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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0390500 |
| Transcript ID | LotjaGi4g1v0390500.4 |
| Related isoforms 5 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | DNA damage-binding protein 1; TAIR: AT4G05420.2 damaged DNA binding protein 1A; Swiss-Prot: sp|Q9M0V3|DDB1A_ARATH DNA damage-binding protein 1a; TrEMBL-Plants: tr|A0A0S3QYR5|A0A0S3QYR5_PHAAN Uncharacterized protein; Found in the gene: LotjaGi4g1v0390500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:76917556..76927986) extracted from Lotus japonicus Gifu genome v1.2.
ATGAGTATATGGAACTACGTCGTCACAGCTCACAAACCCACCAACGTTACCCATTCTTGCGTCGGCAATTTCACCGGCCC TCAAGACCTCAATCTCATCGTCGCGTAAATTCGATACTCCACTCTCTCCTTCATTCCTAGGGTTCCTCTTCAATTCGATT CATTCCTCACTCTTCAATTGTTTTCTTCCAGGAAATGCACCCGTATCGAGATTCATTTGCTCTCTCCTCAGGGCTTGCAG GTATATTATATCCCATTTCTCTCTCTTTGCATGTTACTGTAAATTTGTAAGATGAATGTGAAATTTCTCTTTGCAGCCCA TGTTAGATGTGCCCATTTATGGAAGAATTGCCACGCTTGAACTCTTTCGCCCTCATGTAAGAAACAACAAACCATCTACT TTTCTTGAATTTTTATCTAATTTTTTATTTTTTTTTCTTACACAATTGCCCCCTTGTTGCTTGTTTGGTCTTAAACAGGG TGAAACACAGGATTATCTGTTTGTTGCGACTGAAAGATACAAATTCTGTGTTCTTCAATGGGATCCCGAGACTTCTGAAC TTGTTACAAGGTATGCATGAGAAGAAACCAGTTCTTGCCTTCTGAATGGACTTGCTTATGTTTTTATTTATTTATGTAGA TTGGATTTAATATATGTTTTAAAAAAGATTATTCATCAATTATTGATGCTGGGGCGTCAGCTGCTTGTGAGTGCTAATCC ATTTAGTTAGTTTAGGAAGCAGAAGTTCGTATGCAGTGTGTAAAAGACAGTTTCGTATCTTTGACGCAAGCATCTTTATT CGTCAAAACTGAATTGCGCATTTGTATAAGACTAACAGTGTCAATAGTCATTGAAGCAAGGCTTTCACATGTCACCATCG GCTAAAGAAATGAAATATAATAGTGTTCACGATGTGTGTTTTTTGCGTGCTTGTAGCTTATCAGCTGCTTAAACACTATG TATGGCCAGAAAATCCTGGTTCATGAGTTTTGTATCCTCTCTTAGGAGTTAGAGCCTATGAAGAAGGCAATTAGCATCCT TTTGAAAATAACCATGATCCCTTAGAATTTTAGGGTCATTTTGAAACTAGCCATGATCCCTTAGAATTTTAGCTTCCTTT CTTACTTGCTTTCATCTCCCTTCCGTAGTTTGAGCCTCACGTACTAGGCAACACTTTTACTTTCCTTAGGGTGGGATTAA TGGTTGTTGGTTATTTGTTTCAATCAGTGGGTTAACCGCAAAAGCTGGGAATTTCAGTGAAGAATGAAGATTAAAGTTTT TCTTGAGATTGTCTCTGTAGAATGTATAGTGGGACGTTGGGTTAGGGTTAAATTAGGCATTGTAACTCAATACCAATGGG ATTCCCAACTCATAATTTCAACTTTGGTGTACTTTTTACAATTAGAATCTTGTTTGTGTGTAAATTATAAATTGAAATGT CTAGTAAGAGGCTAAGAGCAATGTTGTTTATCTCGTTTGTTTGTTGAATTTTCTGGATTGTTGTCATCCAGGGCTATGGG GGATGTTTCTGACCGTATAGGACGTCCCACAGATAATGGACAGGTATTTAAATTGTTTCACTTCTATGTACTAATTATTC ATGTGCGGTGATTGTGTTCTCACAGTTCTGATAATTTTTAACAACACCAATGCTTTTTCTAGTTTAAAGTCAAATGAATA TTTTTCAGTTCATTTCAGTAGTTATACATTTCTCTTTCTGCAGATTGGCATTATCGATCCTGATTGTAGGTTGATTGGAC TCCATTTGTATGATGGCTTGTTTAAAGTATGTAACTTCCTCTCATTCATTATCCTGCTAAAATATTAGATTAGAATGACA ATACATTCAGGTTTTCAGCTTCATTTTAACTACTTCGATCATTCACTGTTCATTGACCTTCCAGGTTATTCCCTTCGACA ATAAAGGACAACTCAAGGAAGCATTTAATATTAGGTAATCCTATTATCTTTTAATTGTCTCCACACGGAATTTTATTTAC AATTTGATCTTCATTACTAGGCGTGCATAATTGTAGCAACTGAGGGTATTACCTTGATTAATTATTACCAGTATACCACA GTCCTAACTCTGTATGTATGACTATGACCTAGAACCTTTCATGTTGGATATTGTCATGTCTCTATATAACATGAGATAAT TTTCATGTGTCATGCATTTGGGTCAATAATGAACTTAGATGTAGTTTTTTCGGAGAGAAAAAAAAAAGGAAGTATGTACA TACTTTGATTAGCTGGTTTAATCTATGTTTAATTGAATAGATGGTTTGCAAGCCAAACTATGTACCAGTTAGATGGTTAA GATGCCTATACTCCCTTGGGCTTCATATCTCTTACCTAAAGAAATCATTTATCATGGTAGAAAAAGACCTTTTTATCAAC GATGACGCTCCATTTATCAAATGTACATTGGAACTTGTTTAACAAAGCTTTAAAATCTAATGGTTATGGTGGAAATAATT CATGGATGTAAAAAGATGTAGATACTGTTCCGTTTCTTTATGTCTTTTACATCATGTCCCCTTTTACTTTGGGTAATGGC TGTGCTTGGAAAACAACTGTAGCTTTATGCTCCCCTGATATGATTGTGGCTTGTGAGTTGCTTTGTGTACAGCTTTCAGT TGCAATAGTATTTAAGAGAACATTCTTATATATATGGGTGTAAGTTATCTGTTAGTTTTTAAAATGTCAGAGTTGACCAC AATGAGTTTGCTGACAAATTTGACAAATATAAACTATAAGTATAATAATTTGTGTTTCTGTTTCTGGTTTAGTTTAGTTA TTAAAATTATGATGTACATTTTTTTCAGGCTTGAGGAGCTCCAAGTTTTGGATATTAAATTTCTCTTTGGTTGTTCGAAG CCAACTATTGTGGTTCTTTACCAGGTATATAATTTTATTCCACCTTTTGTTTTGGGGGTATTATTAGTTCATCAAATAGA CTCTGTCTGAGCTGTTAACTTGTTTGCTGTTTTTCTTTCCTTCACTCATTTATTTTTGGGTTTGGAAGACGTAGTCAGGG AGTAGAAGTCGAGAAAACTACAACACCTATAGATTTCTTCTTATATGGATAGAAGAGCATGGGCTCTTGACTCCTGGGGA GAATTCTTGTTTCCATTTCCTTTCCACACTGCGAGAAAAATTCTTTTTAAGAATTCCATTTGGAAATCAGGCTATTCCTA TCCTCTGGAGAATCTTTCTTCAAATGAGTCAAAATTTCTTTGGGCCAAATTTATTTAGAAATCTAAACCTCTCTTCATAA GATGTAAATTGCGGCAGCATTCAGTTTAAACGGTCCTTTGGTGTGTGTAGTCAGAGCAGAATGCTTTTATCTTAAAGGGT GTCTCTTTGACCCGAAATTTATTGTCGGAACGAATTATGTTTGTTTCACAAACCAATGGTGACCTGCCTTCATTTGGTCT AAAGATTTTGTTTGAATAGAAAACACTTATAAAAAAATGTCCGCACATAAGGCATGTGATCAGTATATAATAGCATGTGC TTTGTGGTTATTTTTCCCCAAAATAATTCCTTCACTTTCTAATATAGCATATAATTGATAACTAGAAGATGAAAAAAAAA ATTACGGAAAGGTTCTACATGTTATAGAAATGACTGAAGAGGTAGCATTACATTGACTGTATTAGAATTGTTGATACGTG TTGAAGACAATATTTGTAGTGTTGAGGTTTTGAGACCCGCATGTCTTAGTTGTGTTGTTGTAGTTTGACTTCATGATTCG GCACATTTATATTCATGCATAACATTATCGATTCAATGTTTCTATGTTTTTATTATCTATGTAAATGTCTGCTGCATTTT CTCTATTTCCCTTACGTAATATATTTGGTTGCAAACATAACTGCTTTTAACATAACCATTTTGATGGCTTTGGTATTATA TTTAAATCAATGACAGGACAACAAAGATGCTCGTCATGTGAAAACGTATGAGGTTGCTCTGAAGGATAAAGATTTTGTTG AGGGCCCATGGTCCCAGAATAACCTTGATAATGGGGCTGATTTATTGATACCAGTTCCCTCTCCTCTTTGTGGTGTGCTT ATTATTGGTGAAGAAACCATAGTATACTGTAGTGCCAATGCTTTCAAAGCTATTCCAATCAGACCTGTATGTAAAAGAAC TGTATCTGCTACTTCCATTTAAATCATCTGCTGTGAAATTTTAAATTTGATGAACTGTATCTATATTACAAAGTTTTTGG AGTTATCTAAATTATACCTTTTGATCTGCTTTTCAGTCAATTACAAAAGCATACGGAAGAGTTGATCCTGATGGTTCTAG ATATTTACTTGGTGACCATACTGGGTTGCTTAGTCTGCTTGTAATAACCCATGAGAAAGAAAAGTAAGTGGTCACCCAAT GTCTTGTTTTACTGTTGGTAATAATCCTTAGATATTAATCTTCCCTGTGCATAAATTTTTTGATTATGGTAATAATCTGT ATTTTTTCTTAAAAAACCAACAATTCAGTATTATAACTGCTGAAAATTATGGTTTGTCATGTACATTTATTTTGTAGGGT TACAGGACTGAAAATTGAGCCCCTTGGGGAGACTTCCATTGCATCTACACTATCATACCTTGATAATGCATTTGTCTACA TTGGTTCAAGTTATGGAGATTCTCAGGTGGGTTAATAAATTTAAACAATGTTGTATAAATTGTTATCGACTCCATATTGA TATGATAGTTTTTTATCCAAAATTCCGACTCCCCTAAGTCCAACCACTTCTTTTGAACTTAGAATGACGACTCTGAATTA TGCATTATTTGTATGTGAAGTAGAGTCTGCATGCTATGTCGGAAGTTGAGTAATTGCCCATGTATTGTATTGAGAATTCG AACTCTTGAAAGTTCTAGTTTGAACTTTAAAGGTAGTTCTGAAAACATGGTTTGTTTATTTAGTAAATGGCAAGATTGTC AAACTCAAGTTTAGATATACTCAATTTGTAAATTTGAAGAGACTTTTGAAATGTTACTTAAAAATATTTTATCACCCCAC ACATAATTTAACAGCATATATATCGCAAATATTTAGGATTTCAACTTCATGACAAACAAAATGACAATAATAAAGTGAAA ACAAGTCAACAAGACAATATAAGGATGAACCGCCTCCTGTTCTTAGCTTCTTAACCAAAATCTGTATCATGTAGCTTTTG CAGTACTTGATGTATTTTCTTCACTGTTTACCCTGGTTATCTCTAGGTGTTTACTTTTACTTCCATATTCAGACATGATA ACATATTAACAATTTCTGATGGATGGAATACAGCTTATAAAACTAAATGTACAGCCTGATGCAAAAGGCTCTTATGTGGA TGTTTTGGAAAGGTATGTCAATTTGGGGCCAATTGTTGATTTCTGTGTGGTAGACCTTGAAAGGCAAGGCCAAGGTCAGG TTGTAACCTGCTCTGGAGCTTACAAGGATGGCTCTCTTCGTGTTGTCCGTAATGGAATAGGGATCAATGAACAGGTCAGT TCCCTTCCTATCGGCCCAGTGTGGGGCCTCTGCACCTGAGACATTTAAAAAAGATAAATTAAACTTTATCAAACAAAGCA TGCTTTGTAAAATAAATACTATTTCATTGATGTAGGCATCTGTAGAACTTCAAGGTATCAAAGGAATGTGGTCACTAAGA TCCTCAACAGATGATCCTTTTGACACTTTTCTGGTTGTTAGTTTCATAAGAGATACGAGAATCTTAGCAATGAACATTGA GGATGAGCTGGAAGAAATTGAGATTGAGGGATTCTGTTCTCTAGTACAGACATTGTTTTGCCATGATGCAGTTCACAATC AACTTGTACAAGTAGGTTCTGACCTTATTTTCCTGCTTTGGTGTTTTTTTTCTTTTCTTGTTGATTTCGACACCTGCATC TCTCTATCTAACTCTTCGAAAAATGGATGCTGAGAAAGCTATTCAATCTGCAGAATTGTTGTCATATGAATTTACAATCA AAATTAATTAGGCTTTCTATTTATTATGTTTTTCTACATGATTGCTTTCCTTGAAGTTTTAAATTGTTTCTCAACTAATC GAATATTAATTTAAAAAATGCACTGTTAGGATCCAATTGCAAGGTAATATTGGAACTATGCGATTCTAGTGTGGGGTTTA TAAGGCCTTGTGCTCTCCACAACAGCTAGCTTTTGTGGTATGATGCTCCCAAGGTTCTTAACAATTAGTATCTGAGCCTT CCACCATGTCTCTCAACTAAAGACGAGCGGCATGGGTGGTGATGCCGGCATTGCACTGTTTGCCTGGGGACTAATCAATG GGCTAGTGCACTGCCAGTCTACGTGGGCATTGGGGCTTTAGAGCGTGGTGTGATGTTAGGATCCAATTGCAAGGAATGAG ACTTGAGTCCCATATTGGAAATATAAGATTCTAGTGTGGGGTTTATAAGGCCTTGAGATATCCAACGACAATGGCTAGCC TTTGTGGTATGGTTCTCTCAAGGTTTTAACATGTATTACCCTTCCGTATTACAAATACCCATTCATTGTTTTAAACTTTT ACATTAAGATTAATGGCATGTTTAATCTTGAGATCTGTACAAAAGTTACCTGGAGTGTGAACAGATGCACATATGTGTTT TCAATCTTAACAAAGTCATTTAAAAAAAAAAGTTTTATTTCCCCATATCTTTACTTACTCAAGACAGAAGACAGGACTGC TTTCTTCGTATTACTATGGTGTTTGTACATAGAGTTTTAACAGGGGTTGCTTCAAAGTGTATCCTCAGTGATTCAAGTTT ATTAAGTGTGCATTTGCTTTAAATATCACTCTCCATTTTGTAATTGTGGTACTTTGAAATGAAATCAGCTTTATTAAAAG AAGATATATCATATGCACACGCAACAGACTTCATTAAGTGGGATGTGGCTCAGTTGTTGCTGCTGTCTTTGGTTTGTTTT TGTTCGGAAAATATAAGGAAGGAAATTTGGTTGAGTCTAAGGAGAACACACTGATATTAATGGGTTGTAAACTGAGTGAA CCAAAAATAATCGGAATCCATTGTAATTAAAATAAACAGATTTGAAATTATGCTTTATGTTTCTTGGAGCTTCTTGTGAA AGCTTAAGTCTTGCATGCTCATTTGTAGTTTGTTTGTGTGATCTTTGTAAGTTGATTCCATAAATTAACATTCATCATTT GTACTCTTCTATGTTTCTTGTTTTTGCTTATTTATTTTGTTGAAATGGTAGCTTTCCAATCATTAGCTAATAAACCAACA TAACAGGTCACCTCAAGCTCTGTGAGACTGGTCAGTTCCACAACTAGGGAGCTCCGGAATGAATGGCATGCACCAGAAGG CTATTCAATAAATGTAGCTACTGCAAATGCTACCCAGGTTTGATTCTTTTTTTTAAATGTTAATTTTAGACTATGGTGAT ATTTGCTTGTTGAATTTGAAACGTAGCTACTGTTAATTTTTGAATTCCCTTGAGCAATGATTTGATGGCTTTTGTAAGCA TGAAGGGGAGCATTCCCTGGAGGTTTTCAAAGAGCGATATGGCTCTACTTTTCAAATGCCTTCTTCCAGTATTATTATTT ACTTGGCATTTCCTTGGATTCTTCAATGATGCCTCTCACAATTAGTTTTTACTATATAGTATCAATGAAGCTATGTATAA GTTACCATTTGAGTGATTTAGCTTCAATCTATTTCATTATTTGTGCATTATGCACATTTCAGATGTTGGATTTTACTCCG CACACATTAAGTTTGTATCGAGTTGGTAATTATTGTTACACCTGGATACAGGTTTTGTTGGCCACAGGAGGTGGGCATTT AGTTTACCTCGAAATTGGAGATGGCATACTACAGGAAGTAAAGCACGCCCAACTGGAGTATGAGGTCTCATGCCTAGACA TAAATCCAATTGGTGAAAACCCCAATCAGAGTCATCTAGCAGCAGTTGGAATGTGGACTGACATAAGTGTTAGAATATTT TCTCTTCCTGACCTGAATCTCATCACAAAGGAGCATTTAGGAGGAGAGATAATACCTCGATCTGTTCTTCTTTGTGCGTT TGAAGGGGTGCGCTTTCCTTGACCTATCTTTTTGTGTACTGTTTTTTTTTTTGCTTCTGCGTAGGGTTGACTAATTTATT TTTCTGAAATGCCGGAAGACCATTTGGGGTACTCATTTCCTAAATTCTACTTTTAGAATGGGTTTTTCGGATTTTACACA TTTAAATGGTTTTGGGGAATAAACAAGATCAGCAACATTAATGTCTATTTTACTATTCTGCTCGAGTTACATATTTTTCT AATAATGCTCCAAGGATGAATTGACACATCTCCTAAGCTTCCATCTCATCTTTCTTAACTTCAATGGTAGTTTCCTAGTC TGAAGCTTTCTATTAAAGTGTATTGCTCATTTGCTCTTCATTTTATTCTCCAGATATCTTACTTGCTATGTGCCCTTGGT GATGGTCATCTCTTAAACTTTATGTTGAACACAAGTTCTGGCGAGTTAACAGATAGGAAAAAGGTCTCTCTTGGGACACA ACCTATTACACTGCGGACTTTCTCATCCAAGAATACTACCCATGTATTTGCCGCATCTGATCGGCCAACTGTGATTTATA GTAGTAACAAAAAATTACTGTATAGTAATGTGAATCTGAAGGAAGTGAGTCACATGTGCCCTTTCAACTCTGCTGCTATT CCTGACAGGTATATTTGTCTGTTTTAGTTTGACATCCAAGAATGGTTGATTTATCATTTATATCGTATTGTTGTTTCTGG GTTTCGTACTTCGATGCAAAATCCATTATTGGCGATGGTGATGGTGATGTATTCTGCTACTCATAATTTCAACAGTTTGG CAATTGCAAAAGAAGGTGAGCTCACTATTGGCACCATTGATGACATTCAAAAACTTCATATTCGCACAATTCCACTGGGG GAGCATGCACGGCGTATCTGTCACCAGGAACAATCAAGGACTTTTGCTATTTGCAGTTTGAAATACAACCATACAAGTGC TGAAGAATCTGAAAGTCATTTTGTCCGCTTGTTAGATGACCAGACTTTTGAGTTCATATCAACTTATCCACTTGACACTT ACGAGTATGGTTGCTTCATAATTAGCTGTTCCTTCTCAGATGATAATAACGTGTATTATTGCGTTGGAACAGCTTATGTA TTGCCAGAGGAAAGTGAACCAACCAAGGCAAGTTGAGAAATATATATTCTTTTCAGCTTTGGTCTTGTCAAAGCCTCTGA TCCTGATTTGTTGGCCTTTTCTAAACAAATGTAGGGAAGAATTCTTGTTTTTACTGTTGAAGATGGAAAGCTACAACTAA TTGCTGAGAAAGAGACAAAAGGAGCTGTTTACTGCTTGAATGCGTTCAATGGTAAATTGCTTGCTGCTATTAATCAAAAA ATTCAGCTGTATAAATGGGTGCTCCGGGATGATGGCACCCATGAGTTACAGTCTGAATGCGGACACCATGGACACATCCT AGCTCTATATGTGCAAACTAGAGGAGATTTCATTGTAGTTGGTGATCTGATGAAATCAATTTCCTTGTTGATCTATAAGG TAAGCCTTTAAGTGGTCTTAATGCTGAAGTTTATCTTCAAATAAATTTACTATCTTCAATGTTAACTTTTCCAACGATGC CATTTCCTTTTTATTCCCACTATTTTTTGAAAACCTGATAGAAGTCTTTGATTAGTTTCGTTAAATTTTGAACAGTTGTG ATCTTATCATTGTGAATGAATAGTTAATTTTCTTGATATTTACTCCATTTTCTTTCGGAATGATAAATTGTTGCTCTTCA TTATTTAAGCATGAAGAAGGTGCTATTGAGGAGAGAGCTCGTGACTACAATGCAAATTGGATGTCAGCTGTTGAAATCCT TGATGATGACGTATACCTAGGTACGGAAAATAGTTTCAATCTCTTTACAGTTCGGAAAAATAGTGAAGGTGCTACTGATG AAGAGCGGGGTCGTCTTGAAGTGATTGGTGAGTATCACCTTGGGGAATTTGTCAATCGGTTCCGGCATGGCTCCCTTGTC ATGCGCTTGCCGGATTCTGATGTCGGCCAGATTCCAACTGTTATTTTCGGCACCATTAATGGCGTTATCGGGGTAATTGC CTCTCTTCCTCATGAGCAGTATGTTTTCCTGGAGAAGCTCCAGTCAAATTTGAGGAAGGTGATTAAAGGCGTTGGAGGAC TGAGCCATGAGCAATGGAGGTCATTTAACAATGAGAAGAAAACTGCGGAAGCCAGAAACTTTTTGGATGGGGATTTGATT GAATCGTTTCTTGATCTTAACCGCAGTAAGATGGATGAGGTTTCCAAGGCATTGGACGTTTCTGTAGAAGAGTTATGCAA GAGAGTGGAAGAGTTGACTAGGTTGCACTGA
CDS sequence (LotjaGi4g1v0390500.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCAGAGTTGACCACAATGAGTTTGCTGACAAATTTGACAAATATAAACTATAAGCTTGAGGAGCTCCAAGTTTTGGA TATTAAATTTCTCTTTGGTTGTTCGAAGCCAACTATTGTGGTTCTTTACCAGGACAACAAAGATGCTCGTCATGTGAAAA CGTATGAGGTTGCTCTGAAGGATAAAGATTTTGTTGAGGGCCCATGGTCCCAGAATAACCTTGATAATGGGGCTGATTTA TTGATACCAGTTCCCTCTCCTCTTTGTGGTGTGCTTATTATTGGTGAAGAAACCATAGTATACTGTAGTGCCAATGCTTT CAAAGCTATTCCAATCAGACCTTCAATTACAAAAGCATACGGAAGAGTTGATCCTGATGGTTCTAGATATTTACTTGGTG ACCATACTGGGTTGCTTAGTCTGCTTGTAATAACCCATGAGAAAGAAAAGGTTACAGGACTGAAAATTGAGCCCCTTGGG GAGACTTCCATTGCATCTACACTATCATACCTTGATAATGCATTTGTCTACATTGGTTCAAGTTATGGAGATTCTCAGCT TATAAAACTAAATGTACAGCCTGATGCAAAAGGCTCTTATGTGGATGTTTTGGAAAGGTATGTCAATTTGGGGCCAATTG TTGATTTCTGTGTGGTAGACCTTGAAAGGCAAGGCCAAGGTCAGGTTGTAACCTGCTCTGGAGCTTACAAGGATGGCTCT CTTCGTGTTGTCCGTAATGGAATAGGGATCAATGAACAGGCATCTGTAGAACTTCAAGGTATCAAAGGAATGTGGTCACT AAGATCCTCAACAGATGATCCTTTTGACACTTTTCTGGTTGTTAGTTTCATAAGAGATACGAGAATCTTAGCAATGAACA TTGAGGATGAGCTGGAAGAAATTGAGATTGAGGGATTCTGTTCTCTAGTACAGACATTGTTTTGCCATGATGCAGTTCAC AATCAACTTGTACAAGTCACCTCAAGCTCTGTGAGACTGGTCAGTTCCACAACTAGGGAGCTCCGGAATGAATGGCATGC ACCAGAAGGCTATTCAATAAATGTAGCTACTGCAAATGCTACCCAGGTTTTGTTGGCCACAGGAGGTGGGCATTTAGTTT ACCTCGAAATTGGAGATGGCATACTACAGGAAGTAAAGCACGCCCAACTGGAGTATGAGGTCTCATGCCTAGACATAAAT CCAATTGGTGAAAACCCCAATCAGAGTCATCTAGCAGCAGTTGGAATGTGGACTGACATAAGTGTTAGAATATTTTCTCT TCCTGACCTGAATCTCATCACAAAGGAGCATTTAGGAGGAGAGATAATACCTCGATCTGTTCTTCTTTGTGCGTTTGAAG GGATATCTTACTTGCTATGTGCCCTTGGTGATGGTCATCTCTTAAACTTTATGTTGAACACAAGTTCTGGCGAGTTAACA GATAGGAAAAAGGTCTCTCTTGGGACACAACCTATTACACTGCGGACTTTCTCATCCAAGAATACTACCCATGTATTTGC CGCATCTGATCGGCCAACTGTGATTTATAGTAGTAACAAAAAATTACTGTATAGTAATGTGAATCTGAAGGAAGTGAGTC ACATGTGCCCTTTCAACTCTGCTGCTATTCCTGACAGTTTGGCAATTGCAAAAGAAGGTGAGCTCACTATTGGCACCATT GATGACATTCAAAAACTTCATATTCGCACAATTCCACTGGGGGAGCATGCACGGCGTATCTGTCACCAGGAACAATCAAG GACTTTTGCTATTTGCAGTTTGAAATACAACCATACAAGTGCTGAAGAATCTGAAAGTCATTTTGTCCGCTTGTTAGATG ACCAGACTTTTGAGTTCATATCAACTTATCCACTTGACACTTACGAGTATGGTTGCTTCATAATTAGCTGTTCCTTCTCA GATGATAATAACGTGTATTATTGCGTTGGAACAGCTTATGTATTGCCAGAGGAAAGTGAACCAACCAAGGGAAGAATTCT TGTTTTTACTGTTGAAGATGGAAAGCTACAACTAATTGCTGAGAAAGAGACAAAAGGAGCTGTTTACTGCTTGAATGCGT TCAATGGTAAATTGCTTGCTGCTATTAATCAAAAAATTCAGCTGTATAAATGGGTGCTCCGGGATGATGGCACCCATGAG TTACAGTCTGAATGCGGACACCATGGACACATCCTAGCTCTATATGTGCAAACTAGAGGAGATTTCATTGTAGTTGGTGA TCTGATGAAATCAATTTCCTTGTTGATCTATAAGCATGAAGAAGGTGCTATTGAGGAGAGAGCTCGTGACTACAATGCAA ATTGGATGTCAGCTGTTGAAATCCTTGATGATGACGTATACCTAGGTACGGAAAATAGTTTCAATCTCTTTACAGTTCGG AAAAATAGTGAAGGTGCTACTGATGAAGAGCGGGGTCGTCTTGAAGTGATTGGTGAGTATCACCTTGGGGAATTTGTCAA TCGGTTCCGGCATGGCTCCCTTGTCATGCGCTTGCCGGATTCTGATGTCGGCCAGATTCCAACTGTTATTTTCGGCACCA TTAATGGCGTTATCGGGGTAATTGCCTCTCTTCCTCATGAGCAGTATGTTTTCCTGGAGAAGCTCCAGTCAAATTTGAGG AAGGTGATTAAAGGCGTTGGAGGACTGAGCCATGAGCAATGGAGGTCATTTAACAATGAGAAGAAAACTGCGGAAGCCAG AAACTTTTTGGATGGGGATTTGATTGAATCGTTTCTTGATCTTAACCGCAGTAAGATGGATGAGGTTTCCAAGGCATTGG ACGTTTCTGTAGAAGAGTTATGCAAGAGAGTGGAAGAGTTGACTAGGTTGCACTGA
Protein sequence (LotjaGi4g1v0390500.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSELTTMSLLTNLTNINYKLEELQVLDIKFLFGCSKPTIVVLYQDNKDARHVKTYEVALKDKDFVEGPWSQNNLDNGADL LIPVPSPLCGVLIIGEETIVYCSANAFKAIPIRPSITKAYGRVDPDGSRYLLGDHTGLLSLLVITHEKEKVTGLKIEPLG ETSIASTLSYLDNAFVYIGSSYGDSQLIKLNVQPDAKGSYVDVLERYVNLGPIVDFCVVDLERQGQGQVVTCSGAYKDGS LRVVRNGIGINEQASVELQGIKGMWSLRSSTDDPFDTFLVVSFIRDTRILAMNIEDELEEIEIEGFCSLVQTLFCHDAVH NQLVQVTSSSVRLVSSTTRELRNEWHAPEGYSINVATANATQVLLATGGGHLVYLEIGDGILQEVKHAQLEYEVSCLDIN PIGENPNQSHLAAVGMWTDISVRIFSLPDLNLITKEHLGGEIIPRSVLLCAFEGISYLLCALGDGHLLNFMLNTSSGELT DRKKVSLGTQPITLRTFSSKNTTHVFAASDRPTVIYSSNKKLLYSNVNLKEVSHMCPFNSAAIPDSLAIAKEGELTIGTI DDIQKLHIRTIPLGEHARRICHQEQSRTFAICSLKYNHTSAEESESHFVRLLDDQTFEFISTYPLDTYEYGCFIISCSFS DDNNVYYCVGTAYVLPEESEPTKGRILVFTVEDGKLQLIAEKETKGAVYCLNAFNGKLLAAINQKIQLYKWVLRDDGTHE LQSECGHHGHILALYVQTRGDFIVVGDLMKSISLLIYKHEEGAIEERARDYNANWMSAVEILDDDVYLGTENSFNLFTVR KNSEGATDEERGRLEVIGEYHLGEFVNRFRHGSLVMRLPDSDVGQIPTVIFGTINGVIGVIASLPHEQYVFLEKLQSNLR KVIKGVGGLSHEQWRSFNNEKKTAEARNFLDGDLIESFLDLNRSKMDEVSKALDVSVEELCKRVEELTRLH
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 |
|---|---|---|---|---|---|---|
| Gene3D | 11 | 209 | 199 | 0.0 | ||
| PANTHER | 15 | 950 | 936 | 0.0 | – | |
| PANTHER | 15 | 950 | 936 | 0.0 | – | |
| Pfam | 16 | 399 | 384 | 1.6E-93 | – | |
| Gene3D | 210 | 837 | 628 | 0.0 | ||
| Gene3D | 248 | 565 | 318 | 0.0 | ||
| Coils | 284 | 304 | 21 | - | – | |
| SUPERFAMILY | 329 | 750 | 422 | 1.29E-11 | ||
| Pfam | 607 | 920 | 314 | 7.7E-80 | ||
| Gene3D | 866 | 951 | 86 | 1.1E-30 | – |
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 | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
| 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). | ||
| Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. |
Expression pattern of LotjaGi4g1v0390500.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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