGGTATCCCTAGAAACTCTGGGAAAGTTGATGGATTCTAAG AAACACGACATTCAACTGTGGATTTGTGTGATGGAAATTTTTAAGATATCCGGAATTTTAGTTATTTTTCCCCTGTCAAT TTTATCATGTAAAAAGAAGGATCACAAAGAAATAGGATTTGAAATCGTAATTAAATAACGGCAAAAGATCACAGAACAGA AAACCATAAAAGCATGAAATGACAATGAAATTAATTCAAAAGATCTCTATCCCTCTGATTATCTACCCAGTAAAAACTCT GAGTTTAACTGTATGCTGAACAGGGAAGAGAAGGCATTACATAAACAAGTTTAGATTTGATAAGGTTTCCCATACTTAGC CTTCATGTTCTTGCAACCAGTGTTCAAACTACCCATTCTCCCTCTGCTTGCACCATGGATATCGTAATAGTTCCAAACCT GCCTATGATCCTGTTGTGTGCTTCTACAAGGAACCTTGCTGCATCAATTAGCTGAACAAGAGCAGTGTTAGTGAAACCTA ATTTTTAATCATGCAAATCTTCCCCTCGCAATAGCAAACCCTAGTTTTTTCGTAGTGCTTGTTACCATTAGCTACAATAC AAATATACGACCGTAGAGTGTAAACTGAATTCTGGTTCACTATAGAAGTTTTATTCACATATGTGAGCATTTGCTTTATC AGTTATTTTCTACTGCTTACGGTTAAGAACCTGAGTCTTGAGGCCATAAACAATCACATTTAATATATCCTGGATTTTTC TGAACTGACCATTCCTGCACCATTTTATCAGATTTAAGGATTTAAAACTCTGATTTGGAAGCAGTTATTATTTCGTACAA TAATATAGATCTTGGAATTTTCTAAACTGAATCATTGTTAGTAATTTCCCTCATAATCTGGTTTTTGATTGAGCTCAATG GCATAGTATGATCCATATAGCCGACCTCACTTAGTGTGATAAGTCATTTGTTGTTATTTTGTTGTTGTCTATGCATTTTG TTTAATGGCACTCTACTTGATTAATTTACAGCATGTTTTAAGAGAGCTGCCCTCATCTCCAGTTCCAGCTTCATGCTGTA CTGCTTTGTTGGAGGCCTATAGTAAGTTTAGCTCTATGTTTTCTTTATGACGATATGCTTCGAAGTATAGATGGTATTTG TTTGCTGGTCTTTTTAAATGCTGCTTCTTGCTCTATTTGTTTTTCGCTTTTTCTAATTTGTTTTAATTTTTACTTTTTTA TGATCATATCAGTAAAGAAACTTCTATTGAGACCATATTGATTTGTATAATGGAAATTATAGAATGGAAGTTTTAATGTT TATTAAGGATAAACTACTTGTGATACTAAGAACTATCCATATTGGTACTAGGAATATTTTATGCGCTTTTCTGTATATTC GGTTATTGATGAATAATTTTACATTTTGAAAATATGAATTTGCCTATCATTTGGTGCTATTTTTTTCTTATATGGAGTAT GTTTGTACTTTTGAAAAATATAATTGAACTGTTATTTAATCTGAAGGTTTGCTGCTAAATACTGAAATGTGTAGATAACT TGAGTTTTTTAGCGCAATTTCTTAAATGTGTTGTCACTTAACACTTGTTTTAGTGAACGAAAGCATTCATATAATAAGCA AAACATGTGTCTTTTTTCTATTGAGCAGTTTTTGCAAGTAATTGAAGTAATGTTTTGGTATAAACATGCAGGTCAAATGA GTGTTTGGTCTCTGTTATTTTCCTTGACAATCCTGTTTGATTCTTCTCTTTCTTCCTCTTTCCTCACCTTTATTGCTTCT TGTCTCTGCTGCACATAATTGCTGATGTTGATATGTCAAAGACTTTTGTTACTTTTTCTTCCTGAACTTTCAGTTATCAA GTTTTGTTTTATTATTCTAGTTATTTGGATGTCAATCTATGCATTAGAAGTTCATGTTATTGTTGCCCTTTTATTTTACA AGAAATTGACCGCAAGGAAGCTAGGATTAATGCAATGCGCTGTGCAATTTTGGAGACCTTTCCAGAACCAAATCGACGTT TGTTACAGAGGTTTCTGTCTCTTCTCTCTGCTACCTTACCTCTGCCCCCTCTAGTAGATGATAAATAACTTCATTCTTTT CTTTATTTGCATATTGTCATCCTAGTATTTAAGTTTGCAGTGGAATAGTTTTCATTCATGGTTTATAATATATATGCTTT TTTAAACAATAGTAGAATAATCTTAAAATATTGGACTTTAAGAAAGTAAATGCTGGGGTTTTTCTTAATACGGGTTGTTT TTGTTATTTCTGTTTTAGTGTGCTTTTTATGAGATACGAATCTAGGTGTTTTGGGAGTTTCAATATTTTATATAGGTTTT TATGTGGCCTTAGAAGAAAAAGCTGTGAAAGATACATCTCAAGCTCTCCGTTTCTGTGAAATCTTACATAGTTACCTCTG ATGATAATTTTCTAAAATGAATGATAAGCAATGGCCTTCTGTTGTAAATAAAACCTTTGATCTGCTTGTAAATTCATTTT CAGAATCTAAAATGACAAATATATCGATTGTAATGGCACAAACAAATACCTTAATTTTTATCTAATTGTTGTAATCTCTT CATTTACAGAATTCTAAAGATGATGCACACAATTGCTTCTCATTCTCAAGACAATAGGATGACTGCTTCTGCTGTTGCTG CTTGCATGGCACCCTTGCTTTTAAGGCCTCTACTAGCTGGAGAATGTGAACTGGAGGATGAGTTTGATGTCAATGGTGAT AGTTCAGCTCAGCTTCTTGCTGCTGCTAATGCTGCAAATAATGCTCAAGCAATTATTACCACATTGTTGGAGGAGTATGA AAACATTTTTGATGTAAGAAAATCTCAATCAGACTGATTTTTATTTATTTATTATTAGTTGCTTTCATGTTTATTGATGC ATTTTATGTTGCTTTTGTTGTAACTTGTGAGTTATCCTAACTAGTTTCATTCTTAAAGTTCATTTTTGTTCGTTACATCG CCTTTTTTTAGCTTGCATAAAAGTAGTAACGGTAAAGTTTTACCATGGGATTGAGTCATTAGCTTTTGCTATATATTTCT AATGCATAGTATACTGAGGTAAAAGGGTTTGCTCTCTTGCACTAGACATCGTTCCTAAACAACTAAAATTAAATATGCGT GAGTCATGATTTACCCGTGTTCATTTGGCAGATGTTTGCTAACTTGTTGCTTCTAGGAACAACAATTTCTCATTCCTTGA TTCAATTCCGGTACCTAATTTATATCTACTGTTTCAGGAAGAAAACATTCAGAGATGTTCTATGTCAGCAGACTCTCGGG TTGAAAACAGCGGGACTGAAGAGTCGACTGACGATGATAATATAGATGTGAAAGAAAATGGTTACCATGATGCGGAGAAT GAAGTTGATCAAGAGACAGATGATGATGCTGATCGTGTTCACAGTGGAAAATCGAGTGAAAGTAGTGGTTATGCTGGTAG TGATCTTTATGATTATAAGGTTGTCTTATGCTGCCTCACATTTATTTTCTTCTTCTGCTCCTGTCATTTATTCCAATCTA TTTTTATTTTATTAAACAAAAAATATTCAATGAGTAGTCAATTTTTGCTCTCTTCCACTATGCAAATCTCTACGCTCTCA TGAAAATTCCCACAGAACTCCTTTTTACTTATAAAATGCTAAAATTCCACAATGCTGTGTCAAACCTAACAGATTCATTA ACAAAGCAGTTGGGTTATAAATGTTTTCTTTGTTCAGTCTTCTATTATAATTAGAGGGGAAGTTTAACTATATTTACTTC ACCTGAATTTACTCTTTATTTGATGCTGCCGTTTTAATTGACTGTTCATCTACCATAAAATAATGCATTCCTCTCTTCTC CCCAACATGATACTCGAGTAGACAAAGATATGAATGGCATTTGACCACAAACATCTATAAGCTAGTGGTGGAGTCAATAA ATCTGTTAGGCTTTACAGCATATTGGGTTTAGTTGTACAAAGGAGTTCTATGTTTACTTGATAAGGGAGGGATCTGTGTA ATAATTACTAAACCCAAAATATGGGAGAGGGTAGTTTATTTTTCTGTTACTTTAGCCGTATATTCAAATTATTAGTGTTT TTCTTATATATTTTTTCATCAAATATCAGGCTAGGAAGAGAGATTTATGTGAATGTCAGAAATATGATTTAAAAAAGCTC ACATGTCTTCACTCTTCACTCAATTGCTTAATCTTTCAGGATAGTTGGTTCATGACATGGTATTTGTGCTTCAGGACTTC CATCCTTGTTGCCCTCATTTTTGTAGTAAAAAGTTAAATTTCAGCACAAAGTAGGTAGCCGTTTGCAATGTTCATGCAGC AAGCCAAAATGGCTCTTGCGGAGGTGCTTGTTAGAAATATGGTGTAAAACCATTTATGTGTCTATATCCAATAGCTTAAG CTTTAGGGATTAATTAGCAGTGTTTCTTGTATCCTGCAGTGATTAGCAATAATCATTTTACTGTTTTCCTCATAATTTTT TTTTTGTGTCCTTATAGGCATTTGGAGCTGATGATTCCGATGTTGGATCCTCCAGTAGTAATCATGTTAAGGCTGGAAAT TCAAATTTGAATGCTATTCCTGATATCCAACTGTCTGAGGATCAAAATAAGCAAAGAAAGAGCAAGGAGAACTCTGTTGA TGAGAAGGATGCTCCAAATGTGTTGCCTTCCACAGAGTCATATCGTTCTATGGGTGAGATTTTATCTTCAATGGACCCTG GCAACCATTTACCTGTGCCTGGGATTGAATCAGGTTCTGGAAAGCAAACCAGTAAAGCTAGTAGCTCAAATTTAAGTTCT AAGCGGTCAACATTCTGGGGAAGGAGCAACGTGAGTTGTTATTTTTTGAAGATTAGCTACTAACAACTTTGTAGGATACG TTAAATATTATAAATGTGTTATGTGACTATCTCAGTAGTTATTAGATTCATGGTGACAATTCGATAACCATTTAAAGGAG AATGCTATTTTTTCTGCTTGAGAATTTGTGGCATGAGACTATGCAACATTGATAATATACTTGCTATGATCTTGCAATTA ATATATGCTGACTTAATATGTTAGCACTAGATTTACTTAACTTTCATCACGGGAGGCAAAACTGATTATTCTGTCCCAGT TTTTGTAGTTGTGTCTCCAAGGTCAATATTTGCATCTGATAATTTTGTCTTATTTGAGCAGCCGAGGAAGACACCGTCCG TGGATTCCGTTGATTCTTCCGGTGAAGAGGAGTAAGATACTTGGCTTTTTACTTGTCTTTTCTGTTGTAGAATATGATGT TGTAATGTGATTTTTGATATAATGGCAGAATTTTTTTCTTGCTTAACAACCATTCATTGCTAGCAATATGTGGTTTGCTT CATACATGTTTCCCTTTTTCACTTTCTTTCTTCCCCCTTGAGAGTGAATAACCATAAAACTTTGATGTTTGTAGGCTTGC TATTCAGAGACTAGAGATTGCAAAAAGTGACCTGCAACACAGAATAGCAAAGGAGGTACTTTTCATTTTCCAACTCATTT TATGCCAAAATCATATAATGTGGATGTTCCTACTTAACGGTGTTTGTTCTATTTTCGTTTTAGGCGAGAGGCAATGCAAT TCTGCAAGCAAGCTTAGAGAGAAGGAAGCAAGCTTTGCATGAGCGGCGCTTGGCACTTGAACAAGATGTACTATTAATAC ATCTATCTCTCTGAATAAGACATTTTAATTGGATTTGCTGTTTTAACCTACTTTTTGATATATTATTGTTTAATATGGAG TCCTACATGCAATATTTTCTTACTTCCTTTTTCATTTTGTTTTGATTTCCTTAGTTTTATTTTAATTCTTATCTTCTTCC ACCCTCATGCTGTCATATTTTCTCAAACCTTTTCAAATTTGAAGTGGATATACATTGCCAGTTGCCACATAATTCTTTTT TGTTCCTCCATAAATAAGATCTAACTAAATTTTTTATATAAAGGTTTCAAGATTACAAGAACAGTTGCAAGCTGAGAGGG ACCTTAGAGCTGCATTGGAAGTTGGTTTGAGCATGTCTACTGGACAGCTTTCGAGTTCACGTGGCATGGATTCCAAGGTT CTTGCATATTCTTTTGAAATTTGCTTTTCTTTTGATTGCTTTCGTAGTACACATAATCTTACAAAAAAATTGCCTGTGTG AAGACTAAGGCTGAGCTGGAGGAAATTGCACTTGCTGAAGCTGATGTGGCCAGGTTGAAGCAGAAGGTTGCAGAGCTGCA CCATCAACTTAATCAGCAACGACAGCATCACTATGGTTCACTTACCGATGTGGGTGATCGGTACCAACATGCCCAAAATC AACCTCAGCCGTGAGTATACAGACATGTGTTATCTTTAGGCATTGCTTAGATTATCATGCTGAACCTTGCAAGTCATCAA ACAACTTTTAATCCTAGGTATTCTCATAATGTTGAAAAAAATAGAAAGAAAGAAAAGGAATACATGCATTAGGTCTCCAG AGTGTATATTGTTATTACTGTTTTTGAGGAACTTTAAGTTGTGCAGTTCATTAATTTGACAACTAGTCCAGTTTATATGT CAAAGAGTTTACTGGTTTAGTGGATGCAATGTGAATGGACTTTTATCAGTCTCGTTCACTTTTTGTCTCGAAGTAAGTTG CTAACACTCGTGTGCACGGGTGCCAACGAGTATCCAACTTCAAACACAGCCTTAGTACCTACTTCAAAGTGTTATAGTCA CTACCATTGATATTAAGTATATTCCAGTTGTCATCCAATAATTTTTCCTGAAAAAGAGAAAACATGTTGTAATCTTATAG TTCTCTGTGTTTCTTCGGTTCCTTATCGAGGAATTCTTGGTATGCACTTTGTGCTTGGACTCATTTTAAATTTTTAACCA ACATTTGTGATTACTGGAACTGAACACTTGTCTTATGATATATTTTATTCACCTTTATGAGACCTCCCTCTTAATTGAAA AACCTTTTGAAATTATTAAGTTCGATAGTAGCTATAATAAAATTTATCCGACTTCTGCAGGAGATTTCTTCAGCAAGATT TTGATTCAACCCTTGCGTTTTGTAATCATGAAAGGAAGCAAAGGACTGAGGTATGTTTTTTAGTCAACATGTCTTACTCA CTAACTAACTAACTATTATTCTGTTAACTGACTAATTCTTATTAGCTGACTGTACCTATCAGAATAGTCCGGTGCTTGTG GATGATCTATTCTTAATGGTTATGACTTGTGAGCGCTTTTTCATCAATAACTCATGTAAAATTTGCCTTTTCATTTCAAC AGGAGAGTGTATTGGGCACTGATTGGAGAAACATCAAAGGACAAATATTGGCATCTGGTAATGGTAGTAGGCAGCCTTCT CGCAAGCAATTTATAGATTCAAGTCCTAGCGATTCGAAGAGTACTGAAGCATCAACAAGCATGTCAGTGGATGAGCTTGG TGTTGTTGATTCTGCAGCCTCGGTGCCCTCCACCTCAAGAGCTGCAGAGGTAAGAATTCAAGAAATGTGCTTTGCATAGT TGTCCGTGTTTGGATCAGCTTTATCTCAATTGATTTTGGATAAAATTGATTATGGTAGAAGTGAGGTAAAAGTGAATGTT TGGATACATTTATGAAAAAAGAAAATTATGTGGAGCAAAGTTGTGAAAATTCAGTTGTAAAATTTTTCAATTGATTTATT AACTGCAGAATATAATTCTACGAGATATTTCCGAAACATCTATATTGTCATCCTAAAGGGATTAAACTCAACTAGAATTT ATTTTGAGGTTCCTATCGGGGAACCAAACTCTTATTCAAAAGTCTATTGACATCATTTTATTCATTTGTTATAAAACTGT TATTTCCTTCTAGGTTAAGTAATGTGTGGTTAGTACATTCTGCAGTAGCATCTTTGTTTCCAATTTATTAGGAACTAATC TTGCAGCATTGGTTTCAGGTGACTGAATTTGCAAGACATCCTGTAGCATCTTCGACATTAGTAGAGTTAACCACTCGTCT CGATTTTTTCAAGGAACGTCGTTCCCAGTTGATGGAACAGCTCCATAACCTTGATTTGAATTATGGTTCTACAACTTCCC AAGACTTTGTTTATAAACCATCATCACCATCATGGAGTTGA
CDS sequence (LotjaGi1g1v0050600.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGACACAACGGGATTTTTCGGAGTGACGCGAGTGATTCTATTGAAGGGTCTTTCCATCAATGGAGGGACAAGCGTCC AGTTAAGTCTTTGGTTGTTGGAAGACCAATTCTTTTAGCACTGGAAGATATTGATGGAGGTCCATCTTTCCTTGAGAAAG CTCTTCGGTTTCTGGAGAAGAATGGAACTAAAATTGAAGGAATACTGCGGCAGTCTGCAGACGTTGAGGAAGTAGATCGG AGAGTTCAAGAATATGAGCAAGGCAAGACTGAATTTGGTCCTGAGGAGGATGCCCATGTTGTTGGTGACTGTGTCAAGCA TGTTTTAAGAGAGCTGCCCTCATCTCCAGTTCCAGCTTCATGCTGTACTGCTTTGTTGGAGGCCTATAAAATTGACCGCA AGGAAGCTAGGATTAATGCAATGCGCTGTGCAATTTTGGAGACCTTTCCAGAACCAAATCGACGTTTGTTACAGAGAATT CTAAAGATGATGCACACAATTGCTTCTCATTCTCAAGACAATAGGATGACTGCTTCTGCTGTTGCTGCTTGCATGGCACC CTTGCTTTTAAGGCCTCTACTAGCTGGAGAATGTGAACTGGAGGATGAGTTTGATGTCAATGGTGATAGTTCAGCTCAGC TTCTTGCTGCTGCTAATGCTGCAAATAATGCTCAAGCAATTATTACCACATTGTTGGAGGAGTATGAAAACATTTTTGAT GAAGAAAACATTCAGAGATGTTCTATGTCAGCAGACTCTCGGGTTGAAAACAGCGGGACTGAAGAGTCGACTGACGATGA TAATATAGATGTGAAAGAAAATGGTTACCATGATGCGGAGAATGAAGTTGATCAAGAGACAGATGATGATGCTGATCGTG TTCACAGTGGAAAATCGAGTGAAAGTAGTGGTTATGCTGGTAGTGATCTTTATGATTATAAGGCATTTGGAGCTGATGAT TCCGATGTTGGATCCTCCAGTAGTAATCATGTTAAGGCTGGAAATTCAAATTTGAATGCTATTCCTGATATCCAACTGTC TGAGGATCAAAATAAGCAAAGAAAGAGCAAGGAGAACTCTGTTGATGAGAAGGATGCTCCAAATGTGTTGCCTTCCACAG AGTCATATCGTTCTATGGGTGAGATTTTATCTTCAATGGACCCTGGCAACCATTTACCTGTGCCTGGGATTGAATCAGGT TCTGGAAAGCAAACCAGTAAAGCTAGTAGCTCAAATTTAAGTTCTAAGCGGTCAACATTCTGGGGAAGGAGCAACCCGAG GAAGACACCGTCCGTGGATTCCGTTGATTCTTCCGGTGAAGAGGAGCTTGCTATTCAGAGACTAGAGATTGCAAAAAGTG ACCTGCAACACAGAATAGCAAAGGAGGCGAGAGGCAATGCAATTCTGCAAGCAAGCTTAGAGAGAAGGAAGCAAGCTTTG CATGAGCGGCGCTTGGCACTTGAACAAGATGTTTCAAGATTACAAGAACAGTTGCAAGCTGAGAGGGACCTTAGAGCTGC ATTGGAAGTTGGTTTGAGCATGTCTACTGGACAGCTTTCGAGTTCACGTGGCATGGATTCCAAGACTAAGGCTGAGCTGG AGGAAATTGCACTTGCTGAAGCTGATGTGGCCAGGTTGAAGCAGAAGGTTGCAGAGCTGCACCATCAACTTAATCAGCAA CGACAGCATCACTATGGTTCACTTACCGATGTGGGTGATCGGTACCAACATGCCCAAAATCAACCTCAGCCGAGATTTCT TCAGCAAGATTTTGATTCAACCCTTGCGTTTTGTAATCATGAAAGGAAGCAAAGGACTGAGGAGAGTGTATTGGGCACTG ATTGGAGAAACATCAAAGGACAAATATTGGCATCTGGTAATGGTAGTAGGCAGCCTTCTCGCAAGCAATTTATAGATTCA AGTCCTAGCGATTCGAAGAGTACTGAAGCATCAACAAGCATGTCAGTGGATGAGCTTGGTGTTGTTGATTCTGCAGCCTC GGTGCCCTCCACCTCAAGAGCTGCAGAGGTGACTGAATTTGCAAGACATCCTGTAGCATCTTCGACATTAGTAGAGTTAA CCACTCGTCTCGATTTTTTCAAGGAACGTCGTTCCCAGTTGATGGAACAGCTCCATAACCTTGATTTGAATTATGGTTCT ACAACTTCCCAAGACTTTGTTTATAAACCATCATCACCATCATGGAGTTGA
Protein sequence (LotjaGi1g1v0050600.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGHNGIFRSDASDSIEGSFHQWRDKRPVKSLVVGRPILLALEDIDGGPSFLEKALRFLEKNGTKIEGILRQSADVEEVDR RVQEYEQGKTEFGPEEDAHVVGDCVKHVLRELPSSPVPASCCTALLEAYKIDRKEARINAMRCAILETFPEPNRRLLQRI LKMMHTIASHSQDNRMTASAVAACMAPLLLRPLLAGECELEDEFDVNGDSSAQLLAAANAANNAQAIITTLLEEYENIFD EENIQRCSMSADSRVENSGTEESTDDDNIDVKENGYHDAENEVDQETDDDADRVHSGKSSESSGYAGSDLYDYKAFGADD SDVGSSSSNHVKAGNSNLNAIPDIQLSEDQNKQRKSKENSVDEKDAPNVLPSTESYRSMGEILSSMDPGNHLPVPGIESG SGKQTSKASSSNLSSKRSTFWGRSNPRKTPSVDSVDSSGEEELAIQRLEIAKSDLQHRIAKEARGNAILQASLERRKQAL HERRLALEQDVSRLQEQLQAERDLRAALEVGLSMSTGQLSSSRGMDSKTKAELEEIALAEADVARLKQKVAELHHQLNQQ RQHHYGSLTDVGDRYQHAQNQPQPRFLQQDFDSTLAFCNHERKQRTEESVLGTDWRNIKGQILASGNGSRQPSRKQFIDS SPSDSKSTEASTSMSVDELGVVDSAASVPSTSRAAEVTEFARHPVASSTLVELTTRLDFFKERRSQLMEQLHNLDLNYGS TTSQDFVYKPSSPSWS
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 |
|---|---|---|---|---|---|---|
| PANTHER | 1 | 735 | 735 | 0.0 | – | |
| PANTHER | 1 | 735 | 735 | 0.0 | – | |
| Gene3D | 10 | 246 | 237 | 1.3E-38 | ||
| ProSiteProfiles | 39 | 239 | 201 | 30.222 | ||
| SMART | 45 | 236 | 192 | 2.2E-26 | ||
| Pfam | 48 | 192 | 145 | 7.4E-32 | ||
| SUPERFAMILY | 48 | 241 | 194 | 5.49E-35 | ||
| CDD | 48 | 185 | 138 | 5.85885E-35 | – | |
| MobiDBLite | 249 | 308 | 60 | - | – | |
| MobiDBLite | 321 | 347 | 27 | - | – | |
| MobiDBLite | 321 | 439 | 119 | - | – | |
| MobiDBLite | 348 | 364 | 17 | - | – | |
| MobiDBLite | 399 | 433 | 35 | - | – | |
| Coils | 470 | 504 | 35 | - | – | |
| Pfam | 480 | 560 | 81 | 3.1E-21 | ||
| Coils | 529 | 563 | 35 | - | – | |
| MobiDBLite | 623 | 655 | 33 | - | – | |
| Coils | 690 | 717 | 28 | - | – |
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 |
|---|---|---|---|---|
| Biological process | Signal transduction | The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell. |
Expression pattern of LotjaGi1g1v0050600.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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