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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0488400 |
| Transcript ID | LotjaGi1g1v0488400.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Sister chromatid cohesion 1 protein; TAIR: AT5G16270.1 sister chromatid cohesion 1 protein 4; Swiss-Prot: sp|Q8W1Y0|SSC14_ARATH Sister chromatid cohesion 1 protein 4; TrEMBL-Plants: tr|A0A0B2S710|A0A0B2S710_GLYSO Sister chromatid cohesion 1 protein 3; Found in the gene: LotjaGi1g1v0488400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:100125429..100139687) extracted from Lotus japonicus Gifu genome v1.2.
ATATTTATTCGTTTACCATAATATCCCTATTATTATTTCGTTCATAAAAAAAAATAAAATCGATTCCAAATCTGGGTCAC CCTCCTCAAATTCACTCTTCAATTTTCATTTCAATTTCAATTTTCAAACTACGAGCCTCTTTCTCCCTCTGAAAATTTCC CCAATTTCAACGTTTTCTTCCCTAATCCACAGTGTTGATTACAACTACTACCATCTAGGGTTTTCTACTTTTCTACTCCC GCTTCTGAATTACCCTCCTTCGCGCTTTTGCTACTCTTCTGTTTTCACTCGATCTTCGATTTCCACTGTTCTGGTAAGCT TGCTTCTCCGGTGAGGGTTCCTTTGATCACGCTGGTTGAGGTTCTCGGTGCAATTTCCATTGGAGTTGCGCTTGCTGTTG GAGAAATTGGGATTAGGGTTTCTGAAAGGGGATTCAAAGTTCCGGTTTTTATTTTTTGGGGGTGTTCTGTTTGGGTATGA GGATTGAAATTTAGGGATAGAAAGTTTGTGACTTGAAAGAGATATGTTTTACTCTCAGTTTATTTTGGCCAAGAAAGGGC CACTTGGGACCATTTGGATTGCTGCTCATTTGGAGAGAAAGCTCCGCAAGAATCAGGTGGCTGATACTGACATTGGTGTC TCTGTTGGTAAGTTTGTGTTTCTATCTTGATTATGGAATTGATCTGTTATTGTTGCTACCTGATTCACTGAAATTGTGAG TCAAATTTACACTCTTGTGGTTTAGTCTAGTGATAGTTTGTTACTACTTACACTTGCATAAAGAAAGGTGTGAAACTTTG AGCATTCTGGAATGTAAAAATTAAGTCTTGGCTGTTTTTATGCAATTATTGAAAGTGCTGCTACTAGGGTTGCAACAATG TCGAGCTTTGTAGGGTTGCTTTGTCAGACAAACTAGCTCAACGAACCAACATGCCCTACTAGTTAAGCTAGTAGTTATGC GTAGGGTAACAATAAGTTTAGTGGAACTTGAGAATGGTAGACAGGGGATGGTGGTTTAGAGAGTGCGATCTGTGTAGTTA TTTGGTCTGAGTGGCTGCGACGTAATACTCTAGTTTTTCTGAAGACTACCAGTAAGGAATATAGGCAAAGATCGCACTGT TTGGTGTATCCTGTGGTGCTTTGCTAATGGCTACATTTTTGGGGGCATCCAAGTTCATTTGTAGGTAAACTAGAGGGCTC TCCTGTTTGATGTATTTGTTTCTCTGTTGAGTTGTTTATGCTTAAGAGGATGCCTTATCTTCTTTTGAGGGGACGTAGTA CTCTAGTATATGGTACTTATATCCAGTGTTGTCAATCCCGGATAGCGGTGCGTAGCGAACGACCCCAAAAAGTTCTATAG TGGTACAGCGTATAGCAGAATGGCTGCTACACTATTTTTGTAATATTTTTATATAATTTTTACCATACACATATAAATGC TTTAAAATGATAAAAGGTGTTCAAAATTCATGATATTCATAAAAGAGATAGAGGTTGCTGTGATAGCTCAAAAATAAAGG ACTGCAGCAGAAACTAACAGAGGCTGTCGTGATAAATAAAATAGATAGAGACTGCTGGATTAAAGAGATACATTATAGAG AGATAAAGACTAAAAGAGAACACAAATAGAAACAAGACTGGTAAAAAAACTAAAAGAATAATAATAGAGCAGCCAACAGG GATAAAACAGAGAAGAAGAGCAAGCTCAGGGATGCTGGAACAAAGCGAGGTTTTTGGGGATGCTGAAGTGTTGCCGGAGG AAGAACAGAGATGGCGGGATGGGCAGATATCAAAGTATCCGTGAGGGAGAGGCACGATTAGGGGTGATCCTAATCTTTCC AAAGCGTAAATCCGTGTCTACCCTTAAAATGTTGCCTCAGCCATACGATTTTAAGGGTAAAAGGGGTTTTTCGGTGAAGA AACAAAATAGCGCCACGAATGTGGCACCATTCCTGATATTTAGGCCGCAATTGCGTTCGCGATGGTGTCTACAGCAAACT GCTCCGCTACTTGACATCCTGTGGCGGACGGTCGCTGCTCCGTTTCGCTCCACCACCATAGCACCGCTATTAACAACGCT GCGTTTATCATGTATTTCCTGGAGGTTCTAAAGTTGGGGCATAATGCTACTATCTTTGTGTCTCTAGTGGCACCGCTATT ATCAACGCTATTTCCATTTGTCTATAGAATTAAAACTTCTCAATATTGAAAATTTTAAAAGGCTTATCAATAAATTATGC CTTATGGGACTATATGTATTGGAAAGCACTATAAAATGCATATTAGTAGATGACTGGCGTGAACACTTTTTGAGAATTCC TAAGGGATACATGATTTAATAACAGAGTAGCGTGAACAACGTGGAACAATAAGTGAGCAACTGTTTCTGGGTTCTGACTA GATCCACCCATGGCAGCCATGGCACGAGAGCCTTTTGTGGTCTCCTCATTTTTGGCATATAGTCAATCTAATGATCCTTC TTCTTCCTTGTATTTTTCTTCTCTTCATCTTAAGGAAATTATATTTGTAGCAAAGAATGAAAGGTGCATTGAGCTTTTTA AGATCTGTCGTCCAAAATTAGAGACTTAACCTTGATTGGGAACTTTGGATAATTGCTATCTAGATATATTTCATTTCATT TAATTTAAAATGTTTTAATATTTGTAGTTTAATTGTAAAAGGCGAGTGAAGGATTAGTTATGTGGCTGTGCATGGTGAAT GATTAAGGATTTGCTGATGCTGACATGAAAGTTGTGGTTGCTTAAATTTTTGCAATGATGCATTTGGTGGAAATTGATAC TCATGTATAGGGATGTTGATATTCCTCAGTACATTTTATGTGGGTGTGCTGCATTTATTGCTGTCTAATTTTGACCATAT ATTATTTTCTCAGATTATTCATGTAGTCAATTTTGTGAATGAGCAGATTCCATTCTTTTTCCTGATGTACCAATCGCACT CCGATTATCCAGTCATCTTCTGCTTGGTGTGGTAAGGATATACTCTAGAAAGGTGAATTACCTTTTCGATGACTGCAGTG AAGCCTTGCTTAAGGTAAAGCAAGCTTTCCGCTCCACTGCTGTTGATTTGCCACCAGAAGAGTCCACTGCACCGTACCAT TCCATCACCTTACCTGAGACTTTTGATCTTGATGATTTTGAACTGCCAGATAATGACATTTCTCAAGGGTTAGTTACAAA GTACTTGATTATATGACTCTGGCTGTAATATTATTTATGTTATTGATGCTATTATTTATCTAATATATGTGTTAACTTGT ATTTATGGTGATTTCATATGATCTCATGTGTCAACCTTTTCCTTGTTATTTTCAGATGATTGATATAAGGAATTTCATAG TAATGCCATAGTTTTGTTATGTATTGCAGATTTTTTGATTTTTTTCCCATTTGTTCATAATTAGTCTATATTCCTAGTGC TGATTTTTGTATGATGGTTTGTCTGGAAGATTTATTGGTTTATTAACAGAAGAGTATGTGTTGTGAACTTGCAGTAACTA TGTTGATCACCATGTCAGTTCCAGAGAACAGATTACACTGCAAGACAACATGGAGGGTGTGGTTTACACGGCTTCGCAGT TTGGATTGGATGGTTACTATTCCCCTTTACCTTTTTCTCTCTGTACTTGTCACTTGATAGTGAATTTTAAATATACAATA GCAAGATCTGTGCTAATTACTGATTAATGGTTTTTTTTATAGGCAAATATTAGTTGTTAATGTTACTAAAATAGTCCCTT CACCCTTCACCCTTCATTCCCCCCTACTCTTATGTCCCCTAGCTCTTACCACTTGAACTAACCCTCTGGGACATTACTGA TTAATGGTAAAAACGTTCTTGCAGAACGCTTTGGAGATGGCGATGCTTCTCAAATTGGTTTTGACCTTGATGAGGTAATT TGTCTTTTTTCTTTCTTTCCCTGGCACTTTATGCCCGGAGCATGTTGCTGGAACGTGACTGTGATTTTAAGGCTGCATAA TAATTTTGATGTTACAGTTTTAATGTCTGATTATGTCTAGCAGCATGGCTGTGTCAAACTAGAATGATGTATGCATCTGA CATGTGCAAGCTGTTGTAGGTCTGATATAAATCCGATGCTTTTGATTTGCTTATAATGTCCTTTACGTTTCATTTACATC CTTAATTATGTTGGTCATTGATAAAAGTTGTTGTAAATATATTTTTTATCCCAAAAAAATGTTATAAAATGCATTTCTTT CCCCCCTATTATATTTGATTCTGCTCATTTTCATCATTCTGCATTTTGCATATACCTATCCTTGATAGATTCTATGCTTT GCTGTTGTCTGCCATCTTTTTAATGAGTATAGGTGTGAAACATCAATTATTATTTAGAGTGCTGTTATGTGATTGTATCT GATTTGAATTTGTGTAGTTGTGATATGAAATACCTTATGTGTAATGGTTAATATCAATGGAGAATAATAGATTATGTAGA TTCATTTTTCTGATTTTAATTTTAGAGATTTTTAATGTGATTTGATAAAACAGGTTTTGTTAGGAGACAAAGCTGCTGCT ATGGACCATGATGGCTTAAGTGCTAATCCTGACGCGTCTCACAAAAATGATGATAACAATGAGGAGTTGAGAGGAACTTC AGATAGAATGCAAGTGGAAGATAGTGGAAGCAAGAATGATTTGGTATTTTAAAATATCTACATGCCTTTTAGCCTATAAA TGTTTGCCTTTTTTCCCCTTTGTTCATTCTTCTCTCTTTTCTCTCTTGGAGAGGGGATAAAATGAATGCTGTTTGTTGAC TACAGATTTTAGTTTCAGCTAGTTATAATCATTGAATTGATCCATTTGAATAGATTGATGGTCAACCCTCTCTTGCTGAA GTAAGTGAATATGCTCAAGGCCCGTCTACCCCTGGACTACAAGAGCCAAACTTGTTTGGCACTCAGGTGGATCAGGTCAA TGATGAAGCTGATTGTAACAATTCAGCAGATTTAGTGACAATGAAGATAGAACAAAAAGAATCCTCTGCTCATCAAATGG AGAATGATGTAGTTGATTGCTCCACGCAAAATAATGGGGAGCATGTCGGTGTAGATTTACATCATGGGGATAGTGACTGC ATAATGGTTGAAGTGGATAGCAAAAGAGAGGACAAGGAGCATATGGCAAGTAAAGTTGTGACGAAAGATCAAGAAAATTT TATACCAGATGATCATTGCTCAACATTGGCACCCTTGTTGGACTCCTCCAATAAAGATCCCCCAACCACCATCTCACCAG AATCTGCAGGTGGGATGATTGATTCTTCTAATATGCCTGAGAAGGTGGAAGACTTACATGACAGAGTTTTGATGAATGAT GAACCAACTGTGGTTCCTTCGGAACATCATGTTAATGTAGTTCCTGAAGGTGTTAGTGTAAATGAAGCTGTTGCATCTTC TAGTTATTCTCATGCTACATCTGATCAAGAGAACCTCTCTTTTCAAATGTTGGCTAACGTGGATGGATCTATGGGGCTAG AATCAGGTTGTCATTTGGAGGATGATAACACTTTATCAAAGCACGAAGTTCTGAATGACACTGAAATTTCTAAGGGTGAG GGGCAACCCGATCCGATTGAAGAGGCTCAAGTATCCAATATCATAAGTCCTCTTGGATCACCTGGTAGACCTGAAGTTGT TGATTTGGAAGCACAGGCCTCTCAGGAACCGAAGGAAATAGAGACTTCAAACCATGTATCTCTTGAAGCTCAGGAGCCCA CTGAGTCATACCTCCGCCCATGTACCTACCATCAGAGTCAGCCTTCTCTGTCTCCTATCGAAGGTATTAACATTACACTT CATTCCATATAGTTTAGAATTAATCCTATTATTCATTTTTCTTTGTTTTTTCCTCTTTTCAACCCTAGAGTGAAATGAGC ACATTACAGAAATTGTTATTATAATACAATTTTACATTTCTTCATTGCATGTTTCCTATTGAGTTTTATTGACATCCATG TCATCATGCTATAATACTATTTTTTCCGTATGGACCGCATTTGGATTTTCTCTTGGTTTTCTGCATGGGTAATAGAGATA ATAAAGTGGTGACTCAAAGAAGTCCCACATTGCCTATATTAGCAAGTGCACAAGTGCATATATAATAAAGAACACACACA CCACAAAACCTTAGGCTTAAGGCAATGGGTGTGTGTGTTCTTTATTATATATGCACTTGTGCACTTGCTAATATAGGCAA TGTGGGACTTCTTTGAGTCACCACTTTATTATCTCTATTAATGGGACAATTAACCGTGGTAATAGTGCCCTTTTTCTTAA TACTGTTTGGTTGATTTTGTTCTCTTATCTAGTTTTTTTTTTTTTTTATTTGCATAAACTGCTTTATGGACATGTTTAAA CTTGTGGCATTTCATTATTTTTTTTGTAATCAGTTGCTTTTACTTTTTACAGGTGAAAAGCGTCATGAAACTGATGTTTC AGCTCCTGCTTTAGGTAGTCATGAGACTTTAGAGCCATCTGTACATAAAGAAAAGCCAGATCTGGGGGAATCAGGAAAAT CTGCTGCCTCTGACATGCCAGAGCCTGAAAAAATGCTCTCCTTGGCTTATCAACATGATGGAGAAGCAAATAATTTGGTG CTGGAGTCTACCCCTGTAAATCAGAGTATATCTGAAGGCCATACAGATGCTGCAGGGGTAACATGTATTTCTGGAAAAAA ACGCAGCTTCACAGAAAGTACTCTTACAATGCAGAGTGTAGATTTGGTTGAATCATATGGTGGGGCTCAGTCCAAGAGGA CTGCAGAGTCCATTCCTGATGACGATGATCTGTTGTCTTCCATATTAGGTATAACAGTGGTCCCCAGTACATTTTGCTTT ATAATTTTAATTACACTTATGTATTTTCCTTTAGAACAATGTGTGGCTGAAAAGAATTTTTTTGCTGCACCAGCTGGTAA AAGATCCTCAGTTTTGAAAATTAAACCCAGTCCAGCAGCCCCTGAAATAGCATCAACAAAGCGCTTTCGTTCTGGATCAC GCTCTAGTGCCATAAAGAGGAAGGTTCTTATGGATGATGTCATGGTCTTGCATGGCGAGTATGTTTTATAATGCTCCATT CATTTTTACACATTTATCCACTTTATTTTATGTTGATTAGACTAAGACCTAACAACATGATTTTGTTTGTCCACTGATTT CTAGCCCCTGACAGATCTATCCTTTTTCCCTGTTTATCCTAATAATAGAACAAAAGTCGTCTTTTCTTCACTTTCTTTTT TTCCCTGCTTATTTTCTCTACACATCCAAATAAAGCATTAATTCTGATACATATAGCATGCTACAAATCATGAAGACTAA TATTAGGTGGTTACCCAGTTAAACTGTAAGATACCAGACCTATTTATTTAGAGGTCTACTTGTTTCATTTGGTGTAAATT CTTACGCTTTATAATGATCCTAGATTCATTGCTCCTAGCTTGTCCCTTGGGTAGGGATAGGGTAACTTTGATATTGTCTA GATTTACTGAAGGATAAGTTGAGAGGACTGATCTCCTGCATGATTTGTCTGGTGATAGATGTGAATTGTAATATGCCCAA ACAATACTAATAATTTATCAGCATGCTTTTGGTTTTTTTTTGTATATCACATATGGCATTCCTTTTCTCATGCTCCAAAA TACTAATAATTTTTCCTTCCATCTTCTGAAGTACAATACGCCAACAGTTGACCAGTACTGAAGACATACGTCGCGTACGA AAAAAAGCTCCTTGCACCAGGCATGAGATTTTAATGATTCAAAGACAGTTTTTGGAGGATGAAATCTTTCATGAACCAAT ATTAACAGGTGAGTTGTGTGCTTGGCTTTTAATATGAGTTTAGCAAGTAAAAACCACTTAAAAAACTCTCATTGCTTACT GTGGTTTTTCCCATTCTTCATGTATAGTAAAAGCTGCGTCTATGTTTGATGACTTTGTTCAGCTTGTTTGCATTCTACTC CCTCCGTTCCTAAATATAAGACCTAATACAAAAAATTGCGCTTATTAAGAAAACATTAAATGTGTTAAATTAGTGTATTG GTTTTTTAAAAATGCATACATTCCTCCATATTTACCCTTTGTCATTTTCTCTCACTAATTAATGGTAAGTGATAATCAAA ACTTGGGAATTGAAAACATATAATTAATGTGGAGGGTAAAAATGGAAGAGTACAAAACCTTTTGTTAGATTATTGTAACT AGGTCTTATATTTAGGAACTTCAAAATTTTGAAACTAGGTCTTATATTTAGGAACGGAGGGAGTACTTTCAATTTTTTAG TGTACATGTTTTTTCAATTTCACTAGAAACAAAAAAGAATTATGAAAACATGTTTGTTTGGGTTTTCATGAAACAATTTG TATTTGGGTTTATTTGTAAAATTTCCCTCTAATATAACCAAGTCAATTCTCGCATCTCTTTCAGATTTGTCTTCTGATTT GACTGTTCTGCGAAGTGACACATTTGATCTGACTAGAATCAAGGTTAGTGATTCTGGTTTAGATAGTTCTTCCTTAGAAA AAACAAATGATCAAGAGTCCTATTCTAGAACAAATACTGAGAGTCATGGTGTAGAACTGGAAGGGAATGATGAGCCTATG GCAGTCCAACACCAAGAAAATACAGCAGCCCAACCTACTGAGATACCTATTCTATCTGAGAGCCATCAGTCCGAAGTTAA CACAGTGTATCATGATATTAATGCTCTTGAACATCCTAATACTATTTCTGGCCTTGATAGTTCTCAAAATGCTGAAATGA ACAATGCTGGACGAAATGTTGAGGTTTCTGAAGCAGAGAATTGCTCTGTTGCCCCTGGGATTGAACCTTCTGCCCTAACA GAACTATTTGAAAATGACCTTTGTGTGCCTAATGATTTTGTTGCAACGCTGCCCCTCATAGATGAAACAAATGATCGTGG TGATTCTATTCATACAACTCCATTGAGTGAGCCTACTGCCCAGAATATGAATGCATTTCCTTTTCCAGAGGATGAGTTTG TGGAGGATTACTGGGATAGAAGTGAAGTAGGTGCTGTTAAAATTGCAGAGCCAAACATGGAAATTAGAACACAAGTTCTA ACGGATGGTGTGGAAGCTGATGATTTATGTCCATCCTCGGCTCCTGGCTCTGTTGAAATTGCAGGTCAAGCCATGGAAAT TAGAACACAAGTTCTTACTGATGGTGTGGAAGCTAATGATTTATGTCCATCCCCGGCCCCTGGTTCTAAGGAAACTGATG AACATGCTGATAATCAGGCTTTATTTAATGGAGACATACTCATGGAGGAAAGTGGAAAATGCATGGTAGGAGGTGTAAAT GAGGATCAAATTGTTTCTTCTGGCTTGGGATGTGATGACAAGGGTGCGAAGTCTGACTATATATTTAGTGAAACTACTAA AGTAGACTGTTTACATTCTGTAGCACTTGATTTGGATGAAAATAGGAGTTCTCTGAATGATGAAGAAGACCCGGTCTGTC AAGAAGTTGCACTACAAAGTACAATGTGTCCTGAAGCCTCAGCTGTTCAAAGTCCTTTTGTGGACCAGAAAGATGTAAGT TCTCCAATTCGTTGTAAAAAGTTAGATTTTCTCCTTTAACTTCTTTTATTTGCTGCTTTTGTATCTTATTTGCATAACAT GTCTGATATATCAACAAAAAATCCAGAGTTTTAGCAGAAATTTGTTTTTATTCAAGATTTCATTTTTATTTCTTAATGAA ACTCTTAACTCTAGAGATGGGATGATTTTAAATTTGGTAATTTAAGTTTGAATTTTAAGCAGGAGCTGGTATTGAAAATG AAGGTCTTCATATATCAGTTTTTGCGTCTTCTCACAACAATGGTTACAGATTACAGTTGTATAAAGCTAATATATATGAT GAGGCCAGTGTAGTGGTTGTCAATCTTTCAGTGTCTTGTCACTCTGTTATACTCCAACACTGTTGCATGTAATTTAATGG CTATCTTTCTCCTCCAAGCTGTATGTAGTGTTTCTTAACTGATTCATCGATGCCTAATTGAGTTTTATGACTTCATGGTG CAGGACGATGACATGGTTGCTAATGACACAGGTTTGCTTTCATTTTATACAAAATTACTAATGCTTAATGTTTCAACATA TTTACAACCATATGAAATGGATCAATAGGTAGTTTCTGGTTTAATACCGTGTTCGAATACTAGTTTAGCACATGTTGACA GATTATTCAATTTATCGTTTCTACTGTAACTATAGTTAATAGATGTTAATTGGCTGTGTAGGTGTGATTTAAATACTATA GATGAGTTCCTCTACTGAATGTGACTCATTATGAGTGGGGTGGACTGTGTGTAAACAACACAATTTATCTCACTTTTTAA TGCGGCATCAGAGCTGTATCATCCTCCGTGACCAAATCCTTTCTCTATTCCACTGTCAAGTTTAAAATTATGGAACTCCT CCGTTTGGTGTGGTGTCATGTTTTCTCCAGCTTCGATTCCTACATTTGTCTCATGTTTTAAACCTGCTTGCCCTTCTTTG CCATGGTTTCTGTTTCTGTTCTTGCCTTTTCTGGTGTTAGATTGTTGATCTGATCTCACCACTCCGACCAGAAGATGATA ATCTGGATTTTGATGTCCATCTGTCACTGAACATGTTACCTCTCTCTGGGAGCCTTCTTATCAGGAGACAGCATCTCTAT CCACCTTATCTGGCATTTTCCCCTGAGACCAGGTTGAGTCACCTCCACCAGTCCTGTTTAACCCTGTTTGCTCCTTTTCC TGACCAATTTCATCCCTAAACTTGATTCACTGCTTTCTTAACTGTTTCACAGTTTCCTTGTCAATTTTGAGAACATGGAT AACACCATCATGGCTAGAAAGAATCTGAATCAAGAACAGCTACATACCAGAAACTGCCACGTCCTTGTTAAGAAAATTAT CCATCACTTCCAAATTAGAAGACAAATATATAAGATTTCCGTTTCCATAAGCCCATAGCATTACATTTTAGATATCAAAC TTGACGACCCAAAACAATGCAAGCTATAACAGGCAATATATTAGTGAACAGTGGAATATTGCGATAGTAAGTGGTTTCCC AGGAAAATGGAAGCAAATAAGGGAAAGTGAAAGAAAATATTAAAAGAGAAATCAGAGTTCTATGTAATCTCTTTGATCTG TTAACTCATTCTGTCTATCTCTGGTCAGGTTTTTTGAATGTTGGTGATGATGAGATAATTGAAGATGACGAAGAAGATGA TTTTATGCCAGCCGCTGAAGGAACTCACCTTGAAAATAGTGGATGGTCTTCCCGGACCAGGTATGTTTATGCCATAAGCT CTCGTAGTTCAGCTTTCTCTGCTCTATATTGAAAGTAACTCCACTTATTTTATCTGGTGTGTTTGTTGGGTTGCTATCCA TTACATGCTTATCTATGTAGATTGTTATTTATGTGTGCTATATCTTAAGTTTTCTTTAGGATGTTCGTATATTGGATGGT CCAATACATTTTAAAAAGCATCTAATCCAGCCTCTTCAGTTTTGTTACGTTATCATATGATCCAATACATTTTAAATTTA AGGTCCAATCTAATTCAATCTAAAGTGATTTGGATTAGAATGGTTTCCTATTTATTCTTATTTTTACTTTTCTCTTTAAG GAGGCACCAAATATATCATAAAATATATCGTACATATATATTATAAAAAAATTCCAACTTCCAAGTATCACACACACAAG TTAAAACAAATAATATTAGTTTAACTATTCAAATTCAATACTTTAAAAAAGAATTTTATAGTCCTGTAATTTTATCTATC TTTCAACTTATGTAAGTGCTGAAAATATGTTTTCATAGATAAGCATTGTGTGATAGCTTTATATAGGAAATTAAATATAT AAGTGGGTGGTATGATAAATTATAAATAGAAGTGTTTTAGTTTGGATTGGATTAGATTGGTGTGTTCAGTTTTTTATTGG ACCAGATTGACTGATAGACACCACTATAGTTTTCTCTGATACAGCAGTTTAAAATAGTTTGTTTTCTTCTAAACTTCCCC CCAGCCATTGGCTCAGCTTGTACTATATTCTGGAAATTAGGGAGGGGTTTTATTAGGACTGTGCAGTGTGTAGTAAGTTC AAATAATTTCAGCCCAGCAATTGAGGTTGTGTGCAGATGGTTCAGATAGAGACTTGACAAATAATCTTTAACTTGATCTA ATTTATCCAAATTGTTTGGGATCTTGTAACTGATTTTTCTTTTTGTGATTAACTAATTAATGCATTATTCACAGGGCTGT TGCCAAGTATCTGCAGACCTCGTTTGATAAGGAAGATCGACAGGGTAGGAAGAACCTGAAACTTGACAATATATTGGCTG GTAAAACAAGGAAGGAAGCATCAAGGATGTTTTTTGAAACACTGGTATGGTAGAGTATTATTTTAGCTGACACATATACT GTCTGATGAATTTTAGCATTACTTTTACATTTGACATATCACCTTCATGTTCAGGGGAGTAACAATTGAAATAGTTTGCA CTATTTTTTAGTCCCCTTAGTCTGGACTATGTGCGATTTGGGTCCCTAGTTTTTTATTTTTTGCTCATTAAGTCTCTCTT CTCTTGTTTTAAAGTCAAGCAAATTTGGTTCTCAATTTCATATGCCTTAAGACCTTAAATTTTCATTGTTCATTGAATTG TTTTGGGGTTCATGATGGATTGGAGATATGAAATAATTTTGAAAGTTTAAGTCAACAATTTTGTGAGAATTTGACAATTG GAGGGATTTTATTTTACAATGTAGATCAGAGTTTAAAGAGGGAGAATTTGGGATTTTCTTTTTTTAATTTCATTTTAGGT GAAATTTCATAGTTTGGTTGGTGAGTTTGTAGCAGTTTAAAATGTCTTTATTGATTCATTTGTGAAAATTTTGTTGAGCA AATGAAATATGGGAGTTTTAATAGAAAAAAAAGTGAGAAAGGCACATAGCTTCTGTGATTGGTATTTTTTAGTAAACTCT ACTTGGGTGTGTTACTTAATGTACTTTGCTTGAATTCTTCATTGTGTTCGATCTTTCTAGGGTGCCTACTTGGCAACTTA TGCATTGGTTCAAATTTAATTTCGATCATGATGGCAGGTTCTCAAGACAAGGGATTATGTTCATGTAGAACAGGCAGAGC CATATGACAATATTGACTTAAAACCTAGACCGAAGCTTATGAAGGCAGATTTCTGAAACCTTATTAGGAATGGGAGATAT TGCTGTGTAAAGATCCTTGCAGGGGTTCAAATCGGTAGGTTGGGATAATCTTTCTTGCATCACTCCCCCTATTTTAGTCA TGGCTGTTGACTTATAATTTTTTGGAGGGGTACCGAGGTAGGATTTAGCTTCTTAGTCTTTCTTGAATGGCTTGGGTGGG TGGTTGAAATGGCCCATATCAACATCCTATTGATTATTCTGGTCTTTATGTATATATTTTTGTAATATATCTCCATTTCT AACTTACAGTTTTACACCCCCTCCCAGCACAATGATGTTCTGTTTTATCTAGCGCCGTGTAATTTACAGCTGTCGGTGGA CAAGTATCATTTCTGTACCTATTTTATTTGTATAGTAGTATCTAACTGTGTTTAGTTTACCGTTTAAAATCATGCGTATG GAAGTTCTTTGTTCTAATGCTGGAAAAGATGAGTATGTTTGGGGATGCAAAGGGTTGATGCGCCCATCAAAATTGACATG CCTCCGAAGGAGCTTTAATAGTAATCATAATGCATCTGCTATGATTGTTCTTCTACTGTTCTACAAATAACCTCAAACTC AGAACAAAAGACCTCAACTGAGTTTGTCATGCATTTGCTATGTTTGGATACACTTTCAACCCACATTAGCACACACTCCA ATTAAAAGAAAACACATTTTTTAAAAGGTACAAAAGAATTAGATTGAATGAAATGACTTTCACATTCAACTCTACTCTGT GAATCAAGAAATTAATTATAGTAATATCATAAGAAATTGAGATTGATTAGATTTTAAATTAATAGGAGATTTTTATATTG ATAAAAATAATATTCAAATGATAAGTGATAGATTTTCATTTTATCAACTTGTTATTGAATTTTTATTTTAATTAAAAAAA TTTAAAAATAAAAAATAATTTTTAGAAAATAAAAATATGTGCCTATTCAAATTGACTTCTGTCACACTTTGTTCCTTGAG CGTGGTTAGAGGTTCGAAT
CDS sequence (LotjaGi1g1v0488400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTTTACTCTCAGTTTATTTTGGCCAAGAAAGGGCCACTTGGGACCATTTGGATTGCTGCTCATTTGGAGAGAAAGCT CCGCAAGAATCAGGTGGCTGATACTGACATTGGTGTCTCTGTTGATTCCATTCTTTTTCCTGATGTACCAATCGCACTCC GATTATCCAGTCATCTTCTGCTTGGTGTGGTAAGGATATACTCTAGAAAGGTGAATTACCTTTTCGATGACTGCAGTGAA GCCTTGCTTAAGGTAAAGCAAGCTTTCCGCTCCACTGCTGTTGATTTGCCACCAGAAGAGTCCACTGCACCGTACCATTC CATCACCTTACCTGAGACTTTTGATCTTGATGATTTTGAACTGCCAGATAATGACATTTCTCAAGGTAACTATGTTGATC ACCATGTCAGTTCCAGAGAACAGATTACACTGCAAGACAACATGGAGGGTGTGGTTTACACGGCTTCGCAGTTTGGATTG GATGAACGCTTTGGAGATGGCGATGCTTCTCAAATTGGTTTTGACCTTGATGAGGTTTTGTTAGGAGACAAAGCTGCTGC TATGGACCATGATGGCTTAAGTGCTAATCCTGACGCGTCTCACAAAAATGATGATAACAATGAGGAGTTGAGAGGAACTT CAGATAGAATGCAAGTGGAAGATAGTGGAAGCAAGAATGATTTGATTGATGGTCAACCCTCTCTTGCTGAAGTAAGTGAA TATGCTCAAGGCCCGTCTACCCCTGGACTACAAGAGCCAAACTTGTTTGGCACTCAGGTGGATCAGGTCAATGATGAAGC TGATTGTAACAATTCAGCAGATTTAGTGACAATGAAGATAGAACAAAAAGAATCCTCTGCTCATCAAATGGAGAATGATG TAGTTGATTGCTCCACGCAAAATAATGGGGAGCATGTCGGTGTAGATTTACATCATGGGGATAGTGACTGCATAATGGTT GAAGTGGATAGCAAAAGAGAGGACAAGGAGCATATGGCAAGTAAAGTTGTGACGAAAGATCAAGAAAATTTTATACCAGA TGATCATTGCTCAACATTGGCACCCTTGTTGGACTCCTCCAATAAAGATCCCCCAACCACCATCTCACCAGAATCTGCAG GTGGGATGATTGATTCTTCTAATATGCCTGAGAAGGTGGAAGACTTACATGACAGAGTTTTGATGAATGATGAACCAACT GTGGTTCCTTCGGAACATCATGTTAATGTAGTTCCTGAAGGTGTTAGTGTAAATGAAGCTGTTGCATCTTCTAGTTATTC TCATGCTACATCTGATCAAGAGAACCTCTCTTTTCAAATGTTGGCTAACGTGGATGGATCTATGGGGCTAGAATCAGGTT GTCATTTGGAGGATGATAACACTTTATCAAAGCACGAAGTTCTGAATGACACTGAAATTTCTAAGGGTGAGGGGCAACCC GATCCGATTGAAGAGGCTCAAGTATCCAATATCATAAGTCCTCTTGGATCACCTGGTAGACCTGAAGTTGTTGATTTGGA AGCACAGGCCTCTCAGGAACCGAAGGAAATAGAGACTTCAAACCATGTATCTCTTGAAGCTCAGGAGCCCACTGAGTCAT ACCTCCGCCCATGTACCTACCATCAGAGTCAGCCTTCTCTGTCTCCTATCGAAGGTGAAAAGCGTCATGAAACTGATGTT TCAGCTCCTGCTTTAGGTAGTCATGAGACTTTAGAGCCATCTGTACATAAAGAAAAGCCAGATCTGGGGGAATCAGGAAA ATCTGCTGCCTCTGACATGCCAGAGCCTGAAAAAATGCTCTCCTTGGCTTATCAACATGATGGAGAAGCAAATAATTTGG TGCTGGAGTCTACCCCTGTAAATCAGAGTATATCTGAAGGCCATACAGATGCTGCAGGGGTAACATGTATTTCTGGAAAA AAACGCAGCTTCACAGAAAGTACTCTTACAATGCAGAGTGTAGATTTGGTTGAATCATATGGTGGGGCTCAGTCCAAGAG GACTGCAGAGTCCATTCCTGATGACGATGATCTGTTGTCTTCCATATTAGCTGGTAAAAGATCCTCAGTTTTGAAAATTA AACCCAGTCCAGCAGCCCCTGAAATAGCATCAACAAAGCGCTTTCGTTCTGGATCACGCTCTAGTGCCATAAAGAGGAAG GTTCTTATGGATGATGTCATGGTCTTGCATGGCGATACAATACGCCAACAGTTGACCAGTACTGAAGACATACGTCGCGT ACGAAAAAAAGCTCCTTGCACCAGGCATGAGATTTTAATGATTCAAAGACAGTTTTTGGAGGATGAAATCTTTCATGAAC CAATATTAACAGATTTGTCTTCTGATTTGACTGTTCTGCGAAGTGACACATTTGATCTGACTAGAATCAAGGTTAGTGAT TCTGGTTTAGATAGTTCTTCCTTAGAAAAAACAAATGATCAAGAGTCCTATTCTAGAACAAATACTGAGAGTCATGGTGT AGAACTGGAAGGGAATGATGAGCCTATGGCAGTCCAACACCAAGAAAATACAGCAGCCCAACCTACTGAGATACCTATTC TATCTGAGAGCCATCAGTCCGAAGTTAACACAGTGTATCATGATATTAATGCTCTTGAACATCCTAATACTATTTCTGGC CTTGATAGTTCTCAAAATGCTGAAATGAACAATGCTGGACGAAATGTTGAGGTTTCTGAAGCAGAGAATTGCTCTGTTGC CCCTGGGATTGAACCTTCTGCCCTAACAGAACTATTTGAAAATGACCTTTGTGTGCCTAATGATTTTGTTGCAACGCTGC CCCTCATAGATGAAACAAATGATCGTGGTGATTCTATTCATACAACTCCATTGAGTGAGCCTACTGCCCAGAATATGAAT GCATTTCCTTTTCCAGAGGATGAGTTTGTGGAGGATTACTGGGATAGAAGTGAAGTAGGTGCTGTTAAAATTGCAGAGCC AAACATGGAAATTAGAACACAAGTTCTAACGGATGGTGTGGAAGCTGATGATTTATGTCCATCCTCGGCTCCTGGCTCTG TTGAAATTGCAGGTCAAGCCATGGAAATTAGAACACAAGTTCTTACTGATGGTGTGGAAGCTAATGATTTATGTCCATCC CCGGCCCCTGGTTCTAAGGAAACTGATGAACATGCTGATAATCAGGCTTTATTTAATGGAGACATACTCATGGAGGAAAG TGGAAAATGCATGGTAGGAGGTGTAAATGAGGATCAAATTGTTTCTTCTGGCTTGGGATGTGATGACAAGGGTGCGAAGT CTGACTATATATTTAGTGAAACTACTAAAGTAGACTGTTTACATTCTGTAGCACTTGATTTGGATGAAAATAGGAGTTCT CTGAATGATGAAGAAGACCCGGTCTGTCAAGAAGTTGCACTACAAAGTACAATGTGTCCTGAAGCCTCAGCTGTTCAAAG TCCTTTTGTGGACCAGAAAGATGACGATGACATGGTTGCTAATGACACAGGTTTTTTGAATGTTGGTGATGATGAGATAA TTGAAGATGACGAAGAAGATGATTTTATGCCAGCCGCTGAAGGAACTCACCTTGAAAATAGTGGATGGTCTTCCCGGACC AGGGCTGTTGCCAAGTATCTGCAGACCTCGTTTGATAAGGAAGATCGACAGGGTAGGAAGAACCTGAAACTTGACAATAT ATTGGCTGGTAAAACAAGGAAGGAAGCATCAAGGATGTTTTTTGAAACACTGGTTCTCAAGACAAGGGATTATGTTCATG TAGAACAGGCAGAGCCATATGACAATATTGACTTAAAACCTAGACCGAAGCTTATGAAGGCAGATTTCTGA
Protein sequence (LotjaGi1g1v0488400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MFYSQFILAKKGPLGTIWIAAHLERKLRKNQVADTDIGVSVDSILFPDVPIALRLSSHLLLGVVRIYSRKVNYLFDDCSE ALLKVKQAFRSTAVDLPPEESTAPYHSITLPETFDLDDFELPDNDISQGNYVDHHVSSREQITLQDNMEGVVYTASQFGL DERFGDGDASQIGFDLDEVLLGDKAAAMDHDGLSANPDASHKNDDNNEELRGTSDRMQVEDSGSKNDLIDGQPSLAEVSE YAQGPSTPGLQEPNLFGTQVDQVNDEADCNNSADLVTMKIEQKESSAHQMENDVVDCSTQNNGEHVGVDLHHGDSDCIMV EVDSKREDKEHMASKVVTKDQENFIPDDHCSTLAPLLDSSNKDPPTTISPESAGGMIDSSNMPEKVEDLHDRVLMNDEPT VVPSEHHVNVVPEGVSVNEAVASSSYSHATSDQENLSFQMLANVDGSMGLESGCHLEDDNTLSKHEVLNDTEISKGEGQP DPIEEAQVSNIISPLGSPGRPEVVDLEAQASQEPKEIETSNHVSLEAQEPTESYLRPCTYHQSQPSLSPIEGEKRHETDV SAPALGSHETLEPSVHKEKPDLGESGKSAASDMPEPEKMLSLAYQHDGEANNLVLESTPVNQSISEGHTDAAGVTCISGK KRSFTESTLTMQSVDLVESYGGAQSKRTAESIPDDDDLLSSILAGKRSSVLKIKPSPAAPEIASTKRFRSGSRSSAIKRK VLMDDVMVLHGDTIRQQLTSTEDIRRVRKKAPCTRHEILMIQRQFLEDEIFHEPILTDLSSDLTVLRSDTFDLTRIKVSD SGLDSSSLEKTNDQESYSRTNTESHGVELEGNDEPMAVQHQENTAAQPTEIPILSESHQSEVNTVYHDINALEHPNTISG LDSSQNAEMNNAGRNVEVSEAENCSVAPGIEPSALTELFENDLCVPNDFVATLPLIDETNDRGDSIHTTPLSEPTAQNMN AFPFPEDEFVEDYWDRSEVGAVKIAEPNMEIRTQVLTDGVEADDLCPSSAPGSVEIAGQAMEIRTQVLTDGVEANDLCPS PAPGSKETDEHADNQALFNGDILMEESGKCMVGGVNEDQIVSSGLGCDDKGAKSDYIFSETTKVDCLHSVALDLDENRSS LNDEEDPVCQEVALQSTMCPEASAVQSPFVDQKDDDDMVANDTGFLNVGDDEIIEDDEEDDFMPAAEGTHLENSGWSSRT RAVAKYLQTSFDKEDRQGRKNLKLDNILAGKTRKEASRMFFETLVLKTRDYVHVEQAEPYDNIDLKPRPKLMKADF
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 | 1276 | 1276 | 0.0 | ||
| Pfam | 1 | 102 | 102 | 2.2E-36 | ||
| PANTHER | 1 | 1276 | 1276 | 0.0 | – | |
| MobiDBLite | 190 | 231 | 42 | - | – | |
| MobiDBLite | 195 | 223 | 29 | - | – | |
| MobiDBLite | 355 | 381 | 27 | - | – | |
| MobiDBLite | 355 | 376 | 22 | - | – | |
| MobiDBLite | 507 | 527 | 21 | - | – | |
| MobiDBLite | 513 | 527 | 15 | - | – | |
| MobiDBLite | 539 | 595 | 57 | - | – | |
| MobiDBLite | 571 | 585 | 15 | - | – | |
| MobiDBLite | 802 | 825 | 24 | - | – | |
| MobiDBLite | 802 | 828 | 27 | - | – | |
| Gene3D | 1199 | 1274 | 76 | 6.8E-9 | ||
| SUPERFAMILY | 1199 | 1272 | 74 | 1.12E-16 | ||
| Pfam | 1222 | 1271 | 50 | 9.5E-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 | 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). | ||
| Biological process | Sister chromatid cohesion | The cell cycle process in which the sister chromatids of a replicated chromosome become tethered to each other. | ||
| Cellular component | Cohesin complex | A protein complex that is required for sister chromatid cohesion in eukaryotes. The cohesin complex forms a molecular ring complex, and is composed of structural maintenance of chromosomes (SMC) and kleisin proteins. For example, in yeast, the complex is composed of the SMC proteins Smc1p and Smc3p, and the kleisin protein Scc1p. In vertebrates, the complex is composed of the SMC1 (SMC1A or SMC1B) and SMC3 heterodimer attached via their hinge domains to a kleisin (RAD21, REC8 or RAD21L) which links them, and one STAG protein (STAG1, STAG2 or STAG3). |
Expression pattern of LotjaGi1g1v0488400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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