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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0040000 |
| Transcript ID | LotjaGi1g1v0040000.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Protein hapless 8; TAIR: AT5G56250.1 hapless 8; Swiss-Prot: sp|Q9UBT6|POLK_HUMAN DNA polymerase kappa; TrEMBL-Plants: tr|K7M4L6|K7M4L6_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0040000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:5558462..5568167) extracted from Lotus japonicus Gifu genome v1.2.
CTTTTTCTTCACTCTAGAAGAGCCCTCTCTATCTCTCTCTCTCTCACTCATACGTCGCTTTCAGTCATAAATTAGGGAAA AGCAAGTAAGCAGACAGCTACATACACCCACACACTCTCTCTTCCATTTCTTCACTCCACCACAATCCAAAACCAACGTT ACTCTCTCATCCTCTCTCTCTCTCATCACCACTATCACCACCACCACCATGTTTCCTCCTCCATAGTTTCTCTCCTTCTC ATCACTGATCATGGCTGCTAGGCCTGATAATGGATTCTCCATAAGGTATCATCATCATCTATTCATGTTTTGTTATCTCT TTTGTTCTTTCTTCTTCTCTTTCTCTTCTTCTGTTTATGGGTTTTGATTCTGTGTTGCAGGGAGTACACTTCCAAGATGA GGTCAATCGACGTCTTCAAATGCTGGCCCTTCACTTCCAACATCAACCGTGAGCTCACGCGCGAGGAGCTTCAGTCATGG CTTCCCCCCATGACTCTCCGCTGCCCTAGATCCGAACCTCTAAACCACCATAACAAACCCGAAGAACCTTCTAGAACTCG CGTCGAAGCTTCTAGAACAGTCGATGTCGACTCCAACGAAGAAGAATCGTCCAAATCGGATCATGATAGCCTCGCTGCTG CTCCTCCTGATGCATCGGCAGATGTATCGGCTTCTGCCGCTGCCGATGATGAGGGAGGAGAAGCGATGGTGTGTCCTGTT TGCCGCGAGTTCAACGCGGCGACGCTCACGGCGGTGAACGCGCACATCGACGGCTGTCTCGCGCAGACGATGAGGGAGGA GAGGCGGCACATGAGGATGATGAATTTGAAATCGAGCAAGTCGAGACCGCCGAAGAAACGCTCCATCGCGGAGATTTTCA AGAAGGTTCAGGAGGTTGAAGAGGAGGAGGAAGAGCACAAGGTTTTGAAGCTGTGGCCGTTGCGAGAGGTGGAAGAGGAA GAGGAGAATAACGATGCGGATGTTGATGATGAGGTGTCTGTTACGGTTAGGAAGTTCCAGTGGCTCTCTAACCGCCTTGA GGCGCTGAGATCCAGCCGCGGAGACCGCGAATCGGCGAGATTGAACGCCGCGGAGGAGGTGGAGGAGGAGGAGAAGATGG AGATGGTTTGTCCGGTTTGCCGCGATTTCAACGCGGCTACCGTGACGGCGGTGAACGCGCACATCGACAGTTGCCTCGCG CAGGCTGTTAGAGACGAACGGCGGCAGATTAAGAGGAGTTTTCCGAAGCTGAAACCGAAAGCGCCGAAGAAACGCTCGAT CGCTGAGATTCTCACCGCGGCGCCGCCGATCGAGGAAGCAAGGAAGAGCAAGAGCAAAGGCAAAGTAGTTGAGGCTGAGG AAGATGAAGACGAAGAGGAGGACGAAGATGGGGATTGTTCTACTGCTACTGCTGTGGTTTCAGTAATCAAGAGCAAAGGG AGTACGAACAAGAACAGTAAAGGTAAAAAGGTGAACAAGGCGAATCGGAAGAAGAAGTTGGAAAAGCATGGTGATAGTGT TGTTGTATCTGTGAACAGTGAGAAGAAGAAGAAGACAATAGTGAGCAAGAAAAACAAGAAGATAAAGAAGAACAACGTCT ACAACAATGACCTCACTAAGAAAAAGGTACGTAGTTTAATCATAAAATATGAGTTGAAATTTCATTACATGAAGTCTGTT TGTGTTAATTTGTGGCTAATTTATGGTGATTGAGGTTGAAATTCATGGATTTTGTGCATAAAATATCACTTGATTATACT GTAGCTGCTTCTTTGTTGATGTGGTGTGTTTCTTCCTTATGCTACCATGCGATTATAGCTTAGCTTTCCTAATTCCTTGT GCTGCTTTTTCTGCATAAAATCACTGCTGAAAAAGCTGATTAGAGAGATGAAAGTGAGAGTAGTTTTTTGGTTTGGGGGA AAAGGATTAATAGACAAGTGCCTTCTTGCGCGGTAGTGAAGAGGGGGTGAGCCTGCAAGAGTGAGTAAGGGGCCACTCTC TTGGGTTACGAGGTGGAAGAGCTATAGCTGAGGCTAATCATCAAGTGTTTTTCATGCCCCGTCACTATTAGCTAATAATT TGAGGGTGAGAATTGTCATATGGGCCATGGGTAAGATTTGATAGAGATAAAATTTTCTCATCTATTGCTGGCTAGTTTTT CGGACGTAGAGGATTTTACACAGTTAACAGCTGGATGAATTTTTTTTTATCTAGTGGGAGATCTAGAATTTCATAGATCA TCATTTATTGGGTCTGTCAGAAGAAGTGTGGAGTGTGATTTGGATTGATGAATGTTTGTTTGCCTATATATGCAAGTATA GTCCAGATGGACATGTATGCAATATCAGAGAAAATTACTCTGACTTTGGTTGATTGGTATTTGGTATAGATATTATCGCA TGGGTGTATCTTCTGACGTGATTTATGTTGGTAATCATCATCATGTCTCATATGAGTGAAGTGGGGGGTTTGTAATGAAT CGTGTAATGGTGTTGGACTTTCTGTTGTTGGGTAAAATACTTCAGATCATTCAGATCATATTCTGAAAGTGCTAGTTTGC ATGTGGGAGAAGTACATCGATGTATCAGCACACGAAGGCTAAGTGAACTTGAATTTTATCATATGTATGAGCAGATAATT TTGCAATAATGATCCATTCCCACTTCAAACACACTCCTACCAAGTGAGATAATGTGATAGGAAAAGAATGAAGTGAAAAT GAGACGGATGAGGAAGTGAAGTTTAACTGAACCAAAACCCCCAAAATAATGTCAGTTCATGGTTATGTTATGCTAGCTGA AATTTGAAAACGTATTTAAGGGGCTAGAATTTCTTGCTGATAACTGTTTCTTCCCTTTCTGTCAATGCTTTGAAGAATTA AAAGTTTAAAACACTGTTTTTCCGGCATTGAGATGGCCACAAAAGCCACAGCAGTTTGAATGGTGGGGATGTATCATATA TGAAACACGTAATATTCTCTAGATGTATTACTTGTCAATTTGAGAAGTGCGCATTATATTATATATATATATATATATAT AGAAGTCTTAAATTTATTAAGACAAAATATTGAAGCATTATGATTCATTCTTATACCGACGTCCATCCCTTGTCTTTTAG TAAAATTCATATAGAGAGAAGTATTTGATGTCCCATCAATTTTTAATCTAATTAGAAATAGATGCCTTTCTTTAGGATTT TTTGTTTTAAATTTTAACCTGACACATCTCGTTTTAAGGGATCGATTAATTTTTTTTTTTAAAATGCCTTCTTTAAAAAA AAAACTCAGATATGTCCCACAAAAAAAGAATACTAATGATTTTTTTTTTTTGGTTTCATATATTAATGAATTTTTTTTGG TGTAAGATTGTGAAATTACATAATTTACAAATCTTTCATAATTGTTTATCACAGCAAAATTTGTATAATGCATGTATAAA TAAACCATGGGAAGAATATGATATTTGCCGTTGAAGTATCATTTTGGAAAAAGTTATCTTCACACTTGAAATCCACTCAC ATTTTGAGTGAAGAAGAAGAGAAGAGAGAGAAATGAGTGATATCATAAGTGATGTGAAAAGAAAATAAGAGAAGGATAAG AAGAGAAATGAGTGAAATTGAGATGGAAAAGAATGAAGTGTAAGTGTGTGTGCATCAAAACTCTATAATTTTTACTTGGG TATTAGTTTTAGAAAGAATCTCATATGATTTCTTCAAACAAATGATTCCCTAAATGATTCCTCAAAGTGATTAATTATTC TGTGAGAAAATATCCAGTAGAAAAAGTATACAACATACAGATATTGTTAGCAGATACAGTAGTACTGTAGTAGTAGAAGT TTTCCAGTGCATTTAAGTGAAACAACAAATTTTCTACTTTGGTTATATACACTGGATGTAGAAAAACCTTTACAAATGAG TTCTTTCAAAATAATATTTGTAACGAATTGTACAAGCTTATTTAACTTTCAATATATCAAGTAAAAATCAATTCCAGTGA TATGTAGAATTTATAATCATTTTTAAATACGGATACAAGTTAGTACTTAATTCAGCTGTTTCAATCTAGATAAGTTGTGA CATGTTCTATGTGAACAGTGGGACACTAAGAAATAAATTGTTATCAGAATGTCACTAGTCGTGATAGATTGAAAAATAAC TTTGTTCCTCAGTAATCAAAGACCTTGTTTATGCAGAAGTTTGGTTCGTGATTGATATTGTGTAATAAATATACTTTTGA AAAGTTCTCTGCCATTTTATCACATGCAGTAAGCATAAAAGGAGTTGCCCTAATCTTTTACAAGCTTTTGATGAGGGACA AAATAAGAATATCCATGGCCATCTAGTTATCAAGACATGATATCATGGTTATAGGAATGATAACTATTAGACCACTGTCA AGTTATCTTACTATGCTGGGTTCGAATGCAACGGAAATCAAGATTTGTTTCTGGTTGTCTATGGTGACAGTTTATGGAAC AGATTTGTAGCATATCCAATTGGCTATTCATGCTGTTGTGTATTATCAATCTTATTCATTTTCTGTCATTCATTCCATTG CATATAGTTTGTTAACCATTTAATTTGTTGAGGGGATTTCTGTGCAAAGTGATATGAAATTATGAAAGGTGGTATCACAT TTATAATTTCGTTATTGTGTGGGAAATACTGAATTGCTTTCGCTTTGAATATGGGTATTTTATGTTGCCTATAGCTTAGT AGTCAACTAATTATTAGCTTAGTAGTCAACTAATTATTATGTTATAACATAAGACTCTTAATTTTTTAATCTTGTTTATC TCAGGAAGATGCTTACAAGCGCATGGTGCAAACCACAGTAAGGAGTTCCAGAAAACTAAGAGGGTCAACTGATAACAAAA GCATTGCCCTTCATGATATTGATCCCTCTGTCCATAGAAAGAAATTGTGTTTAAATGGCTTATCAGTACGAAAGAAACAA GAAGTTAAAAATTGTGACTCAGTTGGAAAACAACAGAAAGCAGTATCTTCTGTTGGTGGCATTCCTAAGAACCACTCCAA ACATGTTTCTGGAAAGACATCAAGTGACTGTAATAGTTTTCAAGATGGTACAGAAGACAGTGATTACAGTGATTACAATG ATCAAATGCCAACCTCTGATAGGCAAGTGAAATTCTCTGGTAAGGCTGATATACATTGTGAAAAAGAGAGAGATTCAGTT GATGAGACCATGTTCAACATATCTTCAGATGCACCGGCTACTTCATCAGTAAAGCTGCAATCCTCTGGAAGTGATGAAGA GAATGCAAGTTGGGGGGCAAACAGAAATTATGACCACATTGCCATTAATGTAGACAAAGAAAAAAGTGTTTGCCCAATAG TTGAAAGTAAACAGTTTGTTAATACTATGGAACAAGTTACTGTACAGAGTTTCTTGAAGCCATGTACCAATCAAGAGAAT TCAAAGCTCTCAGAAGAGAAGTCTGAACTATTAACCAAGATGGCAATTAATGACAATAACAGATTACTGCATTTTGATGG AGGCAACACAACTACACTGCTTTTTTCTCCATATGCTGACATGTCTAGACCTCTTGCTGCAGTTAAAGAAGACAAGACAT CTGGCATAAATACTCAAGTGTGTGAATCTGGATCTTTCAGCTCAAGTGCGAAATTCATTGACCATTCGGAGGATCCTCCT ACTTACCAGTTTGGTGCTGTGAACAAAAATGGAGATACAAAGACAACTCTGGAGCATTCCTCATCTTATTCTGTTTCATA TTATAAGGCAAATGAAAATCCTGAAGCTTCATTGCAAACTTATGGAGATACTGATAATAGTGGCCACGCCTTGGGTGACA GACAGTTGCCTCATGTTTTTCCTGGCAGTATGATTGATAACACGTTCCCTTTTACAAGCTGGAGTAAAGGAAGGGATATA AATAGCTCTTCGAATCCAAACTTTTTTGGGTTGCCCCTCAATTCTCATGGTGAGCTAATCAATTTCAGTTCAAGTGTAAA AGTAGGGTTGGACCAGCCAGAGACATCAAGTACATCACGAAGTTCTTTAAGTGCCTTACCCATTGATAATATTCTCCACC AAAGTATGCAGGAAAATTTAAGCATCAATGAGAGGCATGTTGTTCAGAAAACATTTCCAAAAGATGGGCTAAATCCATTT ACACAGTATTCATCTGGGTTAGCTTTCACCCGGTTACCATGCAGTGAGAGAGAAGATATCCACCGTCCCAAATCTGATTT TTCCAGCCACTATGTCCAGCCACTTAATCCAGAGCTCCTTAAGCAAAACTCCTTCCGTATGCAGAACCACAGTGGAAACG GGATGGTTTCTCTGAAAGAAGGCTCCGATCATATCTCACCAAGTTCCAGCCAACCAACAGTGAGGTTGATGGGTAAAGAT GTTCCAATTGGCAGGAGCAGCCAAGAGATGCAACAATTTGCGACAGATGTTTGGACTGATGAAGAGTCCAGAAGGCATTA TTCTCAATATGCTTTAGAAAACTCTTTCCTGGGAAGATGTCCTAAGCAGGATTGGGTATCTGGGTCCTCCTCACAAGTAT CTACTGATAATGTATTGCATTCAGCGAAATTTCAAAGCAATCAGGGTTTGATGGATGGTGCAGACTCTGGATTTTCTCAA CCGTTCATTGATCTGCAAAGTAATCATGCATCTCGAAATGGAAGTCTTGGAATCAGTAGAAATTCCAGTTCTTATTTCAA TCCTATTACTCAAGATTCTACTTCGTATGCAGTCTGTAATAGGGCACATGAAGACTTTCCAGAGCGGTGTATACCTGGAG CTAAACCTCCAGGAATGAACTGCCGGTCACCAGTGCTACCTACTCCTTGCAATTTTGATCAGCCGACATGTTCGAGCAAC CGTGAGCTGAATGACAGGAACAAAAACCCTCTTGCCACAAAATCAGCCTTTGGATTTCCTTTCTTGCAGCCATCTGTCGA TGAACAGGCCAAAACATCTTGGTTTCAGAGGCCCTATGGACATTTACCATCATGGTTGTCAAGCTCACCAGGTGAAATGC TACCAGGGACATTTTCTCAGCAATTTTCTGGCATAAGAAGTCAAGGTTTTCCTCAAAATCAATGGGGGAATAACTTTGTC ACGCCATCTGTGAATCATTCAGCTGAAGTTCTCTACCCTTCTAATCCGCTGACTTCCCGGGGTCCCATGAAGACGAGCCC TCCTTGCCCAGCATCTTTCTCTCACCCTCTGCGTCCTTCAGTCAAATCCTCGACCTTAAATAGTGGCTGTAGGAACATAA ATAAGGTCCCTGACAGTGTGAGGTTGGATGATATTATCACAGAAGACCATCATCCATGCATAAATACCAGGAAGAGACCC GCAGTTTATCTTGATGATTCCAGAAAACATGTCAAGTTATCATCCAATATGGATGTGAAAGAAAGCTCGGGTGATATAAC TAGGCTACCTGGAGAAAACTCAAGTGTAGAATTGCAAAGAAGCACAACGGCAGTGGAACTTGATTCACAAGTGGATAGTG CTAGAAGTAGATGTGGGCAGAATCTAAATCCTACAAGTTATCCTGCCTTCGATTCTTTTAAAATGGACGGCGGCACGGTA ACATCTGGCCCTCTCCGACTTGGTCCTAAAAGAGCTAAGCTCATCCTAAGATCCTCTTAAAAAATAAGAGTTATCTTTTG TGCCATATTCTCACTTGGGATTACTGACTGATAGGGATCTAGAAACTCAGAAACATTGACAAAAAAGTATACAGATTTTA GGTGTAAGTCATATCACTTTATCATCTGTTTTTGCTCTCTCCTCAATAGTATATATCCGTTTGTGAACATAACAGGACTG TTCATGTATCAATATTGCCAGGTTGCTGAAACTGATGGAAATTGATGTATTTTCCATCCAGTCTTTTGATCACCCGGCAC TCAGTTTTGAAGTGTTGTGCCTTTTACAGAAATATTATCACCAAAGTTGATGCTTTTCATATCTCTATTAGGAGTCAGGT ATTCTCCACAAGGCATCTTTTCAATGACTATGGAAAGATGAGATTAGAATAAGGGAACCGTTAATCTCTCCTAACTAATG ATTAATCTAATTAATAAATCTTGAATTTAAGGCTTTAGTTTAGTTACTCATAAATTAACCATCGGATACCACACAAAGCA TCAACTACAGTTGAACTTGAACAGACTAAAAAGCATGAATACAAAAATATTTCTAGCATGAATTGGTTTTGACTAAGCTG TTTTGAGAACAAAATATGCCTACACACTTGTTGAAAAAATGGATTTAGTTTTCTCACCCCCTCATAATAAGTTGGTAAAT GGATTTATTTGAATTCAAACTGATTTCTTATTCATTGTAGAAATGATGAGGTGTCAGATGTTTTTTCATTGGTATACTAG CACTTACTAAATCATCAATGCAATAAGAAGTAAGCATGGAGTTTTAGCAGAATCCAACAAAAAAGTTGGTACACAAAGTG TTCCAGTTGGCCCTCTTGTCTGATTCTTTTGTCCTTATGAATCATTCAGTTCTATTTTAGCTACATGTACTAAAATACTC ACTCGCCCTAACTCCTATTTTTTTACTTTGCGTTACCGAGCTGAAAGGAATGATAGGAATCAAGACTATCTTTTTGAGAA AAAGTGAAGAAAAAAAAGTTGAAAAAATGAACCTGACACCTCTTATTTGATCATTCTTTTTACATGTGGTGGTATGTAAC GTCACAACCTCCATGAATGTCCCACTATGGCACAATTTGTGTACGTTAAAATATTTATTTGAATGATATTAATATTCATA ATGTGAACTGTGAAGTGTTAATTCTGTCAGCTACTTGTGACGTTTTCGCCAGACTTATATGCATTATTTGTGTTTTGATA CCTATTTAATTTTCTTCTTCTTCTTATTTATTAAAGGCGTTTACTCGAAACAGTATCAGTTATTATCATTTATATAGTGC ACTCCAAACGAGGAAGGAAAAAAGGTTGAATAGGCTATATTTTATCACACGAGATCAATTTATCCCTCATTTGATTGATA CAATCACAGGAGATAGTCTTATATTTGCTTATTTGATGATGATAATTATTTATTTATTTTGAAAAAATTTGATGATGATT ATCAATCAAATTAAAGTAACCAACCAGATTAATTGGAAGCTCTTTCATTCTTAGACCAGGAACTGTACATAGAAAACTTA TTGATCTTAGTGATTTTTCGTAGTGAATGTATCCGAGCTTCAAGAAGATTTTGAGCAAAAGATGAAAGAATATTATGATC GAGATAATTGTATTGTGGATGATGCATGCAAGTTCCTGCTGGAAGCGTTGATATGTGTAGTCAAAAGCAGAATAAGGATG CATGTCAAAAGTTAGGAATCTTCACGTGCTTTTGAAGTCGTGTACCATATGCCTTGTCTTTGATGATTGGTTCTCTCTTT ATATGTTTTTATCGCATTAAATGTTGAGCATGCAACTATGCTTTTGTGGCAGATTTGGAAGAGTTACTCAGAAAATTATT TACCAGCTTTTACCTTTTACTCAGTATAATATATATATATATATATATATATATATATTATATGTCACTATGTATGTGTC ATTACATCTGTGTAAATGTGTAATACTATTACTACATGTACCTTTTTAGTCGTCACAAAATGAAGCATGGAGCAAAGTAA TGTTAATTATTGCACAATTCTGAAAT
CDS sequence (LotjaGi1g1v0040000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTGCTAGGCCTGATAATGGATTCTCCATAAGGGAGTACACTTCCAAGATGAGGTCAATCGACGTCTTCAAATGCTG GCCCTTCACTTCCAACATCAACCGTGAGCTCACGCGCGAGGAGCTTCAGTCATGGCTTCCCCCCATGACTCTCCGCTGCC CTAGATCCGAACCTCTAAACCACCATAACAAACCCGAAGAACCTTCTAGAACTCGCGTCGAAGCTTCTAGAACAGTCGAT GTCGACTCCAACGAAGAAGAATCGTCCAAATCGGATCATGATAGCCTCGCTGCTGCTCCTCCTGATGCATCGGCAGATGT ATCGGCTTCTGCCGCTGCCGATGATGAGGGAGGAGAAGCGATGGTGTGTCCTGTTTGCCGCGAGTTCAACGCGGCGACGC TCACGGCGGTGAACGCGCACATCGACGGCTGTCTCGCGCAGACGATGAGGGAGGAGAGGCGGCACATGAGGATGATGAAT TTGAAATCGAGCAAGTCGAGACCGCCGAAGAAACGCTCCATCGCGGAGATTTTCAAGAAGGTTCAGGAGGTTGAAGAGGA GGAGGAAGAGCACAAGGTTTTGAAGCTGTGGCCGTTGCGAGAGGTGGAAGAGGAAGAGGAGAATAACGATGCGGATGTTG ATGATGAGGTGTCTGTTACGGTTAGGAAGTTCCAGTGGCTCTCTAACCGCCTTGAGGCGCTGAGATCCAGCCGCGGAGAC CGCGAATCGGCGAGATTGAACGCCGCGGAGGAGGTGGAGGAGGAGGAGAAGATGGAGATGGTTTGTCCGGTTTGCCGCGA TTTCAACGCGGCTACCGTGACGGCGGTGAACGCGCACATCGACAGTTGCCTCGCGCAGGCTGTTAGAGACGAACGGCGGC AGATTAAGAGGAGTTTTCCGAAGCTGAAACCGAAAGCGCCGAAGAAACGCTCGATCGCTGAGATTCTCACCGCGGCGCCG CCGATCGAGGAAGCAAGGAAGAGCAAGAGCAAAGGCAAAGTAGTTGAGGCTGAGGAAGATGAAGACGAAGAGGAGGACGA AGATGGGGATTGTTCTACTGCTACTGCTGTGGTTTCAGTAATCAAGAGCAAAGGGAGTACGAACAAGAACAGTAAAGGTA AAAAGGTGAACAAGGCGAATCGGAAGAAGAAGTTGGAAAAGCATGGTGATAGTGTTGTTGTATCTGTGAACAGTGAGAAG AAGAAGAAGACAATAGTGAGCAAGAAAAACAAGAAGATAAAGAAGAACAACGTCTACAACAATGACCTCACTAAGAAAAA GGAAGATGCTTACAAGCGCATGGTGCAAACCACAGTAAGGAGTTCCAGAAAACTAAGAGGGTCAACTGATAACAAAAGCA TTGCCCTTCATGATATTGATCCCTCTGTCCATAGAAAGAAATTGTGTTTAAATGGCTTATCAGTACGAAAGAAACAAGAA GTTAAAAATTGTGACTCAGTTGGAAAACAACAGAAAGCAGTATCTTCTGTTGGTGGCATTCCTAAGAACCACTCCAAACA TGTTTCTGGAAAGACATCAAGTGACTGTAATAGTTTTCAAGATGGTACAGAAGACAGTGATTACAGTGATTACAATGATC AAATGCCAACCTCTGATAGGCAAGTGAAATTCTCTGGTAAGGCTGATATACATTGTGAAAAAGAGAGAGATTCAGTTGAT GAGACCATGTTCAACATATCTTCAGATGCACCGGCTACTTCATCAGTAAAGCTGCAATCCTCTGGAAGTGATGAAGAGAA TGCAAGTTGGGGGGCAAACAGAAATTATGACCACATTGCCATTAATGTAGACAAAGAAAAAAGTGTTTGCCCAATAGTTG AAAGTAAACAGTTTGTTAATACTATGGAACAAGTTACTGTACAGAGTTTCTTGAAGCCATGTACCAATCAAGAGAATTCA AAGCTCTCAGAAGAGAAGTCTGAACTATTAACCAAGATGGCAATTAATGACAATAACAGATTACTGCATTTTGATGGAGG CAACACAACTACACTGCTTTTTTCTCCATATGCTGACATGTCTAGACCTCTTGCTGCAGTTAAAGAAGACAAGACATCTG GCATAAATACTCAAGTGTGTGAATCTGGATCTTTCAGCTCAAGTGCGAAATTCATTGACCATTCGGAGGATCCTCCTACT TACCAGTTTGGTGCTGTGAACAAAAATGGAGATACAAAGACAACTCTGGAGCATTCCTCATCTTATTCTGTTTCATATTA TAAGGCAAATGAAAATCCTGAAGCTTCATTGCAAACTTATGGAGATACTGATAATAGTGGCCACGCCTTGGGTGACAGAC AGTTGCCTCATGTTTTTCCTGGCAGTATGATTGATAACACGTTCCCTTTTACAAGCTGGAGTAAAGGAAGGGATATAAAT AGCTCTTCGAATCCAAACTTTTTTGGGTTGCCCCTCAATTCTCATGGTGAGCTAATCAATTTCAGTTCAAGTGTAAAAGT AGGGTTGGACCAGCCAGAGACATCAAGTACATCACGAAGTTCTTTAAGTGCCTTACCCATTGATAATATTCTCCACCAAA GTATGCAGGAAAATTTAAGCATCAATGAGAGGCATGTTGTTCAGAAAACATTTCCAAAAGATGGGCTAAATCCATTTACA CAGTATTCATCTGGGTTAGCTTTCACCCGGTTACCATGCAGTGAGAGAGAAGATATCCACCGTCCCAAATCTGATTTTTC CAGCCACTATGTCCAGCCACTTAATCCAGAGCTCCTTAAGCAAAACTCCTTCCGTATGCAGAACCACAGTGGAAACGGGA TGGTTTCTCTGAAAGAAGGCTCCGATCATATCTCACCAAGTTCCAGCCAACCAACAGTGAGGTTGATGGGTAAAGATGTT CCAATTGGCAGGAGCAGCCAAGAGATGCAACAATTTGCGACAGATGTTTGGACTGATGAAGAGTCCAGAAGGCATTATTC TCAATATGCTTTAGAAAACTCTTTCCTGGGAAGATGTCCTAAGCAGGATTGGGTATCTGGGTCCTCCTCACAAGTATCTA CTGATAATGTATTGCATTCAGCGAAATTTCAAAGCAATCAGGGTTTGATGGATGGTGCAGACTCTGGATTTTCTCAACCG TTCATTGATCTGCAAAGTAATCATGCATCTCGAAATGGAAGTCTTGGAATCAGTAGAAATTCCAGTTCTTATTTCAATCC TATTACTCAAGATTCTACTTCGTATGCAGTCTGTAATAGGGCACATGAAGACTTTCCAGAGCGGTGTATACCTGGAGCTA AACCTCCAGGAATGAACTGCCGGTCACCAGTGCTACCTACTCCTTGCAATTTTGATCAGCCGACATGTTCGAGCAACCGT GAGCTGAATGACAGGAACAAAAACCCTCTTGCCACAAAATCAGCCTTTGGATTTCCTTTCTTGCAGCCATCTGTCGATGA ACAGGCCAAAACATCTTGGTTTCAGAGGCCCTATGGACATTTACCATCATGGTTGTCAAGCTCACCAGGTGAAATGCTAC CAGGGACATTTTCTCAGCAATTTTCTGGCATAAGAAGTCAAGGTTTTCCTCAAAATCAATGGGGGAATAACTTTGTCACG CCATCTGTGAATCATTCAGCTGAAGTTCTCTACCCTTCTAATCCGCTGACTTCCCGGGGTCCCATGAAGACGAGCCCTCC TTGCCCAGCATCTTTCTCTCACCCTCTGCGTCCTTCAGTCAAATCCTCGACCTTAAATAGTGGCTGTAGGAACATAAATA AGGTCCCTGACAGTGTGAGGTTGGATGATATTATCACAGAAGACCATCATCCATGCATAAATACCAGGAAGAGACCCGCA GTTTATCTTGATGATTCCAGAAAACATGTCAAGTTATCATCCAATATGGATGTGAAAGAAAGCTCGGGTGATATAACTAG GCTACCTGGAGAAAACTCAAGTGTAGAATTGCAAAGAAGCACAACGGCAGTGGAACTTGATTCACAAGTGGATAGTGCTA GAAGTAGATGTGGGCAGAATCTAAATCCTACAAGTTATCCTGCCTTCGATTCTTTTAAAATGGACGGCGGCACGGTAACA TCTGGCCCTCTCCGACTTGGTCCTAAAAGAGCTAAGCTCATCCTAAGATCCTCTTAA
Protein sequence (LotjaGi1g1v0040000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAARPDNGFSIREYTSKMRSIDVFKCWPFTSNINRELTREELQSWLPPMTLRCPRSEPLNHHNKPEEPSRTRVEASRTVD VDSNEEESSKSDHDSLAAAPPDASADVSASAAADDEGGEAMVCPVCREFNAATLTAVNAHIDGCLAQTMREERRHMRMMN LKSSKSRPPKKRSIAEIFKKVQEVEEEEEEHKVLKLWPLREVEEEEENNDADVDDEVSVTVRKFQWLSNRLEALRSSRGD RESARLNAAEEVEEEEKMEMVCPVCRDFNAATVTAVNAHIDSCLAQAVRDERRQIKRSFPKLKPKAPKKRSIAEILTAAP PIEEARKSKSKGKVVEAEEDEDEEEDEDGDCSTATAVVSVIKSKGSTNKNSKGKKVNKANRKKKLEKHGDSVVVSVNSEK KKKTIVSKKNKKIKKNNVYNNDLTKKKEDAYKRMVQTTVRSSRKLRGSTDNKSIALHDIDPSVHRKKLCLNGLSVRKKQE VKNCDSVGKQQKAVSSVGGIPKNHSKHVSGKTSSDCNSFQDGTEDSDYSDYNDQMPTSDRQVKFSGKADIHCEKERDSVD ETMFNISSDAPATSSVKLQSSGSDEENASWGANRNYDHIAINVDKEKSVCPIVESKQFVNTMEQVTVQSFLKPCTNQENS KLSEEKSELLTKMAINDNNRLLHFDGGNTTTLLFSPYADMSRPLAAVKEDKTSGINTQVCESGSFSSSAKFIDHSEDPPT YQFGAVNKNGDTKTTLEHSSSYSVSYYKANENPEASLQTYGDTDNSGHALGDRQLPHVFPGSMIDNTFPFTSWSKGRDIN SSSNPNFFGLPLNSHGELINFSSSVKVGLDQPETSSTSRSSLSALPIDNILHQSMQENLSINERHVVQKTFPKDGLNPFT QYSSGLAFTRLPCSEREDIHRPKSDFSSHYVQPLNPELLKQNSFRMQNHSGNGMVSLKEGSDHISPSSSQPTVRLMGKDV PIGRSSQEMQQFATDVWTDEESRRHYSQYALENSFLGRCPKQDWVSGSSSQVSTDNVLHSAKFQSNQGLMDGADSGFSQP FIDLQSNHASRNGSLGISRNSSSYFNPITQDSTSYAVCNRAHEDFPERCIPGAKPPGMNCRSPVLPTPCNFDQPTCSSNR ELNDRNKNPLATKSAFGFPFLQPSVDEQAKTSWFQRPYGHLPSWLSSSPGEMLPGTFSQQFSGIRSQGFPQNQWGNNFVT PSVNHSAEVLYPSNPLTSRGPMKTSPPCPASFSHPLRPSVKSSTLNSGCRNINKVPDSVRLDDIITEDHHPCINTRKRPA VYLDDSRKHVKLSSNMDVKESSGDITRLPGENSSVELQRSTTAVELDSQVDSARSRCGQNLNPTSYPAFDSFKMDGGTVT SGPLRLGPKRAKLILRSS
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 | 202 | 202 | 0.0 | – | |
| PANTHER | 1 | 202 | 202 | 0.0 | – | |
| MobiDBLite | 50 | 112 | 63 | - | – | |
| MobiDBLite | 57 | 93 | 37 | - | – | |
| SMART | 120 | 145 | 26 | 0.0072 | ||
| PANTHER | 220 | 1378 | 1159 | 0.0 | – | |
| PANTHER | 220 | 1378 | 1159 | 0.0 | – | |
| SMART | 259 | 284 | 26 | 0.16 | ||
| MobiDBLite | 324 | 390 | 67 | - | – | |
| Coils | 327 | 347 | 21 | - | – | |
| MobiDBLite | 337 | 351 | 15 | - | – | |
| MobiDBLite | 368 | 382 | 15 | - | – | |
| MobiDBLite | 485 | 548 | 64 | - | – | |
| MobiDBLite | 506 | 541 | 36 | - | – | |
| MobiDBLite | 570 | 589 | 20 | - | – |
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 | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
| Biological process | DNA repair | The process of restoring DNA after damage. Genomes are subject to damage by chemical and physical agents in the environment (e.g. UV and ionizing radiations, chemical mutagens, fungal and bacterial toxins, etc.) and by free radicals or alkylating agents endogenously generated in metabolism. DNA is also damaged because of errors during its replication. A variety of different DNA repair pathways have been reported that include direct reversal, base excision repair, nucleotide excision repair, photoreactivation, bypass, double-strand break repair pathway, and mismatch repair pathway. |
Expression pattern of LotjaGi1g1v0040000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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