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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0069100 |
| Transcript ID | LotjaGi2g1v0069100.3 |
| Related isoforms 4 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Disease resistance protein (TIR-NBS-LRR class), putative; TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|A0A072UZZ8|A0A072UZZ8_MEDTR Disease resistance protein (TIR-NBS-LRR class), putative; Found in the gene: LotjaGi2g1v0069100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:16398320..16415078) extracted from Lotus japonicus Gifu genome v1.2.
CTCACGATTTGAGATGCTCTAAACAAATTCATTGTCTCACACTAATCGATTCCAAGCCTTGGTGAGAACTCTCACTTTGA CTGATAAGGTTGGATCTGTGCAAGTTTCATTTTGCATCTGAACATCACTTCTTCAGAAACTTGGCCTCATAGTTTTTTTG TTTTCAGGTGCTTCTATTGTTGAAATAGGAAGATTGAATCCAAAAGTCTTTCAATGGCAGATTGTACCCAAAACTCAAAA TGGAAGTATCATGTTTTCTTGAGTTTTAGGGGAGAAGACACTCGCCTAGGTTTCACCGATCACTTATATGCAGCTTTGGT CCGCAAGAGTATAATAACTTTCAGAGATGATGAAGAACTTGCCAGAGGTGAAGTTATCTCACAAAAACTCCTGCATGCTA TTCACAAGTCTCTATCAGCAATTGTCATAATCTCCAAAAACTATGCTTCTTCATCTTGGTGTTTGGATGAATTGGTCAAG ATTCTTGAGACCAAAAATTTGTCGGGACAACAAGTGTTTCCGATCTTTTATGGTGTGGATCCCTCCGATGTAAGGAATCA AAGGGGAAGTTTTGCAGAAGCTTTTAGGAAACATGAAGAAAAATCTACTGAAAACAAAGAAAATGTGCAAAAATGGAGAG ATGCATTAAGAGAAGTGGCCAACTTGTCAGGGTGGGACTCTAAGGATCAGTAAGTCAATGCCTTCAATTATCATTTCAGT TGCAAACATCACAGCACCTAGTTTTCTTAACATCGATGTGTAAAAATTTGTCTTATTCCATTATATATGATTTTAATCTA ATCTATGAGTTCATTATTATTTTTTTCTTTTGTTCTATGCAGACATGAAACTGAACTAATTGAAGAAGTTGTTGCACAAG TATGGAAAAAATTAGAACTCAAATTCCCAACATATAATGATGGACTGGTTGCAATTGACACAAGACTAGAAGATTTATTT TCAATTTTGAAGCTAGGATTGGAGGGTGTTCGTTTCATAGGGATATGGGGCATGGGTGGTATAGGTAAAACAACTCTTGC TACAGCTCTCTTCAAGAAAATTAAAAGCCATTTTGATGTTAGCTGCTTTATTGCCAATGTTAGAGAGGTGTCTGGGGAAA GAAGTGAGGGTCTGCTGCAGTTGCAAAATAAAATTCTTTCTCATCTAAACATCAAAGGAATGGTAATTGAAACTTTAAGC GAAGGAAAGGACAGCTTAAGAAACCTCTTGTCCAGCAAAAGAGTTCTACTTGTCCTTGATGATGTAAGTTCTAAAACACA TCTTGAGAATTTGGCTGGAAACCTAGAATGGTTTGGTCAAGGGAGTAGAATTATAGTGACAACAAGGGATAAGCACCTGC TGATATCACACGTAGTGTTGTTTGAAATGTATGAGAATAAAATCTTAAATAAAAGTGAATCCCTTCAACTTTTATGTGAA AAGGCATTTAAAGGAAACCAACCTAAAGAGGATTATTTGAAATTGTCTCAAAGTGTAGTCGAATATGCTGGAGGCCTTCC CTTGGCTCTTGAAGTGTTGGGTTCTTTTCTTTGTGGAAGAAGTTTATCTGATTGGGAAGATGCATTGGTCAAGATGAAGC AAGTTCCACATGATGATATCCTAAACAAAATACGAATAAGTTATGACATGTTAGAAGAGGAACACAAGACCATATTTCTA GACATAGCCTGTTTTTTTAAGGGATGGTACAAACATAAAGTGATACAAGTTTTGGACAATTGCGGTCTTCATCCAACAGT GGGAATAAATGTTCTTATAGAAAAATCATTGGTAACTTTCGATGGAAGAGTTATTGGGATGCATGATCTTCTTGAAGAAA TGGGCAAAACTATTGTTTTTCAAGAGTCTCCTAATGATCCTGGTCGGCGGAGTAGATTATGGTCACTAGAGGATATTGAC CAAGTGCTAAAAAAGAATAAGGTACGTGCTAATTTTGATCTTAAATTATTTTTACTGCATTTCTTGTGTCTTATGTTCCC TATTTGACAATAATTATTTGTTAGGGGACTGAACTTGTCCAAGGTATAGTTTTGAAGTCAACACCTTCTAAGCTGTACGA AGCACATTGGGACCCTGAGGCCTTCTCAAAGATGTGTAATCTTCGATTACTCGTTGTATTATGTGATTTGCATCTTCCTC TTGGTTTGAAATGTCTTTCTAGCTCACTAAAAGTTCTTGTATGGTGGGGATATCCATTGAATGCTCTACCCCTTAAAGCT CAACTAGATGAGCTCGTTCACTTACAAATGATCAATAGTAAGGTTAAACAACTATGGAAGGGAACTCAGGTATAAAATTC TAAGCTAAGATAACTTCATATTATTTGGCCAGGGTTTTAAATACTAATTGGTTTCTTATTGTTTTGTTCAGTATTTTGGA AAGCTGAAAGTAATTGATTTAAGTAATTCCAAGGATCTACTTCAAACTCCAAATATCTCTGCAGTTCCTTACCTTGAAGA GTTGTACCTTAATGATTGTACAAAACTCTTTGAAGTTCACCAATCTATTGGACAGCACAAAAAGCTCATGATTTTGAGCT TGATGGGATGTGGAAATCTCAAAATCCTTCCAAGTAAATTGGAGATGTGTTCCCTGAAAATGTTCTTCCTTTCTGACTGC TCAGACATTGAAAGACTTCCTGATTTTGGGGAAAACATGACATCCGTTTCAGTGCTTAATTTGATGAAATGCAAAAGTCT TTTGTACCTTCCAGATAGCATTAGTAACCTGAAGTCTCTCAGAATTCTCAACATATCAGGATGCTCACAAGTTTTTTGCT TGCCAGATAATCTAAAACAAAACAAAGCTTTGGAGGATCTTGACTTGAGTAGAACTTCTATTAGAATGTTTGATCCATTC CTACTTCAGTTAGGGAATCTCAAAAGGTTATCTTTCTTGGGGTGCAGTGGACCACCATCCAACTCCAGCTGGGACTTACA TCTTCCTTTGGGGCTTAAGTTAAGGTTTTCCCCTGCCCGTACAGGCTTAAAATTGCCTCCTACTGTCTCAGGTCTTTCCT CATTAACTGTTTTGAATTTAAGTTTTTGCAATCTCACTGATGCTTCAATTCCTCCCGATATCGATCGCTTATCATCATTG GAGAGACTAATTTTAAGTTGGAACAATTTTACACACCTACCTGACTCCATTGCTAATCTTCCAAAGCTTCACTGTCTGGA ATTGGAAAATTGCCCAGAGCTTCAATCCTTACCTGTGCTTCCACCGCATGTACGCTTGTATGCATCAGATTCAGATGCAA TGCCGGGTAATTTATTAGATCCAGAAAAGTTATGGAAGTTGTTTGAATCAAGTGATCAAGAGCTTTTTCTGTCACCTGTA TCTCGAGTATGTGCTTCTACTTACTATAAGTTATTTACATACATCACACAAACCATTTGTTATAGCACATACATATATCT TTTGAATTTGATGATTCATGATAGGACATTACAACATCCTAACTTGATCTCAGCACTAAAATAACCACTTGTTATATGTG ATGTGTTCTTGAACTTCTCCAATTTTCATTAATTTTTTAAATACAATTTTTTTTTCATTGTTACAGAAGCTTGATTGGCC AGCACTCTATCCTGTGTACATGGAAATCCCGCCACGATTGGATACTAAGAGCTTTTTTCCCTTGGGGTCAGCATATATAT CAAAACTTGATTCATTTGCATCAGTAACAGTTGGCATCCCTGATGATTGTCTTTCAAGTGATTGGTGGGGAGTTGCTGTG TTGGTTGCCTTAGATGCTCAGTCTCCAGATGAAGGTTTTATGGCCAAACAAATGCGTATGTATTGGAGCTTTGACACTGA AGATGGTCCCTCTCTATCTCTGGCGTCGGGATCAACAGCGAATAATGACCTCTATCTGTTTACATTGGCAGTGAGTGATG ACTTTATATACATTCGACGGCACAATAGAGACGACCCGCCGTGGTGGAACCGAGAACACTTTAGCAAGCATCGAAAGCCA GAGCTGAATGAAAACAGTTTGGTGTGTTTTGAAGTGCACGTGGGAGGGTGCAAGATAAGAAAGTGTAGGTGGCGTGTGTT GCGCAAGGAAGATTGTATTGAAGACTTGCAAAACGTAAAGGGCCGTGGCCAACCTGTTAAGACTCGTCCTAGAGGTGAGA GCAAACTATCTATGGATGAATTCAAGGGAGAGGATGTTATTGCTTCGGAAGGATCCAAGGACAACTTCTCCATGGTAAGT AATCTAATAAGTAATAATGATAGCATCTCACTTGCACCGTTTTCACAGTAACAGATAGTAATGCTGTTTTAATGGATTTG AAAGTTCTTGATTCAACATCACTTGTTTAATTTTATTTGCCTGGTGGGTTATGAACCGTCATTCGACTGAGAAAGTATAA ACATGAAATTAAGCTCAATGTCGTGTAAATAAGAATTTCATGAAAGTTATGATAAGATTAAAAATAAAAGTTTTAGAAAG AAAAGTGTTAAGGTAACACTTATTATTATACAAAAGATAGTATAGCCTTAAATGGTTTAGCCATGAAGAAGATACATGGA AGTTTCATTCAGGAAGGTGGATCATATGAGAATAGGAGATTATGTTAGTGTTTGATTTGTGTATCTCACCCACCAAGAGC TTCTTGTTGTGTTTGAGTCAACAACTCCAAAGGAAAAGTATAACCAGTTTTGGCTGTTAAAATCTAATATCATCGAATAA AATGAAATATGAACACAGATGACTAAAATACCTATTTATTTTGGTAAGTAATCTAACAATAATAGCAGATGATGATGCCG TTTAAATGGATTTGAAAGTTCCTGATTGCAAATCTTTGGTATAATTTTGGTGGGTTATTGATAGAACACCAGAAATAACC GAGGAAATATGTATTACGGAACACAAATTACATACATACAACAATTCAATTGCTGTCCCAGAGACTACGGTTTCCTACAA AGAATGTTCTCTGTCCACAATCTACTAACAACAACAACAATAATCCCTATTCTGCCTAAAACCAGAGATATATCCTAAAA CATAACCAACATCAGTTATTTCCTACACATAAATTGCAACTAGCAGTTTCCTATAATTAAACATTATTCTAAAATATAAA ACTGCAGATCTGCATCAGTTATTGTCTACAAATAAGTGCTATTAAGCAGTTACTCTTACTGTCTCCTATGCCTTATGGTG TACACCTTCCAAATGGGTGGCTTAGCTGATTTATACGCTAGTAAATCTGACCCATTTCCATCATTTCCTCCTCCTGAAAA AGCAGCATTGTCCTCAAGGCTGAATGCAGGAAATTGGGTCTTCAAGATAATGTCTTCTATCCATGTGACATCTTCAGCTG ACATTCCCTTCCACTGTACTAAGAATTGCTTGACTGTTTTCCTTCCATCCTTAATGACTCGGCAGTCTAATATATTGTCT GGCTGCACCACATCATCCGAATGAAGCTCCAAATTTACAAGAAGCTCAGGTTCTGCTGTATAAGATCCAATGGCCTTCTT GAGCAAAGATGCATGGAAAATTGGGTGGACCCTTGAAGTCGGTGGAAGCTGCAATTTATACGAGACTGCTCCATACCTTT CTTTAAAAGGGCCACAATAACGTGGAGCTTGTTTCTGGTTGATGCGCATAGCAACTGATTGTTGCCAATGAGGTCGTAGA TTCAAGAAAATCCAATCACCAATTGCAAATTGTTGATCCCTTCTCTTCTTATCGGCATAATGCTTCATCTGTTCTTGTGC CCTTGTTAAGTGATATTTCAATTGATTTAAAGCCTCATCCCTTTCCTTTAAGTCTTGTGCAACCACTTCTGCTTTGGTTT ATCCGTATACAAATCTAACAATTGTAGGAGGCTTCCTTCCATAAACCACCTGAAAAAGGATACTGCCAGTAGAGACAGGA AAGGTGGTGTTGTACCATAATTCCGCCCATGGCAGCCAATAAGACCAATTCCTTGGCTTTTCAGAAGCAAAACACCTTAA ATAAGATTCCACACAGCGGTTCACCACTTCCGTTTGGCCATCTGTTTCTGGGTGGTATGAAGAAGACATCTTTAACACAG TACCTTGCAATGAAAACAGCTCTTGGCAAAAGATTCTTATAAACAAAGGATCACGGTCACTCAACATAGATTTAGGGATT CCATGCAACCGAACTATCTCCTTAGCAAATATTGCTGCTATACTCCTTGTTGTATAAGGGTGCTTAAGAAGAATAAAATG ACCATATTTTGAAAGTCTGTCCACTACTACTAATATTGCGCATAGTTGTCAATCCCGGAATGCGGTGCGTAGCAGCCGGC CCCAAAAGTGGGATAGCGGGATGGCTGCTATTTTTATTTTTTAAATATAAATAATAGTTTAATTCAATATACATATAAAT ACTAAAAAATGACAAATAGTACTTAAAATTGATAACATTCATAAATAGCTAATAGTCATAAGGTTTAAAAACTAAAGAAG TTCAAGCCTCCAAGGTTTAAAACATGAAACAACAACATTGAAATTTAAAATAAGAGTTACTAGACTCCTAGCTACATATG AAATCATCAATCATCATCTTCTTCTAGCTCGGGATCCTCATCATTGTCACTTTCACTTGTGTTCGAGTGGTAGATTTCTT CCTCCACCTCTTCCTCTTCACTTTCTAAATCAACTTCTTCTATCACCACTCCCTTGCCTCTTCTTTGTCCCCTCCCTCTA GTGGTTGAAGGCCTAGACTTAGTAGTAGAAGATGTATTGGCAGCATCAATTCCCCTTCTTGATGTCATCCTAGTATATGT CAATGGCTCATCAACACCTCCTGCATTGGCAACATCTCCCCAAATTAAGTCACCACCTTCAAAAACCAAATCATTTTCAG CATGTTCTTCTCCATCTTCACCCATTTCTCCCAACAACCACTCACAACTATCATCAATGCCATCTAGGACAATGTGGTCA ATGGAATCACGACAATTAAATCTTTCTTTAAGAGCTTGGTTGTATTGCACATAGACTAAATCTTGTAACTTTTGATGCTC AAGACGACTCCTCTTCTTTGAGTGAATCTATATTGTAATATAAAATAAATGTTAGTTTCATAATTATTTTATGAAACTCT AAAGTCTAAAGTCTAAACTAATACTTTATAAAAAAATATAAATAAAGTATTAACTTACATGCTCAAAGATACTCCAGTTT CGCTCACAACCGGATGAACTACACGTCAAGCTTAGCACTTTGATAGCAAGTGTCATCAAATGAGGAGTACTTTGTCCAAA TGACTTCCACCACTCAGCTACAAGGATATGGCGACATAGTTAGTTCATGATACTTTAATATTTAATCTAAATAAGGTTCT TTATTTTCACCTACCAGGAGGCAATATATTCCTTGATCTTATGACTTGTTTCCTTCCAAAGAAGCCTCCAGCCACCTTAA ACTCAGCCAATTCCAGGATAATTTTATCCCCTACTTCATCATTCTCACTAAGTGTATTCAATACATGTGTAGACACCATC CATGATTTCTCTATTACGTTCCATATCCGGATTAGCATAAAAGTATTCCGGATTTAGAAAATGTCCCGCAGCATGCAATG GACGGTGAAGTTGACATTCCCATCTTTTGTCAATTATTGCCCAAATCTCCTTGTACTTGCTTTCATTTCCTTTAAAACCA CTTTTAATGGCCTCCTTAGCCCTATCCATTGCCTCATATATGTAACCCATTGCCGGCTTCTTTTCATTATCAACAAGCCT TAGGACATGCACCAATGGCCCCATAGACCTAAGACAATAAGCAACATCATTCCAAAATGTGTTCATGAGAACCACATTTG CTGCCCCTTTCCCCTTAGTGGCTTTAGCTAAGTTAGTCTTTGTCCAATCATCTGAAGTGAACATCTTCCTAAGGTTGTTT CTTTGAGTGTACAACCTTTGCAAAGTGAAAAACGTGGTGGAAAATCTTGTAACTCCATGTCTAACCAATTCTAATTTGTT GTTGTACTTTCTCATGGTGTTCAATGCCAAAGTGTGATTGTAGAAAAAGCCAACAAGACTTATACCCCTTTTGATGGTCT TTTGAACTCTTTTAAGTTTGCCAATGTCTTCTAATATCAAATCAATGCAATGTGCAACACATGAAGTCCAAAATAAGTGC TTCCTCTTAGCTTGTAGAAGTTTACCTAAGACCTAATTCCAAATTAAAAAATTGAAATGAGCAACATATTATCACTAACA CACTAACAAAGTAATTAGCAAAGTAATAGTTAACGTTACATACCGGCCAATACATAATTGCTTCCGTTGTCGGTCACCAC TTGCACAACATTCTTCTCACCAATCTCCTCAACAAGGTTGTCCAAAAGAATGAATAACTTTTCTCCGGTCTTCATGTATG AAGATCCATCAACACTCCTGACAAACATAGATCCACCTGGGCTATTCACTAGAAAATTTATCAAAGTCCTTTGCTTCCTA TCTGTCCAAGCATCGGACATAATCGAGCAACCATACTTTGCCCTCTCTTCCACATTTTTTATTATCAAGTTTTGGGTGTA TTCCAACTCCTTTTTTAGGAGTGGAATTCTCATCTCATGGTAGCTTGGAGCTTTCAAGTGAGGGTCATAGTTTCCAATAG CCTCAAACATCAACATGAAGCTCTTTAATCGCACAACATTGAATGAAATGCTATTCCGAACAAAGAATCTAGCAATATAT TGGATTGTCCTTGCTCTAGCTTCTTTATCACATGCATCATTCATGCTTGTCTGCTTCTTAGCTTTTGTCAACTTCAAGCT TGTCTCCGGATCTCTCATAAGAAGTAAATCCAAGGGGCCTTTAACATTTGGCTTCTTAGGAGCAGCAGAGGAAGCCCCAC TTGAACTTAAAGGCCTTTTCCCACTTTTAATTGACACAATTTCTTGCAACTAATCTTCCTCCTCATCATCTTGATTCAAT TCAGTCAAGTGTTCTTGTTGCCCTTGGTTCTTAGCAAGAGCTTCCTTCAACAACAACACCACTTCTTCTGGAACTTTCCT ACATGAATTACAATCTCCCTTTTTTTTTTTTCATTTGATGACGTTTTGCCCTTGTAATTCCTCCTCAAGTTGTCACCCCA CAAAAATCACATGTTACTCTCTTCCTATCATGTGGATTCTTCAAGTTGTTCCACTGTCATGATATATCAATGTTGTCTCC TATAGGCTTGTAAAGCCCATTTTCAGTCCGCTTGCAGTTGCCTACAACTTCACTGTTGTTTGGTTCAACTTCAGAGGGGG ATGCCATGGCTGGTCATATACAGCACTTCAGTAGCAATGGAAATCAGAAATTAAGAAAGGGAGTTACTGCAGTAGTGCAG TGAGCACAAAACCGAAATTAAGAAGAGTAAAACAAATTAAAAACAGAGCATTACTGCAGTGAAGAGGCAAAAGCACAAAA CCAAAAATAGAAAGGGAAAGAGGGGAAAAAAGAGGAAAACAAAATAAAACAGAGCATGTTACTTATTGCAGTGAACACAA CCGAAAGAGAAAGAGGGGAAAGAAGAGGAAAATGAGAAAAACAGAGAGGGAAAGTGAGAAGACGAAAATGAAAAACAGAG AGGGAAAGAGACGAAGACGAAAAGAAAGAGAAAGCAAAGGATGAAAACTAATCTCTGATGAAGCTTCTCGCCGGAGAAGA AGCTTGTCGCCGACGTCGGAGAAGAAGCTTGGTCAATGAGAGAAGGAAGAGAGGCTCAGAAGGAGGAAGCGGCGGAGTGA ACTGAACGGAGAGAATGAATGAATGATTCATTGAGAATCATTTGACCTAATTTCCAATTCCATTCAACTTTACTGTTATG CCCTTGACTTGAAGCTCATACGGTTTAAAATTAAGGGGTATTGTGTCATTTCCCCTACAGATTCAATGGAACCTGTGTAG CCGCGATTTAACCGCGATTTGGCTGCGATTTGGCCGCGAATAGCGCCACAACGGCCGCGAACTGGCCGCGAACCGTAGCG ACGCGTCCGATAGTGCCGCTATTCGGCGCGATCGATAACTATGCGTCATACCCTTTGGATTTTGGAAGACCAGTGATGAA ATTCAAGGATATATCCTCCCAAACCTGTGAAGGAATAGGTAAAGGTTGTAACAAACCATTAGGGGATTTTGCTAAATACT TTTGCCTCCGACAAGTATCACATGATTTAACATACTCCATCACAGTTTTTTTCATGCCTTCCCAATAAAGATTCCCTGCC AATCTCTTATATGTCCGTAGATATAATGAATGCCCCCTAGTCGTAGAAGAATGGAACTCCTGCAACAATGCAGGAATAAT AGAGGAATTAGATGGAATGACCCATCTATCCTTGTATAGCAACATTCCTTGTTGTAGAGAATATCCAGGTCTAGCATTAG GCTTCTGTTTCCGCTGAACTATTATTTTCTTCAAATCTGGATTCTTGTACACTTCTGCATAAATATCTTTCCCTTGCAAC CAGATTGGTGTGGAAACAATAGTTTGTAATGCTCCTTCTTCATGTACTCGAGACAAAGCATCTGCTGCCCTATTTTATTT CCCAAGCTTATACACAATGTCAAAATGAAATCCCAATAACTTAGCCAGCCAACATTGTTGGTCAGCTGTAATGATGCACT GTTCCAACAAGAATTTGAGACTTTTTTTGATCCGTATGCACCAAAAATTTCCGCCCTAACAAATAATGTCTCCAATGATT TATAGCCAACACCAATGCCATTAATTATTTTTCATAAACTGATTTATTCATGCTGCTGCCAGAAAGGGCTTTACTAAAGT ATGCTATGGGTTTTTGTTGCTGCATAAGCATGGCCCCAATACCTATCCCATTTTGCCATAGTTTAGTATTAACTTTCTGT AATAGCCAGTCAAACCCAGAAATCCCCTAACACCCTTAACATTTTTAGGGACTGGCCGCTCCAAAACACTCTTCACTTTT GTTGGATCTACTGCTACTCCTTGATTAGAAATCACATGACCCAAATACTCTACATATCTTCTCCCAAAAACTGCATTTCT TGTGGTTGGCTACAAATTGATGATCTTTTAACACCTGTAGCTCTTGTGATACGTGTTGTAAATCAGAATCCCAATCAACG CTATATACCAAGACATCAACAAGAAACACCAATACAAATCTACGCAAGAAAGGTTTAAAAATCTGATTCATCACAGATTA AAATGTGGCAGGAGCATTGGTCAAACCAAAAGGCATCACTAAGAATTCATAATGCCCTTCGTGAGTTCTGAAAGCCTTCT TGTGTATATCCTCTTCTTTCACGCGAATTTGATGATTACTTGACTTCAGGTCCAACTTCGAAAAATAGCCAGCACCATAT AACTCATCAATTAATTCATCAACCACAGGGTTAAGGTATTTATCTCGTACGGACACTTTATTTAAAGCTCTATAATCAAT GCACATTCTCCATGAAGAATCTTTCGTTTTAACTAATATTACAAGACAGTGTTGTTAAATAGCGGCTATAGCGGCCGCGA CGTGCTATAGCGTAGCGGGAAATAGCACCACCGCAATCGTTATGCCGCTACATAGCGGCCACCGCGTTAATCGCGATCGC GGCCGCGAACGCCATAGTGGCGTTATTCCAGAATCGGAAATATCGGATTTGATGGATTTTAAACTTTTTTTAGCTACTTT TTAGGGTTTTAAATATGGAATATCTCTACTAATGGGCCACAAACAATTCCCACTAATTACCCTAATTATTTCCCTATTAA CTACTTCTCTATATTAACGCTTCAACGTGAGAGGATTGACAGACATTCCAAATTCACCTTCTTCTCTCCTCTCCTTCGAA TTATTTCTGGTTCTCAGAGACCTGGACTTCTCTAGACTACAGCACAGTAGCAAGCAAACCTTCTCAGAGTTTCTGCTTTC TGGTGAGTAGATCATACTCTATTTTCCGCATCCTCTATTTTTTGTTGAAAACTTATACTCAGTTTTTCAATGTTTCTTCT TCCTTTACTCTTAACTTATAATAACTTCCTGTTTCATGGTTTTCTTCTCTGTTACTATTTTTCTTAACAGTCATCTTCTC TTTTTCTTTTATTTTTGTTCAAAACTCATGCTCTGTTTTTCAATGTTTCTTCTTCCTTTTCTCTTAACTTATAATATCTT CCTGTTTCACGGTTTTCTAATCAACTCTGTTTTTCTAACAGTCTATGTCATCTTCTCTTTTTCTTTTCTATAATTCTTCT TCCTCCAATTCTTCTTCTGTTCCTCTATTCTTATCTCTTATGTGTACTGTTTTATTTTGAAAACTCAGAAACCATGGTTG CACAAGGTTCCAATTCAACCCTAGTTCTTGCAGCACCTCAAAGGCCTGACCCTGGCTGGAAATTTTGTAAGCCATATGAT GTGAACGATACCATTCGCTGTATTTGCAATTTCTGTGGTAAAATGACAAAGGGTGGAATTACAAGAATGAAGGAGCACTT GATGGCGAAGACAGGGAATGTCGCACCTTGTCCTAAGTGTCCGAAAGAGGTTCGAGATAAATTGTGGGGAATCTTGAATG AAAAGAAAAAGAAAGACAGCGAAGCATATTAAAGGGGTCGCCTTGATCTTCTTGATGATGGCTGCCTCCGTGGTGATAGT GATGAAGAACGTGCTATGGATGAAGGACTGGAGATTGCAACCATAGAAAATAAAAAGAAAAAGGTTCTGAAGGGCCAGAT TGATATGTATCTCCGAAAACTAGAAAGTGCCATTGTAAAGAAGAAGAATGAGAATTTAAGGCAGGAAAGCATCGGAGCCT CATGTGATAAGGAGGCTACATCAAGAGTTCATCAGTATATTGCCCGCTTTTGGTATCAAGCGGGCTTGTCTTTTAACATG GTTAAGTTGCAAAGCTTTCATGACATGCTTGCGGCTGTTGGAAGCTTCAGACCTCATTTAAAAGCTCCTCCATATCATGA CATAAGGGTTCCACTTCTTACAAAGGAGGTAGACTACACTGAGAATTTGCTGAAGGGCCAGAAGGAGCAATGGAAAAGAT TTGGTTGCTCTATTATGTCTGATGCATGGACTGATAGAAAACAAAGATCAATTATTAACTTCATGGTGAATTGTTCAGCT GGAACAATGTTTCTAAAATTGGTTGATGCCTATGATTATGTGAAAGCTGGTGAGAAACTATTTGAGCTGCTTGACTCCAT AATTGATGAGGTTGGGGAAGAGAATGTTGTTCAGGTTATAACCGACAATGGCAGCAACTATGTGAGTGCGGGAAAGATGC TACAACAAAAAAGACCCAACTTATATTGGACACCATGTGCAACTCACTGCATAGATTTAATGTTGGAAGACATTGGAAAG ATTCCTCTCATAAAGAAAACAATTCAAAGAGCCATATCTCTTGTTGATTTCATCTACGGTCACACTAGTACATTGAGCTT GTTGAGGTACTATACCAAGAAAAGAGAATTGGTAAGGCATGCTGTTACAAGATTTGCAACATCCTATCTTACATTGAGAA GATTGCGGAAGGAGAAGGAGAAATTGACGGAGATGTTTGTGTCACACACTTGGACAAATAACAAGCTGTCCAACGAGCCA AAAGGCAAGCAAGCTACAAAAACCGTTTTGATGAACTCTTTCTGGAACAGTGTGTGTTTTATATTAAAGGTAATTTTGTT GTTTCTGTTTTTCTATTTTTTTCACATTTTACTGTTTCTGTTTTTCTATTTTTTTTAAATCTGAAACTATTTTTTCCCTC TTTTTTTTCCATACACTCAAGGTCATGGGTCCATTTGTACGTGTACTACGCTTAGCAGATAGGAAGAAGAAATCCGCTAT GGGTTATATCTATGAGGCTATGGATAAGGCCAAAGAAGCAATCAGAGCTTTCCTTTGTGATGACAAAAGCAAATATGAAA AAATCTGGGAAATCATATACAATAGGTGGAATAGCCAACTACATCGCTCATTGCATGCTGCTGGCCACTTCCTGAACCCA GAGTACTACTACAATGATTCAAAATTGGACTATGATTTTGAGGTGCAGAAAGGTTGTCACCTAATGATGATCTAAGGAAG AAAATACTCACCGAGCTACCAATTTACAAATCTGGTGGTGGTATGTTTGGTAGCAAGTTTGCAATTGAACAAAGGGGCAA AATTGCACCAGGTGAGCACAATTGAATATCTTTATATGTTATATTGTTAATGCATTTGGATTGCATAACATTTGACTTAT AATTGGATTTTGGACTTATGCTTTTGTAGCTCAATGGTGCAGAATGTATGGACAATCAACACCAAATTTGACATGGTTGG CAATAAAGATTTTAAGTTTGACTTGCGGTGCTTTAGGGTGTGAACGGAATTGGAGTGTGTTTGAGCAAGTAAGCTCTTCA ACTAATCAACTATACTATTTGCTAATATTTATTCTTGTAGTTGTTAACTTTTAAATGTCACTTTAGTTTAGATTTTAATT TTATTACCTTATCATCTTTATAGATTCATACAAAGAAAAGAAATAAGCTTGAGCATAAAAGACTTGAGGACTTGGTATTT GTCAAGTATAATCAAGAACTAGTAAGAAGGTACAATATTAGAGATGAGTTGGACCCTATCTCCTTGGATGACATTGATGA GAGCAATGAATGCCTAGTGGGGACGATGGAAGAGGATGGAGATGATGCTGGAAATGATAGGGTGTTTCCGGATGATGACC TCACTTGGGATGTTGTTTAGAAAGCTTCAGGAATTGGAGAGCCTAGTACTAACACTAGGCGAGGAACTAGAAAGAGAAAA GGGGTCCCAGCTGCTGCAGATATTTCATCTAAGAAGAAAGGTGTTATTGCTTCCAAGAAAGGAAAAGAGCCGATTGTTAT TGAAGATGAAGAAGAAGAGATTTCAGACAATGATTTGGAGGACTCTGAAATAGAAGCTGATGGATATGTTCCACTTTCTG ATGATGTGGATGATGAAAATTCTGGGGAGGAGGAAGAAGATAACGAGTAGAATTGACTTTTGTTGCACTACCTTTAGTGT TTTGAGGCTTCAGTTTAAATTATGTTGTTTTAAGTACTTTTGTTATTTGTTTTGAGCTGTTGAGCAGCCTTGAATTATGT TGTTTTGAGACTTGCGCTAAAATTATGTTGTTTTATGTACTTTTGTCTTTTGTTTTGAGCTGTTGGGCAGCCTTGAATTA AGTTGTTTTGAGACTTTGAGTTAAAATTATGTTGTTTTAAGAACTTTTGTCTTTTTATTTGCACAAACAGCTTGTGATAA GAGCTGTTTTTTTGTATAATATTGTACTTATTTTAACCGCTATGCGGTAACCACTATTTTCCCGTGACGCGATCCGCTAT ACGAAATAGCGGATTTTGGCCTCGCCGCGATCGCGATTTGACAACACTGTACAAGACTAGAGAATGCACTAGAGCTAGGG CGAATGAAACCTTGTTGCAACATAACATACACTTGTCTTTCAATTTCATTTTTGTAATGGTGAAGATATTTGTAGGGTCG ATCACTCACTGGCCCCACTCATAAGAAATATCCCTGTCAGGTGGCAACTCATCTAACTCCATTTCGGATTCTTTCCAATG CTGCTCTGCTGCCAAAACTTAGGCCGAACATTATAACCACTAGCTGCTATAATTGTTTCACAGTTTTCTGCTTCTATAAC TTGTGCTAATTCCATGGCCTGCAAACATGGCTTTGGTTTAAATGTATGGACCCTCCGTTTGATGTGTGGTTGTAAGCCTC CAACGAAATAGCTCAGATATTGTTCTTCAGGTAATCTGGTTAGCAGTTACTCTTGTTGTCTCCTATGCCAGAACATACAC CTTCCAAATGGATGGCTTAGCTGATTTATACGCTAGTAAATCTGACTCATTTACATCAGTTATTGTTAGAGAAATAATAT AAAATCATTAATGTGACTCTTACCCAACAACTTAAGTTTTTTGGATAATTGATTGTTTGACATGGTATCAGAGTTTCATG TCTAAGCGGTCTAGAGTTCAATCCCTACCATCCCAATTTTTCTGATAAAAAAGTTGAATTTCAGTACACGATAGGTAAGT CTGTGCATTTGTCCACGCTTCAAGCCGAAATGGCTCTTGCGTGAGGGGGCGTGTTATGAAGATAATATAAAATCATTCAT GTGCTCCGTACTCAACAGTTTAAGCTTTTGCGATAATTGATTATTTGAAAACAATAGGCTAAATCATTAAGAACTAATGA CAGAAGATTACGATCATGTTTGATTTGTGTATCCTCCCCCACCAACAGGGATAAACTTGGCTTCTTGTTGATGTTGAATT AACAACTTAAATGGAAAAATATCTTGGAATTGGATACTGTTCCATAAAGTTAGTCTTGGAATTGGCTCCATTGTGGCATG CTTCATGTAGCCCCTATGGTTAAAGGTTTTGTTTAAGAGTGTTTACGGAAAGAGAGAGGAAGGATTTGAGAGGAAGGGGA AGAAGAGGGGAGGGAAAGAGAGCGAGAATGGAGAGTAAGTCCTCCACTTGTTTGAAAGCTTAAGATTCCACAAACCCCTA AATTCAGGAGAACTCAACAAAATAACTAAAGAGGGTCTTGGAGAATATTCAAATATTCTGCAAACCCTTTCCCTTTTTTA AAAAAACTCTCAAATAAGTGGAGACCGTCCCATTTCCTTCCCTCATCTCCGAAATCCAAATAACAACTATAGCCTAAAGA AATTATATTTTTGGCCCCAAATATACATATTTATGCACA
CDS sequence (LotjaGi2g1v0069100.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCAGATTGTACCCAAAACTCAAAATGGAAGTATCATGTTTTCTTGAGTTTTAGGGGAGAAGACACTCGCCTAGGTTT CACCGATCACTTATATGCAGCTTTGGTCCGCAAGAGTATAATAACTTTCAGAGATGATGAAGAACTTGCCAGAGGTGAAG TTATCTCACAAAAACTCCTGCATGCTATTCACAAGTCTCTATCAGCAATTGTCATAATCTCCAAAAACTATGCTTCTTCA TCTTGGTGTTTGGATGAATTGGTCAAGATTCTTGAGACCAAAAATTTGTCGGGACAACAAGTGTTTCCGATCTTTTATGG TGTGGATCCCTCCGATGTAAGGAATCAAAGGGGAAGTTTTGCAGAAGCTTTTAGGAAACATGAAGAAAAATCTACTGAAA ACAAAGAAAATGTGCAAAAATGGAGAGATGCATTAAGAGAAGTGGCCAACTTGTCAGGGTGGGACTCTAAGGATCAACAT GAAACTGAACTAATTGAAGAAGTTGTTGCACAAGTATGGAAAAAATTAGAACTCAAATTCCCAACATATAATGATGGACT GGTTGCAATTGACACAAGACTAGAAGATTTATTTTCAATTTTGAAGCTAGGATTGGAGGGTGTTCGTTTCATAGGGATAT GGGGCATGGGTGGTATAGGTAAAACAACTCTTGCTACAGCTCTCTTCAAGAAAATTAAAAGCCATTTTGATGTTAGCTGC TTTATTGCCAATGTTAGAGAGGTGTCTGGGGAAAGAAGTGAGGGTCTGCTGCAGTTGCAAAATAAAATTCTTTCTCATCT AAACATCAAAGGAATGGTAATTGAAACTTTAAGCGAAGGAAAGGACAGCTTAAGAAACCTCTTGTCCAGCAAAAGAGTTC TACTTGTCCTTGATGATGTAAGTTCTAAAACACATCTTGAGAATTTGGCTGGAAACCTAGAATGGTTTGGTCAAGGGAGT AGAATTATAGTGACAACAAGGGATAAGCACCTGCTGATATCACACGTAGTGTTGTTTGAAATGTATGAGAATAAAATCTT AAATAAAAGTGAATCCCTTCAACTTTTATGTGAAAAGGCATTTAAAGGAAACCAACCTAAAGAGGATTATTTGAAATTGT CTCAAAGTGTAGTCGAATATGCTGGAGGCCTTCCCTTGGCTCTTGAAGTGTTGGGTTCTTTTCTTTGTGGAAGAAGTTTA TCTGATTGGGAAGATGCATTGGTCAAGATGAAGCAAGTTCCACATGATGATATCCTAAACAAAATACGAATAAGTTATGA CATGTTAGAAGAGGAACACAAGACCATATTTCTAGACATAGCCTGTTTTTTTAAGGGATGGTACAAACATAAAGTGATAC AAGTTTTGGACAATTGCGGTCTTCATCCAACAGTGGGAATAAATGTTCTTATAGAAAAATCATTGGTAACTTTCGATGGA AGAGTTATTGGGATGCATGATCTTCTTGAAGAAATGGGCAAAACTATTGTTTTTCAAGAGTCTCCTAATGATCCTGGTCG GCGGAGTAGATTATGGTCACTAGAGGATATTGACCAAGTGCTAAAAAAGAATAAGGGGACTGAACTTGTCCAAGGTATAG TTTTGAAGTCAACACCTTCTAAGCTGTACGAAGCACATTGGGACCCTGAGGCCTTCTCAAAGATGTGTAATCTTCGATTA CTCGTTGTATTATGTGATTTGCATCTTCCTCTTGGTTTGAAATGTCTTTCTAGCTCACTAAAAGTTCTTGTATGGTGGGG ATATCCATTGAATGCTCTACCCCTTAAAGCTCAACTAGATGAGCTCGTTCACTTACAAATGATCAATAGTAAGGTTAAAC AACTATGGAAGGGAACTCAGTATTTTGGAAAGCTGAAAGTAATTGATTTAAGTAATTCCAAGGATCTACTTCAAACTCCA AATATCTCTGCAGTTCCTTACCTTGAAGAGTTGTACCTTAATGATTGTACAAAACTCTTTGAAGTTCACCAATCTATTGG ACAGCACAAAAAGCTCATGATTTTGAGCTTGATGGGATGTGGAAATCTCAAAATCCTTCCAAGTAAATTGGAGATGTGTT CCCTGAAAATGTTCTTCCTTTCTGACTGCTCAGACATTGAAAGACTTCCTGATTTTGGGGAAAACATGACATCCGTTTCA GTGCTTAATTTGATGAAATGCAAAAGTCTTTTGTACCTTCCAGATAGCATTAGTAACCTGAAGTCTCTCAGAATTCTCAA CATATCAGGATGCTCACAAGTTTTTTGCTTGCCAGATAATCTAAAACAAAACAAAGCTTTGGAGGATCTTGACTTGAGTA GAACTTCTATTAGAATGTTTGATCCATTCCTACTTCAGTTAGGGAATCTCAAAAGGTTATCTTTCTTGGGGTGCAGTGGA CCACCATCCAACTCCAGCTGGGACTTACATCTTCCTTTGGGGCTTAAGTTAAGGTTTTCCCCTGCCCGTACAGGCTTAAA ATTGCCTCCTACTGTCTCAGGTCTTTCCTCATTAACTGTTTTGAATTTAAGTTTTTGCAATCTCACTGATGCTTCAATTC CTCCCGATATCGATCGCTTATCATCATTGGAGAGACTAATTTTAAGTTGGAACAATTTTACACACCTACCTGACTCCATT GCTAATCTTCCAAAGCTTCACTGTCTGGAATTGGAAAATTGCCCAGAGCTTCAATCCTTACCTGTGCTTCCACCGCATGT ACGCTTGTATGCATCAGATTCAGATGCAATGCCGGGTAATTTATTAGATCCAGAAAAGTTATGGAAGTTGTTTGAATCAA GTGATCAAGAGCTTTTTCTGTCACCTGTATCTCGAAAGCTTGATTGGCCAGCACTCTATCCTGTGTACATGGAAATCCCG CCACGATTGGATACTAAGAGCTTTTTTCCCTTGGGGTCAGCATATATATCAAAACTTGATTCATTTGCATCAGTAACAGT TGGCATCCCTGATGATTGTCTTTCAAGTGATTGGTGGGGAGTTGCTGTGTTGGTTGCCTTAGATGCTCAGTCTCCAGATG AAGGTTTTATGGCCAAACAAATGCGTATGTATTGGAGCTTTGACACTGAAGATGGTCCCTCTCTATCTCTGGCGTCGGGA TCAACAGCGAATAATGACCTCTATCTGTTTACATTGGCAGTGAGTGATGACTTTATATACATTCGACGGCACAATAGAGA CGACCCGCCGTGGTGGAACCGAGAACACTTTAGCAAGCATCGAAAGCCAGAGCTGAATGAAAACAGTTTGGTGTGTTTTG AAGTGCACGTGGGAGGGTGCAAGATAAGAAAGTGTAGGTGGCGTGTGTTGCGCAAGGAAGATTGTATTGAAGACTTGCAA AACGTAAAGGGCCGTGGCCAACCTGTTAAGACTCGTCCTAGAGGTGAGAGCAAACTATCTATGGATGAATTCAAGGGAGA GGATGTTATTGCTTCGGAAGGATCCAAGGACAACTTCTCCATGGTAAGTAATCTAATAAGTAATAATGATAGCATCTCAC TTGCACCGTTTTCACAGTAA
Protein sequence (LotjaGi2g1v0069100.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MADCTQNSKWKYHVFLSFRGEDTRLGFTDHLYAALVRKSIITFRDDEELARGEVISQKLLHAIHKSLSAIVIISKNYASS SWCLDELVKILETKNLSGQQVFPIFYGVDPSDVRNQRGSFAEAFRKHEEKSTENKENVQKWRDALREVANLSGWDSKDQH ETELIEEVVAQVWKKLELKFPTYNDGLVAIDTRLEDLFSILKLGLEGVRFIGIWGMGGIGKTTLATALFKKIKSHFDVSC FIANVREVSGERSEGLLQLQNKILSHLNIKGMVIETLSEGKDSLRNLLSSKRVLLVLDDVSSKTHLENLAGNLEWFGQGS RIIVTTRDKHLLISHVVLFEMYENKILNKSESLQLLCEKAFKGNQPKEDYLKLSQSVVEYAGGLPLALEVLGSFLCGRSL SDWEDALVKMKQVPHDDILNKIRISYDMLEEEHKTIFLDIACFFKGWYKHKVIQVLDNCGLHPTVGINVLIEKSLVTFDG RVIGMHDLLEEMGKTIVFQESPNDPGRRSRLWSLEDIDQVLKKNKGTELVQGIVLKSTPSKLYEAHWDPEAFSKMCNLRL LVVLCDLHLPLGLKCLSSSLKVLVWWGYPLNALPLKAQLDELVHLQMINSKVKQLWKGTQYFGKLKVIDLSNSKDLLQTP NISAVPYLEELYLNDCTKLFEVHQSIGQHKKLMILSLMGCGNLKILPSKLEMCSLKMFFLSDCSDIERLPDFGENMTSVS VLNLMKCKSLLYLPDSISNLKSLRILNISGCSQVFCLPDNLKQNKALEDLDLSRTSIRMFDPFLLQLGNLKRLSFLGCSG PPSNSSWDLHLPLGLKLRFSPARTGLKLPPTVSGLSSLTVLNLSFCNLTDASIPPDIDRLSSLERLILSWNNFTHLPDSI ANLPKLHCLELENCPELQSLPVLPPHVRLYASDSDAMPGNLLDPEKLWKLFESSDQELFLSPVSRKLDWPALYPVYMEIP PRLDTKSFFPLGSAYISKLDSFASVTVGIPDDCLSSDWWGVAVLVALDAQSPDEGFMAKQMRMYWSFDTEDGPSLSLASG STANNDLYLFTLAVSDDFIYIRRHNRDDPPWWNREHFSKHRKPELNENSLVCFEVHVGGCKIRKCRWRVLRKEDCIEDLQ NVKGRGQPVKTRPRGESKLSMDEFKGEDVIASEGSKDNFSMVSNLISNNDSISLAPFSQ
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 |
|---|---|---|---|---|---|---|
| SUPERFAMILY | 3 | 154 | 152 | 3.79E-43 | ||
| Gene3D | 5 | 177 | 173 | 1.4E-70 | ||
| PANTHER | 7 | 905 | 899 | 4.9E-248 | – | |
| PANTHER | 7 | 905 | 899 | 4.9E-248 | – | |
| ProSiteProfiles | 10 | 151 | 142 | 27.436 | ||
| SMART | 11 | 151 | 141 | 3.2E-45 | ||
| Pfam | 11 | 182 | 172 | 3.5E-48 | ||
| SUPERFAMILY | 176 | 440 | 265 | 1.61E-62 | ||
| Gene3D | 178 | 337 | 160 | 1.1E-33 | – | |
| Pfam | 208 | 412 | 205 | 6.5E-34 | ||
| PRINTS | 210 | 225 | 16 | 6.7E-25 | – | |
| PRINTS | 287 | 301 | 15 | 6.7E-25 | – | |
| PRINTS | 381 | 395 | 15 | 6.7E-25 | – | |
| SUPERFAMILY | 417 | 522 | 106 | 5.71E-15 | ||
| Gene3D | 546 | 692 | 147 | 1.6E-13 | ||
| SUPERFAMILY | 579 | 898 | 320 | 1.73E-32 | – | |
| Gene3D | 693 | 913 | 221 | 4.0E-34 | ||
| PRINTS | 738 | 754 | 17 | 6.7E-25 | – | |
| SMART | 835 | 859 | 25 | 67.0 | ||
| SMART | 860 | 883 | 24 | 0.039 |
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 | 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. | ||
| Molecular function | ADP binding | Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate. |
Expression pattern of LotjaGi2g1v0069100.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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