Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0718300
Transcript ID	LotjaGi1g1v0718300.1
Related isoforms 1	LotjaGi1g1v0718300.2
Lotus japonicus genome version	Gifu v1.2
Description	Copalyldiphosphate synthase; TAIR: AT4G02780.1 Terpenoid cyclases/Protein prenyltransferases superfamily protein; Swiss-Prot: sp\|O04408\|KSA_PEA Ent-copalyl diphosphate synthase, chloroplastic; TrEMBL-Plants: tr\|K7KF95\|K7KF95_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0718300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:128678214..128689768) extracted from Lotus japonicus Gifu genome v1.2.

CATGCACTCATTAGCGGGAATCTCTTGGGAAGTCATTTCTGTCTGCTTGCCTCTCCACTCCCTTTTAAACTCAACAATTT CTTGCATCAACTCAACAAATTGCACATCATGTCTTCTCACTTCACCACCCACTACCAACACCACCTTCCCTCTTTCTCTT CTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCAAGCATTCCCCTTTTCCCTCTTCTATTTCTCTTTCTCATCACTTC TCCAAATCCTCTAAGGGTAAGTCCAATTAATTTCTTCATTTCATTTCTTACACACCTTGTTGAATGAATCATATCAACAA CATCTTCTTGATTCATCTTCTCTAATTAATCTGCCATCAAAAAATGTTTAATTTATTGTCTATATCAATTTTAAGCTGTG TCTTCTATTTTCTGTTTACCGTAGAATGTGAAAGTACAGAAAGTTGCATACTGATTTTGTAGAAAACTACATCTGCTGAA TGGAGCATCAAATTCATCAAATTGTATATCATCACAAATTCACAAATGTATTTTTTTGTTACTTAGCCAACCCTGTTTTA TTCAGAATATCACCCCCATCATATTACATATGTCTTTTTTTTCATTAACTTTTAGCTCTCAAGATTTCACTATCAAGCAG AGGCTATAATTGTAGGATGTGTTGTCTGTAGTTTCCTGCGCCACCTAAAAGGAAAAGGACAGAAAAAGGAGAAGGGTGGA ATAGTTTTTTTTTTCACTGGAAGCTGAAAGTAGTATAGTACTTATTTCCAAAACCAACAAAAGTATTTCAAATGAAAGGT TCTTATTTTTGTTTTTGCATCATTTTATAATATAGGTGTGGTGTCATCAGAGGCTAAAGACAAACAAGAGAAAAGATGCA GAGCAATATCAAAATCACGAACTCAAGGTATAGTTGGAGATTGATTCTGACTAGTTTTTTAATTATTTGAATTAAATAAT TTAATTGGTAGTTTATTAATTGATTCATGTTGTGCTGCAGAATATGCAGAAGTATTTCAGAATAGTCTAACAACTTTAAA GTTGCATGATATTGATGTGGAGGATGACACACATGAGGAGCAAGCTATTGGGGTACTTTTCAATTAAGATTATTTATATT AACTTTCTCAGTTCTCTGTTTTTCTTAATTCACCATTTCTTTTGTTTTTCTCTGACATGTGCAATGTTCATTTGGTTACT TGTGAAAAGAAGGTTTCTGTGACAAATGAGATTCAAAAGAGAGTGGAGGCTATCAAATCAATACTGGGACTAATGGAAGA TGGAGAGATAACCATATCTGCTTATGACACAGCTTGGGTTGCTCTTGTTGAAGATGTTCATGGAAGTGGTACCCCTCAAT TTCCTTCAAGTCTTGAATGGATTGCAAAAAATCAACTTGCTGATGGTTCATGGGGTGATAGTGAATTGTTCTCAGCACAT GATCGAATCATTAACACGTTGGCTTGTGTTATTGCATTGAGAACATGGAATATGCACCCTGAAAAGTGTGAGAAAGGTAA TATATTTACCCTAAAATCATGGATAAATGGTGTCACGCTTTCTGCAGTCAATGTAAAACTTTGCCGATATGTTTGATATG GATCTGTGATCATATAGCCAACCTCGGGGTTTCAAATTGTGGTTGCCCCTGCGTTGCTGAAATGCGGTTTATTACGGCAG CAATAGCAGTCGTGATGCTGATGCGGGACCTTAAAACCCGTTATGCTACAGTCGCATTTGCGGTTGCTGGCCGCAATTTG AAACCCGACCGACCTCACATAGTGCGATAAGGCTTTGGCTACCGTTGCAGCTTCCGAATTCCGGTTTAATAGATGGTTAT TTGATAATCACTATTTATTAATGTCATACATGTGTGTATATTGTGCAGGAATGGCATTTTTCAGAGAAAAACTTAGCAAG CTTGAGGATGAGAATGCTGAACATATGCCAATTGGGTTTGAGGTTGCTTTCCCTTCACTTCTGGACATAGCTCGTGGTTT GAACATTGAAGTGCCTGATGATTCCCCAATATTGAAGGACATATTTGCCAAGAGAGATGAAAAACTCACAAGGTATGTCA TAGTTGTGGTCTAAATGGTTATGCTTTACAGCACCCATGTCTATGTTGATAATAGATTCAAAGTAACCTTATCTCACAAA CTCTTTTTAATTATTTTCCCTAAGTTTGCGCAAGCTCTCTTTAACATGTGTGTGTCATTATTGTGTTGTGTTGTGGTTTA ATTAATTATGCGGGCCTTGGTGTGTGTGTTTGGGAAATAGAATACCAGGAGAGATGATGCATAAAGTGCCCACAACTCTG CTTCATAGCTTGGAGGGTATGTCAGACTTAGATTGGAAACAACTTCTAAAACTGCAATCTGAAGATGGATCATTCTTGTT TTCTCCATCCTCCACCGCCTTTGCACTCATGCAAACCAAGGATGAAAATTGCCTCAAATACTTGAATAATGCTGTCACCA AGTTCAATGGGGGAGGTAAAGTCCACACAACTATAAAATATCTTTCTTAATTAAATTGTTTCTAGCAGTTTGGATCAGCT TTACATACACTAAAAATCAATTGTTTTTAGTAGAAGTTATCAATTTCACTTTAATCAAAATGAATTATGAATACTCTCAT AAGTTTCCCCTTATAATTGTTTCTGGCATCATAATTAATGTAAAAGAGTTTTAAATTGCGGTATGCTACCGCAATTCCAG CCGCAACACTACAGGTTTTGAAGTCTCCACATTGACGTCAAATTCTCAATTACGGCCGCATCAATGAACATTTAACTATC CATAATCCCAAACGTAGCGGCAACTACAATTGAGACCACAACCACAATTTAACACCTTGACAGTAAGATTGTCAGAGTAG TTTCGCCACGATGACTTTTTAAACATGCACTTTTGTGAATGTTCACATCTCAATATATTCCAATTCAATTCCCTCTTTTC CATATTGTCTATCAGTGTTGTCAAATAGCAGATATCGTGACACTTTAGTGCTACAGTGTAGCGTTATGAGGGTTCACACA ACTTTAAGGGCTCGACATAGCGAATTTTTAACTTTATGTTATTTTCCACGATCCGCAACTAACAACACTATTATATGTGG CCTATATCAGTTCCAAACGTGTATCCGGTGGATTTGTTTGAACATATTTGGGTGGTTGATAGGCTAGAACGCCTAGGAAT ATCAAGGTATTTTCAGCAAGAGATCAAGGACTGTATGAGTTATGTTTACAGGTAATTTATTTAATAATTATTGACCCTCA AATTAATTATAATATTTGGGTATGAGACAGAGCTTTACCATGCTAAGCAATTGTAATTCATGAAATAAAATTTCAGATAT TGGACTGAAAAGGGCATTTGTTGGGCAAGAAATTCAAATGTTCAGGACATTGATGACACAGCAATGGGTTTCAGGTTACT AAGATTACATGGCCACCAAGTTTCAGCAGGTAATTAGTATTAATCAGATAACATAACATTATCATTAATTGAAATGCTTT CTTAGTATTAAAGTGGTAATGGAATTTTGATTTCATATTTTTGTAGATGTGTTCAAGCACTTTGAGAGGAATGGTGAATT CTTCTGCTTTGCTGGGCAGAGCACGCAAGCAGTGACAGGAATGTTCAATCTGTATAGGGCCACTCAAGTAGTGTTTCCAG AGGAGAAGATTCTTGAAAATGCAAAGCAATTCTCTGCAAAGTTTTTGAGGGAAAAGAGAGCAGCAAATGAGCTAATAGAT AAATGGATCATAATGAAGAATTTGCCTGAAGAGGTAAGTAATCCATCAATTGCAATCATGTAATTGACAAATAGGGAAAA ATGACGGAGATTCTCGGTTCTTAAATTATGTCATTTTCCCGGTCAAGCCAATGAAATTACTAATTAGGGAGTCAGGTAAA ATGACAGCAAATGAGGACAAATGATTTCAGCCAAAGGAAAAAATGGCTTATATGAGTACACACCATTATTCTAGTTAGAG TTTAATTTCTACTTACGAAGGGGTGTAAAAAAAATTACACAGTCAACCAATTATATTTTAAGAATATAGGAAAATCTGTT TTTTTATTATTTAATTTCATTAATTGACGTGACACATTCTTACAATCTTATTGATTGGCAGTGTTAAAAAACTTTACACT GTTAGTGCATCATCATTTTTCTCTTTTAGTTATATTTTGAGTCAGGACACTTTCATCCTAAAAAATGAAAATTAGATTTA TTATCTTTGAAAGATGAGAAAAATGATAAAAAATTAAATTCTTTTTAAGAACTAAATTGATAATGTAAAAGAACTATAAT ATTGTATTTTTTTATTATTATTCTCTTTCAGGAACGGTGGGTTAGGAACGGTGACTCACTCTTTCTTTAAAATTGAATTT GAAACTTGATATTTATAAAAGTTTCTCTTCAAAATTGATTGTCTAGTAACCACTAGGTCATGCGACATAAATTGTACTTT AGTACTAATGAATGAATGAATGAATAAATGATGTATGTGTTCCGCAGGTGGGTTACGCATTGGATGTGCCATGGTATGCA AACTTACCACGAGTGGAGACAAGATTCTACATTGATCAATATGGTGGTGAGAGTGACGTATGGATTGGCAAAACTCTTTA TAGGTACTTACCTTTGTTTCTTTGTTCTTTCTTTTTAAGATTAAAACAACTACATTGCTATTTATGGAAATAGTTATATT AGATGTTTAACATAAGATTTTTTTTTTTTTAGGTAAGCAAATTTGTATTAAAAGTGAGTACAAGGGGTACTCAACCCATA ATACATCAAGGACCAAAACGAAACCAAAAACAAAGAAAAAACCAGCATAAACCAGCTAGTAATAACAGCCCACCAAACCA TAAAAAACAATAAAACCCCTCCAACATAACAGAACATAAGATAAAGTGATATAAAAAGTGAGGCAATCACGACACGTTAA GCAACTAAGAGCTTGGCCAAATTCTTGAAATCATGCATTTGGTCAAACTAGTACACAAATTTAGGTGATAATTAATTTAA TCTCTCTCCTAACTCGTGGGCATTGATATATTAAAATAATAGTGAATTCAAAATGTATTTTTTACATAATACATGCTTAG GTGTTGCTTAATTTTGAGAATAATTATATTTTTAGAAAATAGTTTCTTAAAAATAAACTAATTCAAACACAAGACTTAGT GCCAGAATAATAATTTACGTGGTAAAAGTTATGAGACATATATATTGAGTATGAGAGATCCAAGGATAGAGATTGATCCA TGGAAATCCCATGTGGGAAAAAAAAGTGATTTATAATTCATTCATTAGCTCTTGGTCAAAATCATACAAACAGATTAATG GATTTTTTATTGGTTTGATTAGAGTGAAGCTTTGTGTTCTTAAACCTGTCCACTATAATAGCCTAGGCACATACCAAAGG AAGATGTTAGGTGGCATCTTTAAAAACAATATAAGTATCTTATTATGAGATTGAGAATGATGTGAAGATCGGGAAAGTTT GTTGCATGCACACTTAAACATGAGGTTAATCAGATGGTTGTTTAATTGCTTGACAAATTTGGTTCATGACCTGGATATGG GTATCCATGAATGGCACAAAGCCACAAACCTTCCTCTCAGATCTCTAGCACTTCTTTCCCACGTTCTACTCATTTGCAGT TTCTTTCTTTGGGTTTAGTCCTCATATAAAAAGACTAATATATATTATATATAACTAATTTTTATAACCTGTATGAGGTG GAATGGTTAATATTTAATTTTCTCTCCTAACTTGTGCCATTGATCAATTAATATTTTCTTAAGCAAATACATGCTTAGGC ACTTCGCCGTTGCTTAAAGATCATTTCTCTAAAACAAACCTATCAAAACACACATTGGAAATCTTATGATTTACTCTTTT CGTCCCTTATTATAAGATATTTTATTGTGAGACAATAAGGGGTCTTGTAATATATGACGGAGAAAGTCTAATTTATTCAT TAATTGTTGAGATTTTTTTTATAAACGGAGCAAAAGAAGTTGTTGAGAATTTCTAACATTTAAAAGTTAATATTAGTCAA AATCATACAGCCTGAAATCATCAATATAATTGTTTTTTGTATTGATTTGATTAAACTAAAGCTTAATTATTTTGTTAAAC CAGACTACAATTAATTCCAGCCTTGGCACATGGTCAACGGATGATGTTAGGAATGACATTTAACAACTAAATAAGACAGA CTTATAATATTTTGGTTTAGATAAAAGTGGAAAGAAATCCTACCTGACACACACAACAGTGCTAATGCCAGGCTAACAAA ATCATCAGAAGTTCAACCCAAGAGATTATCTCACATACCTAAACCAGAAACAATTTTATATAGTCACATGTGAAGTAAAT AAGACAGAAATTGATTCTTATAAATCTAATATGAAAACCCTAAGAATAATTATGTATGTCCTTTAAAAAAACTGATGTCA GGAAAATATAATATTATGGGCTGGGACATCCTAATTAGTATTTTACAAATACTAAATAATATATCAAGTAATAATAAATT TTACTTTTTTTTAATCGTGAATCAGGAAAAACATGGTTCACAATTCAAAATGTTTCTTGGCAAATTAGTTTTAGCAGATA AAAAACATATTGCAATTGACATATACTGAATGCTAGTTTTAAAATTATGGTTTATAGGTACACCAATTTTTAACATGATC TACCAAAGTGTTTAGTAAATTCAAAATTGGTTCAATATGATGTTTAACAAATGTTAGCTTAATCAATTACTTCTGTAAAT AAAGAATGATTTGTTGGGAGGAGCCTACCAGTGTAATGTAAATCTTAAAGCTTCGAGGAAATTAATCTCATGGCTACCAA CTGTGAGATAGGTGCATCAAAAATAATAATTTGACAAATTAAGATTGATTATTTCTTATATATATTTAATTAGTACTATT TTTAATACACTTTCTCTTGCAAGTATTTCCCTGAATTTAATTGCTCTTCTTTCACAGGATGGCTTATGTGAACAACAACA ATTATCTGGAGCTTGCTAAATTAGACTACAACTATTGCCAAGCATTGCATCTAGCTGAATGGGGGGAAATTCAAAAGTAA GAGCATCAGAAACCATTCCAAATTGAAAAAATAATCCAATATAAGATTATTTTTTATAATGGTTATTTTGACAATATCTC TAGTTAGTGTAGGACTTCTGAACACTCTATAACACAATTATCACTGAACTTTCGCTTTTGCAATGACATTGTATCAGGTG GTACTCAGAATCAAGATTGGGAGAGTTTGGATTGAGCAGAAGGAATCTTTTGTTGGCCTATTTTCTGGCAGCAGCTAGCA TCTATGAGCCTGAGAGGTCCCATGAGAGGCTTGCATGGGCCAAAGCCACAGCATTGCTTGAGACATTAGCATCCTATGTT TGTGATGCAGAAATGAGAAAAGATTTTGTGGAAAATTTCAGTGATTGCATCAACAAGCTTGACTACTCCATTGGCTGGTA AATCAATTGATTATAAATATTCAAACATGACAAGTTTTGTCTCAATCGCTTATATAGAGATGCTGCTTTATCTGTTTCAT AACATTGGCACTTGAATTTCAGTCGGTAGTGTACATTTTTAGCTAGAGATGCATGTAACTTACATACCCTTTTAATTGCC TAGTGATGTATGCATGTATAGTGATGAGCAACCTTTAACCAAAGTTTTGTCCATTGTGCTGAATACACTTTTGGAGTTTT CTTTTACTTTCTTTTCCCCAATCATTTTGTAACAGGCACCAAATTGTCTTGTCCACCTAGAGTTAGCATTCTTGTTAGCT ATTAATCTGCAAAGAATTTAGTAGAGTCATGACTTAAGTGTATGTTTGAAAATTCTAAAATCAAAATTAATTATGGGGAG AAGTTTCACCGAGTAGTTTTCAGATGTCAGAATTGATATTGGAAAAAAATAAGCCGATCTAAACACATTATAAATCATTT GAAGATTGACTTGTGCAATTGTACATGTACTCTAGCTAAATGATAAATTGAACACAATTTTGAATGTGTATGAATGCAGG AGGTTGAACAGGAGCAAAACAGGACATGGACTGGCTGAGACTTTGGTTGCAACCATAGACCAGATCTCCTGGGACATACT TGTGTCTCATGGTCATGAAATTGGACATGATATGCATCACACTGTGAGTTTTCCTTACCTTAATCCCTTTTGATTAATTT CAATTCAGGAAATTTATTATAGGATAAAATCTTAATTAGTCCTTCATAGTAATAAAATGTGGACTATAAACTAAGGTGTG ATTAATTTAAGTGACACATATTTAATTCTCTTTAAATAAAGTTTTGAATTAAAGTCATGTGTATGAAAAAAAATCACGCT AAAAAGCCAATCACACCATGATGTATTCATGTCTTGAACATAATCCTAACTCAATTGTAATTCATTAGTTTTTAACTGTT GATTCGTTGTCATTTATTAAAAACTCATAATTTCAACGGCTGAAAACTGAAGATCGCGGGTGGCCCATTTAAAAATTTGA CTGGGATTATTTCTTTAACATGAATTTTTTTCTCCCTTCCACTTTTTTGTCTTCTGAGATGGGGCTCTGTCACCCTTTTA CATTTCTCATTGACATAATGATTTTACAAGTTATGGCACATGATTGAGCATCAAAGCAAAGTGAGGTACTGGGTTCCAAT GAATGAGTTTGATTTTTATGAACAATTATAAATTTATAATACTACAGTGGAAAAAGTGGCTATCAAGTTGGGAAAGTGGA GGAGGGGACAATTGTGAAGGACAGGCAGAGCTTTTGGTGCAAACAATCAAACTAACCGCGGGCCATTGGATTTCTGAGGA GCAAATGTTGAGTCCACAATACCAGCGTCTCCTTCAACTCACCAACACACTCTGTCATACACTCAGTTGCTATCAAAAGG ACAAGGTCAGTGACTCTGCAACTAGTACATCCTAGGTTATAAATACTACATACTTTTCAATTTTTGATCTTGTTTGAATT AATAGCGCGTTTAGATCGACGGTGGAAACATAATTTAAAGTACGGTAACCCGAGGATATACTTTACAACTTCAACTTAAA AGTGATTATAGGGTTTTGATCGACTTAACATACTTTGACTTTTTTTCCTCTCAAAATCAATTCTAGCTCATAGAACGGTT AAATCTCACATTTATTAGAGATATAGTTAAATAAGTTTTTTTATGTGAGAAGAAAATCGTCACATATGAACTAACTTTTA GTGTAGAGTTAGATATAACTCAAATTTTAAAATGATATCAAAAAATATCCTAAATTCCCGCAAATATTCATTGCAAATTT CACCATACAGTTGTCAGCCCTGAATGTGAGAGAGTATGCTAAGATTTCATATTTATTAAAGATATAACTAAATAAGTTTT TATATGTAGAAAGAAAATCATCACCTCTAAACTGACTTTTGGGGTAAATTAAAGTCTAACTAAAATTTTAAAATTGGTTC TTATTGTTATAAAACAATCAAAGTGTCTCTTACCCAATAGTTTAAGCTTTTGAATTAATTGGTTGCTTGATATGGTATCA GAACCTCTATGACCGAGGGGTCTATAGTTCGATCATTGCTCCCCTTACTTTCTAATTAAAAAGTAGAATTTAAGCACATG GTAGACAAGTATGTGCATTTATCCACGCTTCAAGTCCAAATAACTCTTGCGGAAGGGGACATGTTAGAATATAATATAAA ACTATTAAAGTGACTCTTACCCAGTAGCTTAAGCTAAATAGTAGATTAGTTGCTTGATATTTGTGAAGCTAAAATCAATT TTGAGGAGAAGTTTGTGTGAGTGAGTAGCTTCTGCTATGAGTTTCATAATTGATTCTGAAAAGACAGAAACTTATCGATA ATGCATGTTTCTACAATTATCTTAAAGATAAAATTGGTTAAGGAACCTTCAAAATTCAAATGGGTATAAAAAAAAATTGT CATATAGATAAGTTAATGAAAAGGGATCACGAGATCAGAAAAAGGAAATGGGGAGGGGGATTACCGCAATAGCTGTTTGG TCATGATCAAACAGTTCCAAATCGTATGTCTCTTTAATTTGTCTGTATCTCTGTTTTGCTTATTAAGAATTGACACATAA ATTATTTGAAAATATGCCTGTCAAAATGAGGAGTTACTAATCCTTAATAGATATGTACTTTTTTTAAATGATGTATCAGC TTCTAATAGGCGAGACATAAATTAAGACATGGAAAAGGGATATAAAGACTATTGATCTTCTCTAAATAATGCATAATTGA ACACTTGTGGACAGAACAAAGCTCAAATCACTTGTGAATAATTAAGTGTTTAGCACTTAAGTATGCATAATTGAAGTACC TCACACAGCATCATCCAGCACACAAACTTTGTCGTTTCGTATAGTGCTGCACTATGCATGCACTATCTTCAAGTTTGATC AACTCCATAAATATCTCTTGCAGAAATTATTAGAGAAATATTATGTGCACAAGTTCTGTGCCTTACAGTAACTAATCAAT TATATGTTATTGGACAAATATTGTATACACAAGTTGTGTGCATGCCTCATAGAACTAATAAGTTACTGATTTATATTAAA AATAATACTACTTACATAAGTTAATTTGTATCATGCAATTGTTTTATGTGAACAACAATATATTATTTATTGATTGATGT AATCTATTCAACTTTCTAAGTAACAAGTGTATTTCTTAATGAAATTATTTATCAGGAATCCAAGAACGACAACATCACAA TTCCAGAAGTAGAGTCAGAAATGCAAGAACTCGTGCAATTGGTGTTCCAAAAATCTCCAAATGGCATTGATTTCAATATC AAGAATACTTTCTTGATAGTGGCAAAGAGTTTCTACTACACAACATTCTGTGATTCACGGACAATCAACTTCCATATTGC CAAAGTTCTCTTTGATGAAGTAGTTTAATCAAACTCAGTGTCTTGATTCTTGAAAAGATTCGCCATTATTATTGATAATT AAAAGGAAAGGAAAAAATAGTTGTTGGGGTTTGATTTATATAACTTTTTTAAGTTTACAAATTATTGAATCAAATAAAGT TGGAAAACTATGAATAAATTTTGTTTTTAGATAATGTCAGTAACTTTTTTTTTAATTGGTACATATAAGTGAGTGCAATA GATGGATGTGGAATTGTTTTTAAAACAACCTATAAATAATAAAACCCACTCAAGTCATGTATTACTGTATTTTTTTACAA GATAACCATATTTTCATGCTAAATAGTAAACACCACTATGAAAACGAATAATTAGATTTCAAAGATATTAGAAAATGTTA TTTATTTAATTTAGTTAGTTAATGTAGCATATTTTTAAAATTAAATTGGTTAACAGTGTAAAAATATTTTACATTGTCAA TACATCATCTTTTTTTATTATTAAATAGATTCTCTATACCAAAAGAATTGTCTCTTTTCTATGGTTAGTGTGCAATATCC AATAATTTCTTATTTGAACTTATTTAATAATTTAC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0718300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCTTCTCACTTCACCACCCACTACCAACACCACCTTCCCTCTTTCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTC TTCTTCCAAGCATTCCCCTTTTCCCTCTTCTATTTCTCTTTCTCATCACTTCTCCAAATCCTCTAAGGGTGTGGTGTCAT CAGAGGCTAAAGACAAACAAGAGAAAAGATGCAGAGCAATATCAAAATCACGAACTCAAGAATATGCAGAAGTATTTCAG AATAGTCTAACAACTTTAAAGTTGCATGATATTGATGTGGAGGATGACACACATGAGGAGCAAGCTATTGGGGTTTCTGT GACAAATGAGATTCAAAAGAGAGTGGAGGCTATCAAATCAATACTGGGACTAATGGAAGATGGAGAGATAACCATATCTG CTTATGACACAGCTTGGGTTGCTCTTGTTGAAGATGTTCATGGAAGTGGTACCCCTCAATTTCCTTCAAGTCTTGAATGG ATTGCAAAAAATCAACTTGCTGATGGTTCATGGGGTGATAGTGAATTGTTCTCAGCACATGATCGAATCATTAACACGTT GGCTTGTGTTATTGCATTGAGAACATGGAATATGCACCCTGAAAAGTGTGAGAAAGGAATGGCATTTTTCAGAGAAAAAC TTAGCAAGCTTGAGGATGAGAATGCTGAACATATGCCAATTGGGTTTGAGGTTGCTTTCCCTTCACTTCTGGACATAGCT CGTGGTTTGAACATTGAAGTGCCTGATGATTCCCCAATATTGAAGGACATATTTGCCAAGAGAGATGAAAAACTCACAAG AATACCAGGAGAGATGATGCATAAAGTGCCCACAACTCTGCTTCATAGCTTGGAGGGTATGTCAGACTTAGATTGGAAAC AACTTCTAAAACTGCAATCTGAAGATGGATCATTCTTGTTTTCTCCATCCTCCACCGCCTTTGCACTCATGCAAACCAAG GATGAAAATTGCCTCAAATACTTGAATAATGCTGTCACCAAGTTCAATGGGGGAGTTCCAAACGTGTATCCGGTGGATTT GTTTGAACATATTTGGGTGGTTGATAGGCTAGAACGCCTAGGAATATCAAGGTATTTTCAGCAAGAGATCAAGGACTGTA TGAGTTATGTTTACAGATATTGGACTGAAAAGGGCATTTGTTGGGCAAGAAATTCAAATGTTCAGGACATTGATGACACA GCAATGGGTTTCAGGTTACTAAGATTACATGGCCACCAAGTTTCAGCAGATGTGTTCAAGCACTTTGAGAGGAATGGTGA ATTCTTCTGCTTTGCTGGGCAGAGCACGCAAGCAGTGACAGGAATGTTCAATCTGTATAGGGCCACTCAAGTAGTGTTTC CAGAGGAGAAGATTCTTGAAAATGCAAAGCAATTCTCTGCAAAGTTTTTGAGGGAAAAGAGAGCAGCAAATGAGCTAATA GATAAATGGATCATAATGAAGAATTTGCCTGAAGAGGTGGGTTACGCATTGGATGTGCCATGGTATGCAAACTTACCACG AGTGGAGACAAGATTCTACATTGATCAATATGGTGGTGAGAGTGACGTATGGATTGGCAAAACTCTTTATAGGATGGCTT ATGTGAACAACAACAATTATCTGGAGCTTGCTAAATTAGACTACAACTATTGCCAAGCATTGCATCTAGCTGAATGGGGG GAAATTCAAAAGTGGTACTCAGAATCAAGATTGGGAGAGTTTGGATTGAGCAGAAGGAATCTTTTGTTGGCCTATTTTCT GGCAGCAGCTAGCATCTATGAGCCTGAGAGGTCCCATGAGAGGCTTGCATGGGCCAAAGCCACAGCATTGCTTGAGACAT TAGCATCCTATGTTTGTGATGCAGAAATGAGAAAAGATTTTGTGGAAAATTTCAGTGATTGCATCAACAAGCTTGACTAC TCCATTGGCTGGAGGTTGAACAGGAGCAAAACAGGACATGGACTGGCTGAGACTTTGGTTGCAACCATAGACCAGATCTC CTGGGACATACTTGTGTCTCATGGTCATGAAATTGGACATGATATGCATCACACTTGGAAAAAGTGGCTATCAAGTTGGG AAAGTGGAGGAGGGGACAATTGTGAAGGACAGGCAGAGCTTTTGGTGCAAACAATCAAACTAACCGCGGGCCATTGGATT TCTGAGGAGCAAATGTTGAGTCCACAATACCAGCGTCTCCTTCAACTCACCAACACACTCTGTCATACACTCAGTTGCTA TCAAAAGGACAAGGAATCCAAGAACGACAACATCACAATTCCAGAAGTAGAGTCAGAAATGCAAGAACTCGTGCAATTGG TGTTCCAAAAATCTCCAAATGGCATTGATTTCAATATCAAGAATACTTTCTTGATAGTGGCAAAGAGTTTCTACTACACA ACATTCTGTGATTCACGGACAATCAACTTCCATATTGCCAAAGTTCTCTTTGATGAAGTAGTTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0718300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSSHFTTHYQHHLPSFSSSSSSSSSSSSSKHSPFPSSISLSHHFSKSSKGVVSSEAKDKQEKRCRAISKSRTQEYAEVFQ NSLTTLKLHDIDVEDDTHEEQAIGVSVTNEIQKRVEAIKSILGLMEDGEITISAYDTAWVALVEDVHGSGTPQFPSSLEW IAKNQLADGSWGDSELFSAHDRIINTLACVIALRTWNMHPEKCEKGMAFFREKLSKLEDENAEHMPIGFEVAFPSLLDIA RGLNIEVPDDSPILKDIFAKRDEKLTRIPGEMMHKVPTTLLHSLEGMSDLDWKQLLKLQSEDGSFLFSPSSTAFALMQTK DENCLKYLNNAVTKFNGGVPNVYPVDLFEHIWVVDRLERLGISRYFQQEIKDCMSYVYRYWTEKGICWARNSNVQDIDDT AMGFRLLRLHGHQVSADVFKHFERNGEFFCFAGQSTQAVTGMFNLYRATQVVFPEEKILENAKQFSAKFLREKRAANELI DKWIIMKNLPEEVGYALDVPWYANLPRVETRFYIDQYGGESDVWIGKTLYRMAYVNNNNYLELAKLDYNYCQALHLAEWG EIQKWYSESRLGEFGLSRRNLLLAYFLAAASIYEPERSHERLAWAKATALLETLASYVCDAEMRKDFVENFSDCINKLDY SIGWRLNRSKTGHGLAETLVATIDQISWDILVSHGHEIGHDMHHTWKKWLSSWESGGGDNCEGQAELLVQTIKLTAGHWI SEEQMLSPQYQRLLQLTNTLCHTLSCYQKDKESKNDNITIPEVESEMQELVQLVFQKSPNGIDFNIKNTFLIVAKSFYYT TFCDSRTINFHIAKVLFDEVV

Download Protein Sequence

Domain prediction

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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	67	67	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	51	51	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	52	67	16	-	–
PANTHER	PTHR31739 View details on PTHR31739 Search for proteins/transripts with this domain View external data on PTHR31739	76	818	743	0.0	–
PANTHER	PTHR31739:SF4 View details on PTHR31739:SF4 Search for proteins/transripts with this domain View external data on PTHR31739:SF4	76	818	743	0.0	–
SFLD	SFLDG01014 View details on SFLDG01014 Search for proteins/transripts with this domain View external data on SFLDG01014	106	531	426	0.0	–
SFLD	SFLDG01605 View details on SFLDG01605 Search for proteins/transripts with this domain View external data on SFLDG01605	106	531	426	0.0	–
Gene3D	G3DSA:1.50.10.130 View details on G3DSA:1.50.10.130 Search for proteins/transripts with this domain View external data on G3DSA:1.50.10.130	115	549	435	5.0E-204	IPR036965 Show description in modal box View details on IPR036965 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.50.10.160 View details on G3DSA:1.50.10.160 Search for proteins/transripts with this domain View external data on G3DSA:1.50.10.160	134	346	213	5.0E-204	–
SUPERFAMILY	SSF48239 View details on SSF48239 Search for proteins/transripts with this domain View external data on SSF48239	134	212	79	2.43E-6	IPR008930 Show description in modal box View details on IPR008930 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01397 View details on PF01397 Search for proteins/transripts with this domain View external data on PF01397	291	497	207	1.1E-53	IPR001906 Show description in modal box View details on IPR001906 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48239 View details on SSF48239 Search for proteins/transripts with this domain View external data on SSF48239	302	522	221	1.22E-66	IPR008930 Show description in modal box View details on IPR008930 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00684 View details on cd00684 Search for proteins/transripts with this domain View external data on cd00684	302	818	517	2.07342E-146	–
SUPERFAMILY	SSF48576 View details on SSF48576 Search for proteins/transripts with this domain View external data on SSF48576	536	791	256	7.48E-29	IPR008949 Show description in modal box View details on IPR008949 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03936 View details on PF03936 Search for proteins/transripts with this domain View external data on PF03936	541	693	153	2.3E-22	IPR005630 Show description in modal box View details on IPR005630 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.600.10 View details on G3DSA:1.10.600.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.600.10	551	821	271	5.7E-78	IPR008949 Show description in modal box View details on IPR008949 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000287 View details of GO:0000287 AmiGO InterPro QuickGO	Molecular function	Magnesium ion binding	Interacting selectively and non-covalently with magnesium (Mg) ions.	Subterm of View details of GO:0046872
GO:0010333 View details of GO:0010333 AmiGO InterPro QuickGO	Molecular function	Terpene synthase activity	Catalysis of the formation of cyclic terpenes through the cyclization of linear terpenes (e.g. isopentenyl-PP, geranyl-PP, farnesyl-PP and geranylgeranyl-PP) containing varying numbers of isoprene units.	Subterm of View details of GO:0016838
GO:0016829 View details of GO:0016829 AmiGO InterPro QuickGO	Molecular function	Lyase activity	Catalysis of the cleavage of C-C, C-O, C-N and other bonds by other means than by hydrolysis or oxidation, or conversely adding a group to a double bond. They differ from other enzymes in that two substrates are involved in one reaction direction, but only one in the other direction. When acting on the single substrate, a molecule is eliminated and this generates either a new double bond or a new ring.	Subterm of View details of GO:0003824

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0718300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0718300.1