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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0050600 |
| Transcript ID | LotjaGi1g1v0050600.4 |
| 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..7233768) extracted from Lotus japonicus Gifu genome v1.2.
TTTGTCTTTTTGTTTTATTTGTTGGATATGTATTTTGGACACAATTGTTTGATTGAATTTCAAGTTGAACTTACCTTGTG GTTCTTAACATATGTTACTGTTTTGCAGGTTTTCAAAAGTGGCCCACTTTTCATATCTTCCAAAGGTTGGTATCCATATC CTCCCAAGTATTCTTGTGAGAGGATAAATGATTTTTTTTAAACTTTGGTTGATCCTGTTTTCTCTCAAATGTATTTACTT TATCCAATAAATCGATGATATAGTAACTTATCTTTGTTTTATTGTTTTGAACTTTTGTAGGAATAGGCTGGAAGTCTTGG AAGAAGCGGTGGTTTATACTTACACGGACATCATTGGTTTTTTTCAAAAATGACCCTGTTAGTATCACTCAGACCTTTCC CATTCTTGTTAAGATCTTTGCTTGGATATTTTCTGTGTTAATTTCTTCTTTTATTGTTTTGTATGTTTCAACTCTCTGAT TAAGCAGATATGGTTATAGTCTAGGTATTATTTTGTACAAGAGCAGTGACATAGTGATTGATTAAGCTTACTTCTTATAT GAACATCATTTATGGATATACTTTGTGGCGCTAATTTTTTTTTTTGAAAAATATCATTTAGTTATTGGAGATTAAGTTGT GACTGTAGACCTTAGATGATTGGATAATACTACAAAAAGAAAATTACTTAGCTGATGCTTTTCTTCGTTTACTCAAATAT ATGTGAGTTACTTTTGTCATATCTATGATTGTCTCCCCTTTGATTGGTCATGTAGAGTGCCCTTCCCCAGAGAGGTGGTG AAGTAAACTTGACTCTGGGGGGTATTGACTTGAACAATTCCGGGAGGTATGTTTGGCAACTTTACTTTTTGTATTTTTAA AATTTCATGATCTGTTTTCTAATTGTGAATTTTATTTTCCAGTGTTGTTGTTAGAGAAGACAAAAAGCTACTTACGGTAT TATTTCCAGATGGACGTGATGGGCGAGCATTCACCCTTAAGGTGATTCATTTACTACTATATTTTTAATCAGAACTCAGA AGGATTAGAATTAAGTTATCCCTACTTGTAAATTGTATTTTAATTGTTGGGTTGTGTGAATTCCCTTTATTTTTTTAAAA TACCAGGCTGAGACATCGGAAGACTTATTTGAATGGAAGACAGCTCTTGAGCAAGCCCTTGCACAAGCACCAAGTGCTGC CCTTGTCATGGGACACAACGGGATTTTTCGGAGTGACGCGAGTGATTCTATTGAAGGGTCTTTCCATCAATGTTTGTACT CATTACATATTATATCTTATTCATTTGTTTTATGTTTATAACTTATGTTAGTTATATGTCAATACTATTGTTGTAGTTGT TGATGTTTTTGTTATTTTGGGTTAGAACTTCTGCAGTTCGGAGCTTTTTTTATATGATTAGCATTTATTTATTGATTTAT GTAGATTTTTGACATCCTAATTTTATATTTTATGCAAAAGAACCTGCCTTCATGATGTTCACTATATTTCTTCTTGTGCT TCTAGGGAGGGACAAGCGTCCAGTTAAGTCTTTGGTTGTTGGAAGACCAATTCTTTTAGCACTGGAAGATATTGATGGAG GTCCATCTTTCCTTGAGAAAGCTCTTCGGTTTCTGGAGAAGAATGGTAAGTTATGATCTTCTATTACCCAGTGCATCTGC ATTTCATTTTATTTATTATCGTCCCATGCTTCAAATTAGTAATTACTTGTTAAGTTTTATTTCCTCAGTAAGCTGTTTGT TCAGAACTAATTGGCTAGTAGGCCTAGTGAACCCCATGCCTTTTCTCCTATGGCTTGTTAGCTGGAGAGCATGTTGTGTC GGTCTTTTATCTTGGTTTTTTTTATTATATTGTTTTGACTAGGTTAAAATGCAAATTAGCTCTTCAACTTTCGCCCTTTG ACAAATAGCCTTTGATTTCAATTACAGTAGTTGAACTTCTTAACCTTTAAATAACAACATTGGAGAAAATTGCTTAGTTG ATAAATTGGAGTTCCTTTTCACGCCATGTTTTCTAACTTGGACATGCATCCGACTGTACAATGGGAAAAACTGTTAAATG CATAAAACATGTTCTGCCCTATTTTTCAGTAAAGGGTTTATGGTGATTTTACTAATTTTCATTTTCAGGAACTAAAATTG AAGGAATACTGCGGCAGTCTGCAGACGTTGAGGAAGTAGATCGGAGAGTTCAAGAATATGAGCAAGGTAATTAAATTCCC TACCACTAAGTGCATTTAAAGAGAGTAGTTTATAGGCACATATAACATCAATATAGTTAATTGAGCCTCAAAGGAACAGC TAGCAAAGAACAAAAAATATGGAGGAAAGGAAATCTTGATTTCATAAATCCAAACTATCTAATATTGGTTAGAGATTTCT AATCAAGCATAGCTTCGCACTTGTTCTAGGACTTTGAATTGTTCTGATCATCTGATGTAGTTATTCTTTCTTGCCTTCCA AAAATCCATATTTTAAAGTATGGACCCACTCTTCATATCAGTCACCCTTTGTATTAAACCAATATTGTGATGATTTTCAT TGTTCAAACTTTTTTTTTTAAAGACGGCATCCACGTTTAAATACTAAGTTTATTTTTTGTGAAACTTATAAATCTCTTAT TTTTAACTGATATTACCAGGCAAGACTGAATTTGGTCCTGAGGAGGATGCCCATGTTGTTGGTGACTGTGTCAAGGTATT TATCTGGGTTTTTGATAACTGTTGCGTTTATGACTACATGAAAAATGAAACAAACTATATGTTGAACATACTGTACTTAA GATTCTCCTCAAGCTATGGTATCCCTAGAAACTCTGGGAAAGTTGATGGATTCTAAGAAACACGACATTCAACTGTGGAT TTGTGTGATGGAAATTTTTAAGATATCCGGAATTTTAGTTATTTTTCCCCTGTCAATTTTATCATGTAAAAAGAAGGATC ACAAAGAAATAGGATTTGAAATCGTAATTAAATAACGGCAAAAGATCACAGAACAGAAAACCATAAAAGCATGAAATGAC AATGAAATTAATTCAAAAGATCTCTATCCCTCTGATTATCTACCCAGTAAAAACTCTGAGTTTAACTGTATGCTGAACAG GGAAGAGAAGGCATTACATAAACAAGTTTAGATTTGATAAGGTTTCCCATACTTAGCCTTCATGTTCTTGCAACCAGTGT TCAAACTACCCATTCTCCCTCTGCTTGCACCATGGATATCGTAATAGTTCCAAACCTGCCTATGATCCTGTTGTGTGCTT CTACAAGGAACCTTGCTGCATCAATTAGCTGAACAAGAGCAGTGTTAGTGAAACCTAATTTTTAATCATGCAAATCTTCC CCTCGCAATAGCAAACCCTAGTTTTTTCGTAGTGCTTGTTACCATTAGCTACAATACAAATATACGACCGTAGAGTGTAA ACTGAATTCTGGTTCACTATAGAAGTTTTATTCACATATGTGAGCATTTGCTTTATCAGTTATTTTCTACTGCTTACGGT TAAGAACCTGAGTCTTGAGGCCATAAACAATCACATTTAATATATCCTGGATTTTTCTGAACTGACCATTCCTGCACCAT TTTATCAGATTTAAGGATTTAAAACTCTGATTTGGAAGCAGTTATTATTTCGTACAATAATATAGATCTTGGAATTTTCT AAACTGAATCATTGTTAGTAATTTCCCTCATAATCTGGTTTTTGATTGAGCTCAATGGCATAGTATGATCCATATAGCCG ACCTCACTTAGTGTGATAAGTCATTTGTTGTTATTTTGTTGTTGTCTATGCATTTTGTTTAATGGCACTCTACTTGATTA ATTTACAGCATGTTTTAAGAGAGCTGCCCTCATCTCCAGTTCCAGCTTCATGCTGTACTGCTTTGTTGGAGGCCTATAGT AAGTTTAGCTCTATGTTTTCTTTATGACGATATGCTTCGAAGTATAGATGGTATTTGTTTGCTGGTCTTTTTAAATGCTG CTTCTTGCTCTATTTGTTTTTCGCTTTTTCTAATTTGTTTTAATTTTTACTTTTTTATGATCATATCAGTAAAGAAACTT CTATTGAGACCATATTGATTTGTATAATGGAAATTATAGAATGGAAGTTTTAATGTTTATTAAGGATAAACTACTTGTGA TACTAAGAACTATCCATATTGGTACTAGGAATATTTTATGCGCTTTTCTGTATATTCGGTTATTGATGAATAATTTTACA TTTTGAAAATATGAATTTGCCTATCATTTGGTGCTATTTTTTTCTTATATGGAGTATGTTTGTACTTTTGAAAAATATAA TTGAACTGTTATTTAATCTGAAGGTTTGCTGCTAAATACTGAAATGTGTAGATAACTTGAGTTTTTTAGCGCAATTTCTT AAATGTGTTGTCACTTAACACTTGTTTTAGTGAACGAAAGCATTCATATAATAAGCAAAACATGTGTCTTTTTTCTATTG AGCAGTTTTTGCAAGTAATTGAAGTAATGTTTTGGTATAAACATGCAGGTCAAATGAGTGTTTGGTCTCTGTTATTTTCC TTGACAATCCTGTTTGATTCTTCTCTTTCTTCCTCTTTCCTCACCTTTATTGCTTCTTGTCTCTGCTGCACATAATTGCT GATGTTGATATGTCAAAGACTTTTGTTACTTTTTCTTCCTGAACTTTCAGTTATCAAGTTTTGTTTTATTATTCTAGTTA TTTGGATGTCAATCTATGCATTAGAAGTTCATGTTATTGTTGCCCTTTTATTTTACAAGAAATTGACCGCAAGGAAGCTA GGATTAATGCAATGCGCTGTGCAATTTTGGAGACCTTTCCAGAACCAAATCGACGTTTGTTACAGAGGTTTCTGTCTCTT CTCTCTGCTACCTTACCTCTGCCCCCTCTAGTAGATGATAAATAACTTCATTCTTTTCTTTATTTGCATATTGTCATCCT AGTATTTAAGTTTGCAGTGGAATAGTTTTCATTCATGGTTTATAATATATATGCTTTTTTAAACAATAGTAGAATAATCT TAAAATATTGGACTTTAAGAAAGTAAATGCTGGGGTTTTTCTTAATACGGGTTGTTTTTGTTATTTCTGTTTTAGTGTGC TTTTTATGAGATACGAATCTAGGTGTTTTGGGAGTTTCAATATTTTATATAGGTTTTTATGTGGCCTTAGAAGAAAAAGC TGTGAAAGATACATCTCAAGCTCTCCGTTTCTGTGAAATCTTACATAGTTACCTCTGATGATAATTTTCTAAAATGAATG ATAAGCAATGGCCTTCTGTTGTAAATAAAACCTTTGATCTGCTTGTAAATTCATTTTCAGAATCTAAAATGACAAATATA TCGATTGTAATGGCACAAACAAATACCTTAATTTTTATCTAATTGTTGTAATCTCTTCATTTACAGAATTCTAAAGATGA TGCACACAATTGCTTCTCATTCTCAAGACAATAGGATGACTGCTTCTGCTGTTGCTGCTTGCATGGCACCCTTGCTTTTA AGGCCTCTACTAGCTGGAGAATGTGAACTGGAGGATGAGTTTGATGTCAATGGTGATAGTTCAGCTCAGCTTCTTGCTGC TGCTAATGCTGCAAATAATGCTCAAGCAATTATTACCACATTGTTGGAGGAGTATGAAAACATTTTTGATGTAAGAAAAT CTCAATCAGACTGATTTTTATTTATTTATTATTAGTTGCTTTCATGTTTATTGATGCATTTTATGTTGCTTTTGTTGTAA CTTGTGAGTTATCCTAACTAGTTTCATTCTTAAAGTTCATTTTTGTTCGTTACATCGCCTTTTTTTAGCTTGCATAAAAG TAGTAACGGTAAAGTTTTACCATGGGATTGAGTCATTAGCTTTTGCTATATATTTCTAATGCATAGTATACTGAGGTAAA AGGGTTTGCTCTCTTGCACTAGACATCGTTCCTAAACAACTAAAATTAAATATGCGTGAGTCATGATTTACCCGTGTTCA TTTGGCAGATGTTTGCTAACTTGTTGCTTCTAGGAACAACAATTTCTCATTCCTTGATTCAATTCCGGTACCTAATTTAT ATCTACTGTTTCAGGAAGAAAACATTCAGAGATGTTCTATGTCAGCAGACTCTCGGGTTGAAAACAGCGGGACTGAAGAG TCGACTGACGATGATAATATAGATGTGAAAGAAAATGGTTACCATGATGCGGAGAATGAAGTTGATCAAGAGACAGATGA TGATGCTGATCGTGTTCACAGTGGAAAATCGAGTGAAAGTAGTGGTTATGCTGGTAGTGATCTTTATGATTATAAGGTTG TCTTATGCTGCCTCACATTTATTTTCTTCTTCTGCTCCTGTCATTTATTCCAATCTATTTTTATTTTATTAAACAAAAAA TATTCAATGAGTAGTCAATTTTTGCTCTCTTCCACTATGCAAATCTCTACGCTCTCATGAAAATTCCCACAGAACTCCTT TTTACTTATAAAATGCTAAAATTCCACAATGCTGTGTCAAACCTAACAGATTCATTAACAAAGCAGTTGGGTTATAAATG TTTTCTTTGTTCAGTCTTCTATTATAATTAGAGGGGAAGTTTAACTATATTTACTTCACCTGAATTTACTCTTTATTTGA TGCTGCCGTTTTAATTGACTGTTCATCTACCATAAAATAATGCATTCCTCTCTTCTCCCCAACATGATACTCGAGTAGAC AAAGATATGAATGGCATTTGACCACAAACATCTATAAGCTAGTGGTGGAGTCAATAAATCTGTTAGGCTTTACAGCATAT TGGGTTTAGTTGTACAAAGGAGTTCTATGTTTACTTGATAAGGGAGGGATCTGTGTAATAATTACTAAACCCAAAATATG GGAGAGGGTAGTTTATTTTTCTGTTACTTTAGCCGTATATTCAAATTATTAGTGTTTTTCTTATATATTTTTTCATCAAA TATCAGGCTAGGAAGAGAGATTTATGTGAATGTCAGAAATATGATTTAAAAAAGCTCACATGTCTTCACTCTTCACTCAA TTGCTTAATCTTTCAGGATAGTTGGTTCATGACATGGTATTTGTGCTTCAGGACTTCCATCCTTGTTGCCCTCATTTTTG TAGTAAAAAGTTAAATTTCAGCACAAAGTAGGTAGCCGTTTGCAATGTTCATGCAGCAAGCCAAAATGGCTCTTGCGGAG GTGCTTGTTAGAAATATGGTGTAAAACCATTTATGTGTCTATATCCAATAGCTTAAGCTTTAGGGATTAATTAGCAGTGT TTCTTGTATCCTGCAGTGATTAGCAATAATCATTTTACTGTTTTCCTCATAATTTTTTTTTTGTGTCCTTATAGGCATTT GGAGCTGATGATTCCGATGTTGGATCCTCCAGTAGTAATCATGTTAAGGCTGGAAATTCAAATTTGAATGCTATTCCTGA TATCCAACTGTCTGAGGATCAAAATAAGCAAAGAAAGAGCAAGGAGAACTCTGTTGATGAGAAGGATGCTCCAAATGTGT TGCCTTCCACAGAGTCATATCGTTCTATGGGTGAGATTTTATCTTCAATGGACCCTGGCAACCATTTACCTGTGCCTGGG ATTGAATCAGGTTCTGGAAAGCAAACCAGTAAAGCTAGTAGCTCAAATTTAAGTTCTAAGCGGTCAACATTCTGGGGAAG GAGCAACGTGAGTTGTTATTTTTTGAAGATTAGCTACTAACAACTTTGTAGGATACGTTAAATATTATAAATGTGTTATG TGACTATCTCAGTAGTTATTAGATTCATGGTGACAATTCGATAACCATTTAAAGGAGAATGCTATTTTTTCTGCTTGAGA ATTTGTGGCATGAGACTATGCAACATTGATAATATACTTGCTATGATCTTGCAATTAATATATGCTGACTTAATATGTTA GCACTAGATTTACTTAACTTTCATCACGGGAGGCAAAACTGATTATTCTGTCCCAGTTTTTGTAGTTGTGTCTCCAAGGT CAATATTTGCATCTGATAATTTTGTCTTATTTGAGCAGCCGAGGAAGACACCGTCCGTGGATTCCGTTGATTCTTCCGGT GAAGAGGAGTAAGATACTTGGCTTTTTACTTGTCTTTTCTGTTGTAGAATATGATGTTGTAATGTGATTTTTGATATAAT GGCAGAATTTTTTTCTTGCTTAACAACCATTCATTGCTAGCAATATGTGGTTTGCTTCATACATGTTTCCCTTTTTCACT TTCTTTCTTCCCCCTTGAGAGTGAATAACCATAAAACTTTGATGTTTGTAGGCTTGCTATTCAGAGACTAGAGATTGCAA AAAGTGACCTGCAACACAGAATAGCAAAGGAGGTACTTTTCATTTTCCAACTCATTTTATGCCAAAATCATATAATGTGG ATGTTCCTACTTAACGGTGTTTGTTCTATTTTCGTTTTAGGCGAGAGGCAATGCAATTCTGCAAGCAAGCTTAGAGAGAA GGAAGCAAGCTTTGCATGAGCGGCGCTTGGCACTTGAACAAGATGTACTATTAATACATCTATCTCTCTGAATAAGACAT TTTAATTGGATTTGCTGTTTTAACCTACTTTTTGATATATTATTGTTTAATATGGAGTCCTACATGCAATATTTTCTTAC TTCCTTTTTCATTTTGTTTTGATTTCCTTAGTTTTATTTTAATTCTTATCTTCTTCCACCCTCATGCTGTCATATTTTCT CAAACCTTTTCAAATTTGAAGTGGATATACATTGCCAGTTGCCACATAATTCTTTTTTGTTCCTCCATAAATAAGATCTA ACTAAATTTTTTATATAAAGGTTTCAAGATTACAAGAACAGTTGCAAGCTGAGAGGGACCTTAGAGCTGCATTGGAAGTT GGTTTGAGCATGTCTACTGGACAGCTTTCGAGTTCACGTGGCATGGATTCCAAGGTTCTTGCATATTCTTTTGAAATTTG CTTTTCTTTTGATTGCTTTCGTAGTACACATAATCTTACAAAAAAATTGCCTGTGTGAAGACTAAGGCTGAGCTGGAGGA AATTGCACTTGCTGAAGCTGATGTGGCCAGGTTGAAGCAGAAGGTTGCAGAGCTGCACCATCAACTTAATCAGCAACGAC AGCATCACTATGGTTCACTTACCGATGTGGGTGATCGGTACCAACATGCCCAAAATCAACCTCAGCCGTGAGTATACAGA CATGTGTTATCTTTAGGCATTGCTTAGATTATCATGCTGAACCTTGCAAGTCATCAAACAACTTTTAATCCTAGGTATTC TCATAATGTTGAAAAAAATAGAAAGAAAGAAAAGGAATACATGCATTAGGTCTCCAGAGTGTATATTGTTATTACTGTTT TTGAGGAACTTTAAGTTGTGCAGTTCATTAATTTGACAACTAGTCCAGTTTATATGTCAAAGAGTTTACTGGTTTAGTGG ATGCAATGTGAATGGACTTTTATCAGTCTCGTTCACTTTTTGTCTCGAAGTAAGTTGCTAACACTCGTGTGCACGGGTGC CAACGAGTATCCAACTTCAAACACAGCCTTAGTACCTACTTCAAAGTGTTATAGTCACTACCATTGATATTAAGTATATT CCAGTTGTCATCCAATAATTTTTCCTGAAAAAGAGAAAACATGTTGTAATCTTATAGTTCTCTGTGTTTCTTCGGTTCCT TATCGAGGAATTCTTGGTATGCACTTTGTGCTTGGACTCATTTTAAATTTTTAACCAACATTTGTGATTACTGGAACTGA ACACTTGTCTTATGATATATTTTATTCACCTTTATGAGACCTCCCTCTTAATTGAAAAACCTTTTGAAATTATTAAGTTC GATAGTAGCTATAATAAAATTTATCCGACTTCTGCAGGAGATTTCTTCAGCAAGATTTTGATTCAACCCTTGCGTTTTGT AATCATGAAAGGAAGCAAAGGACTGAGGTATGTTTTTTAGTCAACATGTCTTACTCACTAACTAACTAACTATTATTCTG TTAACTGACTAATTCTTATTAGCTGACTGTACCTATCAGAATAGTCCGGTGCTTGTGGATGATCTATTCTTAATGGTTAT GACTTGTGAGCGCTTTTTCATCAATAACTCATGTAAAATTTGCCTTTTCATTTCAACAGGAGAGTGTATTGGGCACTGAT TGGAGAAACATCAAAGGACAAATATTGGCATCTGGTAATGGTAGTAGGCAGCCTTCTCGCAAGCAATTTATAGATTCAAG TCCTAGCGATTCGAAGAGTACTGAAGCATCAACAAGCATGTCAGTGGATGAGCTTGGTGTTGTTGATTCTGCAGCCTCGG TGCCCTCCACCTCAAGAGCTGCAGAGGTAAGAATTCAAGAAATGTGCTTTGCATAGTTGTCCGTGTTTGGATCAGCTTTA TCTCAATTGATTTTGGATAAAATTGATTATGGTAGAAGTGAGGTAAAAGTGAATGTTTGGATACATTTATGAAAAAAGAA AATTATGTGGAGCAAAGTTGTGAAAATTCAGTTGTAAAATTTTTCAATTGATTTATTAACTGCAGAATATAATTCTACGA GATATTTCCGAAACATCTATATTGTCATCCTAAAGGGATTAAACTCAACTAGAATTTATTTTGAGGTTCCTATCGGGGAA CCAAACTCTTATTCAAAAGTCTATTGACATCATTTTATTCATTTGTTATAAAACTGTTATTTCCTTCTAGGTTAAGTAAT GTGTGGTTAGTACATTCTGCAGTAGCATCTTTGTTTCCAATTTATTAGGAACTAATCTTGCAGCATTGGTTTCAGGTGAC TGAATTTGCAAGACATCCTGTAGCATCTTCGACATTAGTAGAGTTAACCACTCGTCTCGATTTTTTCAAGGAACGTCGTT CCCAGTTGATGGAACAGCTCCATAACCTTGATTTGAATTATGGTTCTACAACTTCCCAAGACTTTGTTTATAAACCATCA TCACCATCATGGAGTTGA
CDS sequence (LotjaGi1g1v0050600.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGACACAACGGGATTTTTCGGAGTGACGCGAGTGATTCTATTGAAGGGTCTTTCCATCAATGGAGGGACAAGCGTCC AGTTAAGTCTTTGGTTGTTGGAAGACCAATTCTTTTAGCACTGGAAGATATTGATGGAGGTCCATCTTTCCTTGAGAAAG CTCTTCGGTTTCTGGAGAAGAATGGAACTAAAATTGAAGGAATACTGCGGCAGTCTGCAGACGTTGAGGAAGTAGATCGG AGAGTTCAAGAATATGAGCAAGGCAAGACTGAATTTGGTCCTGAGGAGGATGCCCATGTTGTTGGTGACTGTGTCAAGCA TGTTTTAAGAGAGCTGCCCTCATCTCCAGTTCCAGCTTCATGCTGTACTGCTTTGTTGGAGGCCTATAAAATTGACCGCA AGGAAGCTAGGATTAATGCAATGCGCTGTGCAATTTTGGAGACCTTTCCAGAACCAAATCGACGTTTGTTACAGAGAATT CTAAAGATGATGCACACAATTGCTTCTCATTCTCAAGACAATAGGATGACTGCTTCTGCTGTTGCTGCTTGCATGGCACC CTTGCTTTTAAGGCCTCTACTAGCTGGAGAATGTGAACTGGAGGATGAGTTTGATGTCAATGGTGATAGTTCAGCTCAGC TTCTTGCTGCTGCTAATGCTGCAAATAATGCTCAAGCAATTATTACCACATTGTTGGAGGAGTATGAAAACATTTTTGAT GAAGAAAACATTCAGAGATGTTCTATGTCAGCAGACTCTCGGGTTGAAAACAGCGGGACTGAAGAGTCGACTGACGATGA TAATATAGATGTGAAAGAAAATGGTTACCATGATGCGGAGAATGAAGTTGATCAAGAGACAGATGATGATGCTGATCGTG TTCACAGTGGAAAATCGAGTGAAAGTAGTGGTTATGCTGGTAGTGATCTTTATGATTATAAGGCATTTGGAGCTGATGAT TCCGATGTTGGATCCTCCAGTAGTAATCATGTTAAGGCTGGAAATTCAAATTTGAATGCTATTCCTGATATCCAACTGTC TGAGGATCAAAATAAGCAAAGAAAGAGCAAGGAGAACTCTGTTGATGAGAAGGATGCTCCAAATGTGTTGCCTTCCACAG AGTCATATCGTTCTATGGGTGAGATTTTATCTTCAATGGACCCTGGCAACCATTTACCTGTGCCTGGGATTGAATCAGGT TCTGGAAAGCAAACCAGTAAAGCTAGTAGCTCAAATTTAAGTTCTAAGCGGTCAACATTCTGGGGAAGGAGCAACCAGCC GAGGAAGACACCGTCCGTGGATTCCGTTGATTCTTCCGGTGAAGAGGAGCTTGCTATTCAGAGACTAGAGATTGCAAAAA GTGACCTGCAACACAGAATAGCAAAGGAGGCGAGAGGCAATGCAATTCTGCAAGCAAGCTTAGAGAGAAGGAAGCAAGCT TTGCATGAGCGGCGCTTGGCACTTGAACAAGATGTTTCAAGATTACAAGAACAGTTGCAAGCTGAGAGGGACCTTAGAGC TGCATTGGAAGTTGGTTTGAGCATGTCTACTGGACAGCTTTCGAGTTCACGTGGCATGGATTCCAAGACTAAGGCTGAGC TGGAGGAAATTGCACTTGCTGAAGCTGATGTGGCCAGGTTGAAGCAGAAGGTTGCAGAGCTGCACCATCAACTTAATCAG CAACGACAGCATCACTATGGTTCACTTACCGATGTGGGTGATCGGTACCAACATGCCCAAAATCAACCTCAGCCGAGATT TCTTCAGCAAGATTTTGATTCAACCCTTGCGTTTTGTAATCATGAAAGGAAGCAAAGGACTGAGGAGAGTGTATTGGGCA CTGATTGGAGAAACATCAAAGGACAAATATTGGCATCTGGTAATGGTAGTAGGCAGCCTTCTCGCAAGCAATTTATAGAT TCAAGTCCTAGCGATTCGAAGAGTACTGAAGCATCAACAAGCATGTCAGTGGATGAGCTTGGTGTTGTTGATTCTGCAGC CTCGGTGCCCTCCACCTCAAGAGCTGCAGAGGTGACTGAATTTGCAAGACATCCTGTAGCATCTTCGACATTAGTAGAGT TAACCACTCGTCTCGATTTTTTCAAGGAACGTCGTTCCCAGTTGATGGAACAGCTCCATAACCTTGATTTGAATTATGGT TCTACAACTTCCCAAGACTTTGTTTATAAACCATCATCACCATCATGGAGTTGA
Protein sequence (LotjaGi1g1v0050600.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGHNGIFRSDASDSIEGSFHQWRDKRPVKSLVVGRPILLALEDIDGGPSFLEKALRFLEKNGTKIEGILRQSADVEEVDR RVQEYEQGKTEFGPEEDAHVVGDCVKHVLRELPSSPVPASCCTALLEAYKIDRKEARINAMRCAILETFPEPNRRLLQRI LKMMHTIASHSQDNRMTASAVAACMAPLLLRPLLAGECELEDEFDVNGDSSAQLLAAANAANNAQAIITTLLEEYENIFD EENIQRCSMSADSRVENSGTEESTDDDNIDVKENGYHDAENEVDQETDDDADRVHSGKSSESSGYAGSDLYDYKAFGADD SDVGSSSSNHVKAGNSNLNAIPDIQLSEDQNKQRKSKENSVDEKDAPNVLPSTESYRSMGEILSSMDPGNHLPVPGIESG SGKQTSKASSSNLSSKRSTFWGRSNQPRKTPSVDSVDSSGEEELAIQRLEIAKSDLQHRIAKEARGNAILQASLERRKQA LHERRLALEQDVSRLQEQLQAERDLRAALEVGLSMSTGQLSSSRGMDSKTKAELEEIALAEADVARLKQKVAELHHQLNQ QRQHHYGSLTDVGDRYQHAQNQPQPRFLQQDFDSTLAFCNHERKQRTEESVLGTDWRNIKGQILASGNGSRQPSRKQFID SSPSDSKSTEASTSMSVDELGVVDSAASVPSTSRAAEVTEFARHPVASSTLVELTTRLDFFKERRSQLMEQLHNLDLNYG STTSQDFVYKPSSPSWS
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 | 736 | 736 | 0.0 | – | |
| PANTHER | 1 | 736 | 736 | 0.0 | – | |
| Gene3D | 10 | 246 | 237 | 1.3E-38 | ||
| ProSiteProfiles | 39 | 239 | 201 | 30.222 | ||
| SMART | 45 | 236 | 192 | 2.2E-26 | ||
| CDD | 48 | 185 | 138 | 5.87511E-35 | – | |
| SUPERFAMILY | 48 | 241 | 194 | 5.49E-35 | ||
| Pfam | 48 | 192 | 145 | 7.4E-32 | ||
| MobiDBLite | 249 | 308 | 60 | - | – | |
| MobiDBLite | 321 | 347 | 27 | - | – | |
| MobiDBLite | 321 | 440 | 120 | - | – | |
| MobiDBLite | 348 | 364 | 17 | - | – | |
| MobiDBLite | 399 | 434 | 36 | - | – | |
| Coils | 471 | 505 | 35 | - | – | |
| Pfam | 481 | 561 | 81 | 3.1E-21 | ||
| Coils | 530 | 564 | 35 | - | – | |
| MobiDBLite | 624 | 656 | 33 | - | – | |
| Coils | 691 | 718 | 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 LotjaGi1g1v0050600.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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