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 | LotjaGi2g1v0409100 |
| Transcript ID | LotjaGi2g1v0409100.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Inositol polyphosphate multikinase; TAIR: AT5G61760.1 inositol polyphosphate kinase 2 beta; Swiss-Prot: sp|Q9FLT2|IPMKB_ARATH Inositol polyphosphate multikinase beta; TrEMBL-Plants: tr|I3T111|I3T111_LOTJA Inositol polyphosphate multikinase; Found in the gene: LotjaGi2g1v0409100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:90601031..90614920) extracted from Lotus japonicus Gifu genome v1.2.
CATTTTTATTTTATTTTAAAATTAACGGGACACTTCCTAATTCCTATTGTTTTTGTTGAGGTGGTAAATGGGAATTTGAA ATTGAAATTTTCCCTCTCTTCAACCTCTGTGACATACTCCATTGATTGAAGGTGCCAATGCCATCAAATTTCGAAGCTTA AACCAGAAATCGCAATGGAGAAGAGGCTTCGCTCATCTCTACAATCCTCACCGCAAGAGTTTCTCTCCCTCGCCACAACG CTACCCCTCAAATCTTCCAAACCCTCTCTCAAAACCCTAATCCACTCCATCAAACCCTCCTCCACCGCCTCCTCCGACCT CCCTCCCTCCCTCTGCGACTCCATCGCCGCCTCCGTCCAATCCTTCCACAACCTTCGTGACAACAACCCCTCAACCCCTC CCACCAAGCGCCTCCGCCGCTCTTCCCGCCATTCCAAAACCCCCTCCAAACCCCACCCCGACGAGAAGGACGAGAAGCAG AAGCTTCTCGAGCGTCTCGAGATTCTCGCCAACATCGCGCTGCTGTGCGTTTCGCACCCTGGGAAAGCGTTCTCCCCGTC AGATCTTCTCCCTGGTGTGCAGGCGCTGCACAATAATTTGATCGTGTTTGAATCGGATTTGGCTTTGTCTTCGGTGATCG AGGGCTTGTGTGAAGAATGGTGGAAGGAGAATTTGCCTGATCGGGAGACGTTGATTTCCCAGACTTTACCTTTTCTGCTC TCTAGGTCGCTGACGCTGAAGAAGAAGGTGGATGTGCATAGGGTTTGTGTGCTTCGGGAAGCGTTTGCGCTTTTCGATTT TGAGGACGAGAGCATTGAGGATTTGAGGCTGTTGCTGGTTCGGTCTGTGATTTCGCCCTTGTATCTGAAAACAGAAGACG GGAGGCGGTTCCTGTCGTTTATCTTTGGGTTGAGCAGTCAGCTTGGGAAGGAAATGTTGGCGATGATTCGTTCCCAGATA CCATTTGGGAGGAAATCAATGCTGGAGGCATACGGGGATATTCTGTTTCGGGCATGGAAAGCTGCACCCGAGGATTCGAG GGTTGAGTTTGAGAATGGGTTCTTGCAGGATTTGATTGAGGGTGCCATACATGCTTGTTCTGGAGCTTTTGCTTCGTATA TTAGGAGGGTTTTTGGAGCTTTTATTAACCAGAGGACCACCGATGGGGTAGAGAAACTACTCTATCGACTTGCCGAGCCT ATCATATTTAGGTCTTTGCAGGTAAATGCAAGAGAAATTAATTTTCTTCTCCACCCTGCCCTGCATGTCATCATATGTAT AATGTTTGTTTGCCAAACCTTCAATTTCATATGAAGACTTTGTATTATAAGATGCTAAGATAAACAGCCAAAGGTAAAAT GTTAGGGCAACACTGAAGTGGTCCTTAAAAGTTCACCATGTTGATTGTTTACTATAGTGTTGTTAGAGTATGGCTTTCAC AACTCTAGGTCATTGATGCACATCTGCAGTCTTTGGTTGTTAACGGCACTCATCTGTGTAGATAGAAAATGGCAGCATTT GAGTTTTTAGAGTTCCATGATTTTAACTTTTGAGGCCTGGTATTCATATTTATGATTTTATACTGCTTATGATCAATTTG GAGTCCTCTTAAAATTGTGTTTTCTACACATACACTGCATTGTGTTGGATTAGTGTGGGCTCTCAGATTATAATAAGTAA TGGCCAGGACGATATCTACATTACTCTTTCACATGCCTCACTATTTTCGTTGTTCAGATATAGAATGTTACTTTTCCTTC TTTTCAATAGGTTGCAAACTCAAATGTTCGTCAGAATGCTTTGCATTTACTTCTGGACATGTTCCCCCTTGAAGACCCTG ATGCCACAAAGGAGGAAAAGGATATTTTGCTTGATAAACAGTTCTTTTTGTTAGAAAGGTTGCTAACGGATGATTGTCCA GAAGTGAGAACAATTGCTGTTGAGGGTTCATGCAGAGTCCTTCATCTATTTTGGGAAATCATTCCTTCACCAATCATAAC AAAGATACTTACAAAACTTTTTGATGACATGTCTAAAGATGCATGCAATGAGGTTAGGCTTTCTATGTTGAAGGGCATCA TTTATTTGCTTGACAATCCACACTCTCATGAAATCCTTAAGGTGCTCTTACCAAGACTGGGGCACCTGATGGTGGACAAT GCTCTCACAGTAAGAGTTGCTGCAGCAGATCTCTTACTCCATCTAAAGGATGTCAGAAATTATCAGTTCAACAAGGTACA TGTTATTAAACTCAATTGCTTAAGAAGTTCTGTATCTAATGTATTTACTAATATTATCAGTGCTGATTGGCTGGCTGATG TTCTGTATGTTATGTAGGTGGTGGATCTAGATTTGCTTTTGTCTTTGCTTGCTAATGATCAACCTCCTGTGGCTCAGAAG ATAACAAAATTGCTTATGCCTTCATACTTTCCCTCCAAAGTACCCATGGAGGAGGCATGTAATCGCTGCATTACACTTGT AAGAAGGGCTCCAATGGCTGGTGCAAGATTTTGCCAGTTTGCCATCTTGGAAGGAGCATCTAAAACTCATCTTTTGGAAT TGGTCAAAGTACTCCTGAGTTTGGTTCTGTCAATGGATAACATGGAAGAAAATCAGATTGAGGGTTTTCTTGTTGCTGCT AGCTACCTCTGTGATAACTTAGCCTGTGAGCCAAGCTATATAAATGGTCTCAAGGAGTTACTTACTGCAGAGAAAGTGAA AGGCTTACTAACAGTAGTTTCTTCTAAAGCACAAGCTCAGTCTTCTTTATTCAACATTCTCTCCATTGTCTGTCCAAATG ATGTTAATGAACTTCTTGAGAAATGCTTGGCGGTCGTCACAAATTGCAGCGGTTTACCTGAAGATGTTGATCGCCATTCT GAAATGAGATCTTCACATAAGTTGTTGCTTTCATTGGGTGGTTTTGATGAGATGTTTGAATCCTTAACAGCCCTCTTGCA TAAGGCTGCCTATCGTTGTCACTTTAAATTTGGCACAGACATGCCATCACATAGTGTTTCATTTGGTACGAGTAAGAAAT CAAAATCCTCTGGAAAATCTTCGATGAAGTCAAAGATAATTAACAAAAAGCAATCTTTTGAGGATGATTATTTACTAGCT GTTGGGGCAGCGTGGCAAGTCAGAGATTTGTTTCTGCATGACGATACCAGAAAAGCTATCTTGAGATCTCAACCTTTAGA AATGTTGTTTTTTTCTCTTAAGGTGGTTTCTGAGGTCAGCATTGTGCATTCAGGACACTATGAATATATGGATATATCAC CTGTTCTGGCATACATCACCCTTGCTTTGCAAATGGCTGTTGACAATGTTGACACAGGTAGTATAAAGAATCATGGTTCA ACGAGGAAGAAACATAAGGTTGATTCTTCTGCATTGCTTTCAGAGGCAAGTAGACTCATTTTGCACTTTTTCTGTTATTG AATTTTTGGCTAATTAATATTTATCTCCCTTTAATTTCATGCACACATCTGATGTTGTTTTCTATTTTTGTAAGTTTATT AAAATGATTTTGTGCATTCGTACTTTATTGCGTTGTACGTTAATGCCAAAGATATTCTTTGCTAATTGATCATATGAATT TGTATTTGTTTGACTTAAAACGTTTGTCTCTCCTTTTTCTTTTGTTTCTGCTATCATGATTATAGAAATAGTTCAATGTG AAGTCTGAATTGTGTGAATTGGTTATATGACACACACCTAGCATTACAAATCACAGCGCAAATCAAATTGCGGCCGGAGT GGTCACCTGTATGGCTATACTCAATCATGACTGTGACCTATGGTTGTATTTTATTCCTACACTGTGTTCTATGTAGTCAA TGCATAACTTATATGATATTTCAAGTTATTTTTTATTGTTTTTTTTATATTCTACATAATTTGTGAGTGTACAATGTACC AATGAATTTTGACCTTTCAAAGCGGGGCTATAATATCATGTGATGCTGGTGACTAATATAAGTTTGCCTGGAATTTGTCA ATGTCTGCATCTTCTTTTCCCCAGTTTTATTGTTGATATTCCTTATCTGCTAGTTTCAGTTGTCTGGTAAAATGTTGAAT TTGTTTTTTCCCTTGAAACATTCAGGTTTCCTGCATGATTATTACAATATAGTAATCATACGGCACACTAATTCATTTTT AGTTGAGACCATCCACTGTGTCTGAATTATTACCATTCATTAACCAGATTGATTTTATTTACGTCTTGCCTAATTTCCGA TAAAAAATTATTTTCGCCAGACTGTCTTGCAGCTGACAATAGAGCACATGCTCAGCTGTTTAGAAAAACTATTTGGAGCA GATAATATCATACAAGATCACAATGAGGATCCAGATAACTTGCAGTCAACCAATGGGAAAAATAAAACTTCTGCAAAAAG GAGAAAGTTATCTGCTACAAATGCGTGTCACCGAAGTAGTGGTGGTGAGTAAATGCATATAAGATTTATTATACAGTTTT TTAGGTCTGATAATGGATTAGGTTGCCTTGACCAAATGTAATGTAACTAGCTCAGGCACACCAAACAGACTGCCGCCCCA AGTCACTCACTAAATTATTACAATTACTAAATTAAACAGATTTGTATGTGGTGAACAGTTAGACAGATAATTGGGTTTAG ACATGCGGGTATTTATGATCACAGATTTCTGTACTTTTTCGAGTTTTAACCATTGTTTACAGGTTTCTTCCCTTTTGACC ATTCTATTTCAACAGCATTATCAGGCTTTTCTTTTTTAAGGATCAAGGCATAAGATACTTCAAACCCTTAATTGATACTA TCAGCACAAAAAATTTAGACATACTGCACAAGGAGCAAAATATGCCTATCTGTTAGTCCTGGCTATGAGGATTGAAATGT CAGTGCTGCATGCACATAAAAATGTAGCTTTTTCTGTAAATTTGTTTTGGTTCAATTTTGAAATTAAAATTATGATTCAA TTAAAAATACTGCTGATTTAAGTTGTATTTTGTAATGATGTTGCTGATAAGTAGTATTTGAACTATGTACATTGGTTGGG TATAATATATTTGTTATGTCTTGCACTATGTCTGTAAAATCTCTCTGGTCTGTTTGTTACTTACTGTCTAAAAACCTTAT GTATAGGATCTGAGTTCAAAGAACCCCAACTAGTATTCTGTAAGGTGAAGATGCTTACTGCTGTTCTCAAGTTCATGGCT GATACCACTGCGATGTGCTTTGCTCCTGACAATCATGGATTATTCTTGGATTACACATCAAGGTGCGTACACGATATGGT GTCTTCATTGGACCGGCTATCTCATAGCCAAATTCAACTGAGGGAAGAGGATAAAAAAAAGAATATATTGTGCCTGAAAA GCTCTTTTACCTATGCTGCAAAAATACTCAATATGATACTCACAGATTCTAGTGGATCCTCCACAACTCCACCACAAGCT TTTACTCTAGCCAATAACTTGCTTGATTTAATCATTTCAATTGAATCATACATGGGCTCTGGATATGCATCACGTCTTGT TGCAGCAGCAAAGCCTTGGCTGCCAGATGTGGTTCTGGCATTAGGATCTGCAAGTATTCTACAAGATCCTGACATTGGTA GGGAACATTTAACTCCATCTGAACAAATGAAGCAGCAGTTTCCAAAATGGCCCTTGATTGTAGCCCAGACCGAGCTCTCT GGACCAAATGAAGCTGAAGAAAATGATGAAAGTCCTCAACAGGAGAAATTCTCTGCATTCAATAAACTTCTGGGAATGCT GATTGTATTACTGAAAAAGAATCCCGATATAATGGATGCAGTTGGTGTTATTTTCCTGGGTTCTTCACTTGTTGGGCTAG AACAAAAGGACTCTGGGCTTGCATTAGGACTCTTGCAGTTTGTGTGTTCAAAGTTGTTTAAAGATGATGACAAGAATTGG GGTGACATGATGCTGTCTTCTCTAGAAGAAATCTATCATAAGATAGAGAGGGAAATAGCAGAAGAAAATGACGATGATAA ACTGGGGAAATTACTCCGTGCAAAGGAGTTGCTCGAACCTCTTTGGACATATCATCTATATGAAACTGGAAGGTTCACCA TGACTGATGACTAGAAAGAGTTTTGGAGTTCAATTTACGAAGGCCATTAGATTTCTAATGTACATACTTTTCAGCTTTTG CAATGCAATTGAAATGTTTTTATAAGATTTTTCTTTCATTTGTAATTAACTAAGAATATCACCATCAACATCAAGGAAAA GATTTCATGAGAAACTAAGTTTTACATGGTAGTGCATGTTTGGATACACCGTGGAAAACCACGGTTAAGCCAAAATCACA GTGCATAGCCACAAAGGTTAGGAGAAATTGCTTCTGTCTGCGATTTTAGCCCACCGTGGTTTTTCACCGTGTACCATGAC GCTTACACCCTATAGATATAAATTGTGGTTAGATGATAAAAATAAGACAATAGTCCCTAGTCATTCAATATTTCAGTCAT TTGACTCATCCAAACATTCATTCAGCATAGCAAAATGTTGAACTTGAGTGTCCCAGAAAACCAAGTCGCTGGGCATAAAG CGAAGGAGGGTGTGAATGGGCCTCTGGTAGATGATTCTGGAAAGTTCTACAAGCCTCTTCAGAGTGATGAGCGTGGTTCT AACGAGGTCACCTTCTACACTTCCTTCTCCTCCGATCCCAGAATTCCCCACAACATTCGCTCCTTCTTCCCCATCTTCCA CGGCACCTCCGTCGTTAACGCCGCCGACCACCTCGTCTTGGAAGACCTCCTCTCCGCTTACTCCAACCCCTCCGTCACCG ACATCAAGATCGGTTCCAGAACTTGGTACCCAGAAGCTTCTGATGATTACATCAACAAGTGCCTTCAGAAGGACAGAGAA TCCTCCTCCATCTCTCTGGGTTTCAGAATTTCAGGTGCAACCAATTTTGCTATGTTCTCTTTGCTTCATTTCATAATGAT CATGATAATCTTAGGGTTTTGTTTTGTAATAGTTAATTTTATTTCATCTTAGGATTGAAGTCTGTGGGAGCTTCCAATTC ATGCTGGCAGCCACACAAGAAGTTCCTGCAGAGCCTCTCTGCTGAGGATGTCAAATTGGTTATGAGGAAATTTGTTTCTT CCGACGGGAATGCCGACAACCCAGATTGTGTTTTTGCGTCTGAGGTTTTTGTCCCTGTTTTGAAGCAGCTTTTGGAGCTT AAGAAATGGTTTGAGGTTCAAACCATCTTTCATTTCTATTCTTGTTCTGTTCTTGTGTTGTATGAGAAGGAAGGGAAGAA GAGAGCGGGTGCTGTGGTTAAACTTGTTGATTTTGCTCATGTGGTGGATGCAAAGGGTGCCATTGATCATAACTTCTTGG GTGGGCTTTGTTCTTTGATTAAGTTTGTTTCAGATGTCCTTGCTGGGGTAGATGGTAAAGTTGAACTCTGAGTGAGACTA CACTGCCATTGTTGTTTATTTTTCCTTTTAAGTGAGTTCCCAATTGTGAATTTCCTAGTGATCTTATGTGGAGTTCATGT CCTCATGTTGTAATTTCTTTTCATCTTATGATGGGGTTCAATGCAGCAGAGAAATTGCTTCATATCTTTTGATTCATGTT GCACGGCCTACTAGTGACTTGGACAAAGCTTGATTCTTCTTTGTTTGAAAAGATGGTTGATTCTATATGGTCTTTGGAAA CTTTTTCAGAAAGTTTTAAATGATGCTTTAATGTCCTTGTGATTGCTTAATACATAGCTCGCTTGGTCAAATATTTGTTG TGTGGTTACTTCTGGACTATGCTTATTATCTTTGATTTGTTCTGAACTTGGTGAAGGTTTTAGTTGAAGAAGCAATGCAA ATATTTCCAACCCACCTCTTGTGCTTTCATTCATAATTCATGTAATTTTTAAGATCAATATCAATTTAACTAGCTTTTTT TCAGGCAAATTTTTCTTAAATTTTTTGTACTCTTTCTGTCTTGTTCTTTGTGTTTTTCCCCTCGGCGTACATTAGGGAAT TAATTGTATTCTTTTGATACAAAACTTTTTTAACAACTATTCCGCTTCATCTGGTTGTGCTCTTTCTTTCTAGCTCAGTT TATAGTAGTAAGAACTATGGAATTACTGCTTTTAAAATAACAGAATACCCGATGAAACAAATGAAATTCATTCATACAAA TTGCAATAAATTGAAAAAGGCTAGTTAATTGCTTAAAGTTGTTTATAGACAACGAGTCAACATAATAAAAAAAGATATTA AATAAAATGGTTAACTAGTGGTTTGTTAGTAGCTCATGGATAACTGCCACAAGTCTCCATAGCTCTACTTCGCTGCTCCA CTTCTGATTTTACCCAAAAAGCCTCAAGCAATACCAGACAAGTTTGTGAATGTACAAGAATAAGGGGTCTCTATGCACTG CTGTAACTAACTAACAAATCTTCAATGTTGTTTGATGAAGAGTTGTCCATTCAAGGGCCTCAGACAGGGATCATCTTTAT GCCAGCAGCAATAGGCATACCCAAAAATCCAACAACTAAACAAAAGAACCACTGTACCAGAGTGAGAGGTGTTGTGTTTG CAAAGGTTCCCATGTATTCAACTATTATGATCTGGAATAAAGCAGTAGCACTGAGGACAGCCACGAAAACGTAGTTTTCC AATATTCCATTGAGAACATTAATTTTCTCCATCTCACGTGAGTTTATCTCATTGAAAACCTGCAGAACCATGACAACCCA AATCTGTTAAATATAACACATTCACACATGACACAACAGTTACTCAGTCTTTGGGGTCATAAGTATTTCTAAGCAAGTTG TTCAGTTTCATTCAGAAAATTTACCTGACAGAATACAAATGTGTTGAAAATAAGTGTGTTTAAGACCAGATCCGAATCAG GGCCACTAAGTGCAAAGAATGATTTTCCTTTTGCCTGAAGAAACCATATCACCGTAAACTGATACAGGGATTGTCCTAAG ATATTCCTCCACATGACATTGCTGATGAAATTCCCTTTCCTTCCAACAGGTGAACGCTTCATTAAATCATCTTTTGGAGG TTCAGTTGCAAGAGCAAGTGCTCCCAGGGTGTCCATTATCATGTTAACCCATAAAAGTTGAACAGCTGTGAGAGGTGCAG TTCCTGAAGAGAAAGTTCATGTACAATATTAAGATAAAGAAGTAGCAGAAAAGAAAAACGGTTTCAATATCCTGTTATGC AAGCTGATCAAGTTCATGCTTCAAAATTAAAGTATACAAATTAGCTAGTTTTCTAACCTGTTAAGCAGGCTGATGTGAAG TTCACTATCAGTGCAACCACATTAACTGTCAGCTGGAACTGCACGAATTTCTGAATATTTATGTAAACTGAACGTCCCCA TTTGGCCACTGTTACTATTGTGGAGAAGTTATCATCCAATATTATGACATCTGCACTTTCTTTTGCAACCTGTACATATT TTATGAAGTTAGGCGGATTTTGATATAGCACAACATTTATTTTTCAAATCTATTGGTTTTAGGTATTTGACCATGATTTA CATGGCCCTCTTTAACAAGGTAAAATGAGTGATTTACAAAGGGAAAGTAACATTGCATCACACTCACCTCAGTTCCAGCA ATGCCCATTGCAAGTCCAATATCTGCTTCATGCAGGGCTGGGGCATCATTTGTTCCATCACCAGTTACAGCTACAACTTC CCCAAACGTGGTACGCAAGTGCTTCACCAATGTATGTTTGTCTAAAGGTGAGGATCGAGCCATAACCTACAAAAAAAAAA TATTATGTTATTGAAAAGATCAACCATGAAACATTTGTAAGATTAATTAGTATTGAAACAATATAGAAGGTATGAAGCAC CTGAATTTTGGGGATCAGTTCAAGCAACTCTTCCAGACTCTTCTCTCTAAACTCTGGACCTTCAATGGCTATGCCATCAT CTGTTAAAATCCCACATTCCCTAGCTATAGCCTTTGCGGTATTAATATTGTCACCTGTAACCATTCTTACTGTTATTCCA GCTGAACGACACACTGCTACAGACTCCTTAACACCGGGACGAACAGGATCTTTGATGCCAACAACTCCAATGCAAGTGAA TCCAGAAAGAGGAATGGGGTCTTCAGCAGAGAACCCATTTTCCAACTCCATATAGGCAAGGCATAGAGTTCTAAGTGCCT CACTAGCAAACTGGTTAATTGTAGAGTTAAGATGGTTAATTGATTCTTCATCAAGGGGGACAACCTCACCGTTTGAGTTG AGCACTTTGTCACATGCAGCCAGAACTATTTCAGAAGCTCCTTTACAGTGAGCTCGTAAACCTCCACCAGGAAGCTCCAC CGCTACACTCATTCTTTTCTTAGTAGAGTTGAATGGCTCAACTTTCACAAGGTTACATGCTTGTCTCTCTCCTTGAAAAT CACCCCCTAATGACAAGCCAAACTCCAATATTGCAGTCTCGGTTGGAGTCCCTAAAATCTCTCGTTTCCCATCTTTGTTA ATCACAACTTCTCCTCCTGTGTTATTAAATATTGACTGTTGCAGAAGCTTCACAACAGATTCAGGGAGTTCAGAGCACAA ACTAGAAGGCTTATTGCTCACTTCCTGGCTATTCATGCAAATGCATGTTTTCACAACAGTCATGTGATTGGTTGTTAGTG TTCCAGTCTTGTCACTGCATATAGTTGTGGCTGATCCCATGGTCTCACAAGCTGCCAAATGTCGGACGAGGGCTTTGTCA TTCATCATCTTCTTCATAGCAAATGCAAGGCTCAGAGTCACAGCTAATGGCAACCCTTCTGGAACAGCTACAACAACGAT GGTAACTGCAATCGCAAAGTACTCCAACATCTCCAACGCGTCATCCCCAGTCCAGCTCCAAAAGCTATCTTGTTGGAGTT TATGGCTCACAAGTCCTTGCACCAGAACTGCAAAAGTAACAATTGCAAAGAATAGGCCTATCTTCCCAATAATGGTTGCC ACTCCATTCAATTTCACCTGTAATGGGGTTTCATCATCCCCGCCTTCAGTGAGAGTAGCCATCAACTTGCCCCATTGAGT CCTCATTCCAACAGTTGTAATCAACATCTTGCATGATCCATCTTGGACCTTGGTTCCAGAGAGAAGAAATGGATTTTCCG AATTCACCACCACTGGTTCACTCTCTCCTGTTAAACTTGACTCATCAATCAACACAGAAAATCCTGAAACAAATAGTCCA TCAGCAGGGACTTGGTCACCAATGGCAAGGTGCACAATATCACCAGGAAGTAATTCATATATTGACATTTTCTGCCTATA TGCATTTCTGGTGACCTGAATGGAAATTTTCTTCTTCTCCTTGTCTAAATCCTTGAATTGTAACGATTGGCGATAATCAC TTGTTGCTGTAACAAAGACAACCAGTAAAATACTTGCAACAATGCCAAGACCATCATGAGACCCTTTGGGCCATCCTTCA GTTGCAATGCCAACTATCAGAGACACTAAAGCACACACTCCAAGTATCATCAGAGTCATGTCTTGAAGTGCTTCCCAGAC AAAAACCCAAAAACTCTTAGCTTCGATTTCAGTAAACTTATTGATTCCATATATCAGCTGTCTCCTGTTCAGTATATCAG CATCACTACTAATCCCCTCAGTGACTGATGTAGAAAGCTTTTTTGCAACGCCATTAACCCCACCATGGAATTTGAACTTC TTTACATCATGGTTTTCAACTATAGACCCCAATTCATCACCACAGATTTGAAATCCTGCAGCTTTGACATCCTCCGGCAC TTTGTATTCGCTTGGTTGTGAGCCTGTAGATATGATAAGGATTAAACATTTTGACTCTTAAAATTTTTAAGCAATGGGAA CAACGATGAAGAAACTTACCTTGGATAAATTGCAACGCTGCTTTGGAAACCAAAACTGCAACCCTCAGCTTCTCCTGCAG TAAGGAAAAAGTAAGTCTTGGAGAAATAAAACATGGAGATCTCCAAAATAAAAACTGGAGAGAATCGCAAAGAACATGAC AAAGAAAATGTAGAGTACAACAATATAAGGTGAATACAGGGTAAGCCAAGAGTACAGACTAGAACAATTGTGTTTATTAC TCATTGACAAATATAATGCATTTTATATCTTATATCCAAATTGTCCACACCCCATCATCAATAAAAAATATGAAAAATCA GAGTGGCCAATGCATGCATTTCTATAGTTCCATTCATGGTGTCCTTCTATATTGAATCTGTCAACATTAAAGTTGCTCAA TTGTCAATTAGATTAGCTCAAGATCAGTGTCAGTAACATACAAATTCTTAATGTCAAGTATATGCTTGATGCTTGTGTTG TTACAAAGTTCTGAACCTAACTTGGTGAGAATGAGATATCAGCAGCAATTGTATTCTTGAACTTAACTTATAAAAAAAAC ATGAAGTTGAAGGAATAGGGGTCAACAATTGCATTCTTTTTTTTCTCTTAACTTATCCCACAGCCAATGTCATGAGACAT ATTCCTCACCCCACAATCAGCGCACTAATCGGCAGGGGCTTGATCAATGAGTTTTTTCCATTCACAAGAGTTAGGAATCC AAACCCCAAACACTTGACATTTGACAAATTGCTGAAGCACTATGCCAACAGTTGTATTATGAAGATAATGCAAGAACATG CATTTGTATTTTGGCTAAATTTGGAATTATTAAAATTTCTGCTCTGCCTCTAAAGCCTTAACTCTTTTTATCAGTCAAAT TTTCACGAACAAGGTATGTCAACTTGAGTATGAAAACTGATTAGTCTATAGAATTCTGATAAGAAAAGAAAGAAAACTGA ATACAAGCACAAAACAGCCGAATAGTCCAATAAATATCTCCAAAACTAAATGACTCGACATATGAATATACCTAGACATG TCACTTTTTTCCCGACAAATTATATTGAGTGTGAACATTGGTTAAAAAGAATAAAAAAAATATCATTAGAAACTATAACT TGCCATATAATTCATATATTAAAAATTTTATTTTAAATTTCTTAGTGAGTGCCCTAATTAGCAAGCTTATATGTATTTTT AGTGTCGAATAATTTAGAATTAAGGTTTAGGTTAAAGACATGAGGGTATGTCCAATTTACAGTTGTTGAAAGCAAAAATA GGAAGTGAAGTAACCACTACCTGATTGGATCGACGCATAGCAGCAGCTTCGGTCCTCTTGTTGAGATTTGCAGTGAAACG AAATCGCCTTTTGGGGTTTTTCACAACCCCACAGAGCTTCCTCCATCTCTGAAGTGCTTCCTGAGAGGAGTTCTTGGATT TGACTCCTCCGAAATTCTCATTCAAATAACTCTCCATCATTCTCTCAGTAAAACGCTTTGTTTGTTGTGATATGTTATAT GTAACTGCTATGAGATGACGATCTGAGATATATATATATATATATATATATATATATATATATATATATATATATATATA TTGTAGCAGCCTTGTGGAAAAGGTAAAGACTCCAAGTTTGAATGGATTTCGTGGAAAGAGATGGAAGGAAGGTCCCAATG AAGAAGGTGGGTGGACCTGGACCTGGACCTGGACCTGGTAAAACACCAACAAGCAGACAGAGAGATTTTAAATTAAAATT AAAATGCCTTTCTATTTTTGGTTCGTGCAAGGGGCTATATTATATAAACGAATTTCTTTTGAAATACTATAAACGAATTA AAGTAAATAAGATTTGAATCAAGGAAAAAAATATTAAAGTGAATAAGATGGCATGGCTTTATGATTTAAACCAAGAATTA TTGTTGGGAACCACGCGCTCTTCCTTCTTAATGCTTTTTGGTTTTGTTTGAATTGAAGACTTGAAGTATGCACTATGCAG TGCGCGTTTCCTTTTTTGTGAATGTTTTGGTACTATTCATTGTGTTTGTG
CDS sequence (LotjaGi2g1v0409100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTGAACTTGAGTGTCCCAGAAAACCAAGTCGCTGGGCATAAAGCGAAGGAGGGTGTGAATGGGCCTCTGGTAGATGA TTCTGGAAAGTTCTACAAGCCTCTTCAGAGTGATGAGCGTGGTTCTAACGAGGTCACCTTCTACACTTCCTTCTCCTCCG ATCCCAGAATTCCCCACAACATTCGCTCCTTCTTCCCCATCTTCCACGGCACCTCCGTCGTTAACGCCGCCGACCACCTC GTCTTGGAAGACCTCCTCTCCGCTTACTCCAACCCCTCCGTCACCGACATCAAGATCGGTTCCAGAACTTGGTACCCAGA AGCTTCTGATGATTACATCAACAAGTGCCTTCAGAAGGACAGAGAATCCTCCTCCATCTCTCTGGGTTTCAGAATTTCAG GATTGAAGTCTGTGGGAGCTTCCAATTCATGCTGGCAGCCACACAAGAAGTTCCTGCAGAGCCTCTCTGCTGAGGATGTC AAATTGGTTATGAGGAAATTTGTTTCTTCCGACGGGAATGCCGACAACCCAGATTGTGTTTTTGCGTCTGAGGTTTTTGT CCCTGTTTTGAAGCAGCTTTTGGAGCTTAAGAAATGGTTTGAGGTTCAAACCATCTTTCATTTCTATTCTTGTTCTGTTC TTGTGTTGTATGAGAAGGAAGGGAAGAAGAGAGCGGGTGCTGTGGTTAAACTTGTTGATTTTGCTCATGTGGTGGATGCA AAGGGTGCCATTGATCATAACTTCTTGGGTGGGCTTTGTTCTTTGATTAAGTTTGTTTCAGATGTCCTTGCTGGGGTAGA TGGTAAAGTTGAACTCTGA
Protein sequence (LotjaGi2g1v0409100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLNLSVPENQVAGHKAKEGVNGPLVDDSGKFYKPLQSDERGSNEVTFYTSFSSDPRIPHNIRSFFPIFHGTSVVNAADHL VLEDLLSAYSNPSVTDIKIGSRTWYPEASDDYINKCLQKDRESSSISLGFRISGLKSVGASNSCWQPHKKFLQSLSAEDV KLVMRKFVSSDGNADNPDCVFASEVFVPVLKQLLELKKWFEVQTIFHFYSCSVLVLYEKEGKKRAGAVVKLVDFAHVVDA KGAIDHNFLGGLCSLIKFVSDVLAGVDGKVEL
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 | 4 | 264 | 261 | 1.8E-105 | – | |
| PANTHER | 4 | 264 | 261 | 1.8E-105 | ||
| SUPERFAMILY | 7 | 263 | 257 | 5.23E-52 | – | |
| Gene3D | 42 | 271 | 230 | 7.0E-69 | ||
| Pfam | 79 | 259 | 181 | 2.0E-44 |
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 | Kinase activity | Catalysis of the transfer of a phosphate group, usually from ATP, to a substrate molecule. | ||
| Biological process | Inositol phosphate biosynthetic process | The chemical reactions and pathways resulting in the formation of an inositol phosphate, 1,2,3,4,5,6-cyclohexanehexol, with one or more phosphate groups attached. |
Expression pattern of LotjaGi2g1v0409100.1, 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…