Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0338300
Transcript ID	LotjaGi3g1v0338300.1
Lotus japonicus genome version	Gifu v1.2
Description	Terpene cyclase/mutase family member; TAIR: AT1G78950.1 Terpenoid cyclases family protein; Swiss-Prot: sp\|Q9MB42\|BAMS_GLYGL Beta-amyrin synthase; TrEMBL-Plants: tr\|Q84PE1\|Q84PE1_LOTJA Terpene cyclase/mutase family member; Found in the gene: LotjaGi3g1v0338300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:71076734..71087285) extracted from Lotus japonicus Gifu genome v1.2.

ATCGTATCACATAATATATCATGTTCATTACAATTTGCATTCTTAGATTTTTGTTTTAATGATATGTCATTTTTTTTACT GGATGTGTCGAAAGATACTGTCTTGGGTTCGTGCCCATACAAAAATTTCTCTTATTTCTTTCTCTCTCTGGGTGTCTAGC AATTGAGTGTTTTCACCAAACAATTATCCTAGGAAACACTCTCTCACCTCATCTCACGTTGTCTAAGGCTCACTAGTATT TATTATTTAAGCTCGTTTGGGCAAATGATGAGTTGACACACACAGAGTTAAGAAGAAGATCATGTGGAAGCTGAAGGTAG CAGATGGTGGCAAGAATCCTTACATATTCAGCATCAACAACTTCGTGGGAAGGCAGACATGGGAGTATGATCCTGATGCA GGTACTCCTGAGGAACGAGCTCAGGTTGAAGAAGCTCGTCAGGATTTCTATAACAACCGCTACAAGGTCAAGACTTGTGG CGACCGACTTTGGCGGTTTCAGGTATCTTGAGCTTGCACCATAGTGCTTAAGGAAATAGAAAATTTTCATGCAGTCATGC TGTGTATATATAAAAGTTTAAATTATTCAAAAATAGATTAAAGGTGTAGTGTGCGTATCATTATGTAAACTTTATTATTT ACACAGTCATATAATTGGATTAGGCCACATAAGAAAATATTTTTTATTTTAATTAAAATTTTGAAGTAAAAGTTATTATG TACAAAACCATTTTACACTACATATCTATTATACACCAGATCGTTACGAGTTAGCTAGCCACACCTACCAACATACTGCA TAAGGGATCATCTCCCAAAGCGTCAGATCAGATTTGGCCTGTTGAACGAGTGATTCTAGCATTAAATTTTGAAACTATTG ATGGCAGCACCATGACATCCCTTCTCTGTACAAAATGCCAACCCATATTTTCAAGTCATCTCAAAACTCACCATCAGATG ACCCGTAGTTTCAGGGATAATACTACAAATGCTACACCGGCCTTCGGTCTCTATAACCAGTTCGCGCGTCATCAAATTCA TCTTCACCGCAACCTAGCTTGTTCAATGTTGTCTGCTAAAAGAACAAGATCACCTTTGGTGGGATAATTTTGCAAACTTG CTTGGGGATGGTCAAAGCTTCCTAACTCAATAGGATTTCGCTTCATCAATTTGCAGATTTCGTTAACCGGGAATACTCCC CCGGCACTTATGCTAGGTAAATAAGAGTTAATTGCCATAAGAAACCTCCCATGTTCATCTTAGACCATTGCAGACTCCCA CCTTATTGGCAGTAACATTCTTATTAACAACTAGAGCATACATACGTGGGAAGGACATGTGCAGAGGCAGCAGGCCTACC CAAGGATCCATCCATAAACAGACAAAATTTCCAAAACAAAATCCTCATAGGCTCATACCTTGTTCCTCCATCTAAGGAAG CCAAGACCAAGGCCTCCTAATTGAGCATCCTTGCATATTTGCTCCCAGACGATCCAAAATACCTTTCGTTTCCCTTAAAT GCTTCCCCATCATTAGCTTTTCAAAATGTCCAACCATATATACCCACCGGGGCTTTAAATAATATCATGTAATACATTGA AAAATGGCCTTGAGAAACACCACTCTCCCACTTAGGGATACAAATTTTTCAAACGCGTGAAACGAATTCAAGAATAGAAG TAAATCCCCACATAAATCCAGTTGAAAACATGTAATCGTAGCTATTTTTCCATCAAAACCTGTTCCAAATTACAACTTAA AATCATTAAAACATAACATCATTACATCAAAAAATCAATTGTAAATCCGTTGTAATGATTTGATGGATCAAAGCTAACAT GAGAATTAAATTTGACGAATTGATCCAACGAAGGTGACCAGCCGAAGAGAGAATACGCCAAGCATATTCCAACTACCACG ATTGACGACCCAATACCATGCTCTTAGGTCACCTTAAACACTCTATAAAGCAGCCACAAAAATCACTGCATTCCTCTAAT TTATGTGTGAAATGATCCAATCATATCAAATGTGTTATTTTTAATAAAACTTATAAAATTAAATAGATGAAAAAAAATAC GATAAAAAAGTGGCAATCAATATTATTGTCTTAAATTTTTAAAACAACAAATAAATTAGAATAAGTTTTTAAAACGATTT CAGATAAATTGCTACAAGTATATTATTATCATGAAATTTTTTCCAATAGAAAGTACCTATGTATTAATTTGATGAGAACA CCCTAAAATATCAATTGTAATGATTTTATGCTGTAATTTTTGGAACAGGTTTTAATAGAAAAATAACTACGATTACATAT TTTCAACTGGATTTATTATGTGTAGATTTACTTTTAGTCTTGTGAGCCGTGAAAAATAGTTGGCCTTGTTTCACGCGTTT GAAAAAAAGACTCCTCTTATGAGGAGACTAATTTGATACATGAGAAGTTTTCTCTGAATAGTGGTGCCTCGTTCTAGGAG TCTAACGTGACAGCAGAACTTCTCACTTTAGGAGTCTTTAGTCGACATAATGATGATGCAATTATTGAGTACAGAAACTC TTACTTCTAGGCGCCTTTGTCATAAAGAAAACGTCACATATGAGGAGTTTTTTGCAAAGGGTAACCACCAAGACATCCTA CATGGCCAAATTGGTAAATATTTATCAAAATACAATATTTTTTTTACAATATTTAAAAAAAAAATCTTAGCATCCAAAAA ATGTATAAATATATAATTATTATTATTTAAATCATATTTTTAGTAAAACAAATGAGTTAAACATTATTATTATATTGCTA TTATGATTCAAGTTATTAATTATTACATCAGGGTAACTACGGGGATGAGTTTGAGATGGGTCTTTGCACCCCTAAGTCAT CCTCTATTTGGCAAATGTTAATCAAAGTCATGGGTTTTTCTTCTATATATATTTTTTATACGCAAATGTTAGTCGTTAAT AATGTTAGTAAATTAGTCATTTATCAGGGTTCGAACCCTGGTTCTTCCTTCTTATCTCTCTCAACTCTTATGTTTCCTAA CTCTTACCATATGATATCACTCTTACCATATGATATCATTTTTTTTCTCATCTAAAAATATAACTTTTATTCTATTTTTG CTTCCCTGTTTTGTGTAGGTTATGAGGGAAAATAACTTCAAACAAACAATACCGAGTGTGAAGATAGAGGATGGAGAGAA GGTAACATACGATAAAGTGACAACAACTGTGAGAAGGGCCGCACATCACCTAGCAGGATTACAGACCAGTGATGGCCATT GGCCTGCTCAAATTGCTGGTCCTCTGCTTTTCACGCCTCCCTTGGTGAGTGCAACTACTCAATATAATATTTTCTATTAT TATTATTATTATTATTATTATTATTATTATAAAACATTCACTACAAGAAAAAAAATCTTATTTCTAACCGTCAGAAGCGG TCGGTAATCAGGAAAAAAATTCAATAATCAATATATATTAGAAAAGAAAAACTTCTATAAGACTGATTTTGTGAGGTAAC AGCTCCTGGTTCAATCTCATAAGAAAAAATTCACGTGTCAATTTGTTAGATAGCAAATTTCACATGTCAATTTGTTAGAG AGTTTCTCTTCTATTGTGTTCTTTTGTTATTTTATTTTGAATTACCGATAGGTAAAATCATTAGTAACTTAACGATAACT AAACCGGCAGACGGGCCAGGTTGTCGACAAGATGTTTTTTTTTAATTTTTTTAGAAAACATGTTATGATGGTCCGACCAT AAATAACAGCGAGATTTTGTGACGATTTTTAAAAAGTCGTAAAAAGTCATTGGTAATAACTTATTTTCTTGTTGTGATTA CGATAAGATAAAAGAAACATATCAGAACTAAATAATCTTATGGAGCCATGGCCTTGCAAACCGCAGCCACGGCGCACACC ATGGCAGGACGTGCTCCTCTTGTATTCTTTTGTTAAACTCAACGGCAAACTACTTTAGATTTTCAATTCACAATTTAATA TGTTTAGATTTTCAAGGACTATTAAAAAACACATATAAACCATATATATGAGTTTCTACTAATCAGTTTTCTACTTGCTC CTCAAAACATTGCAGATCTTTTGTATGTACATAACAGGTCATCTTGATTCTGTATTCCCAGAAGTGTACCGCAAAGAGAT TCTTCGTTACACATACGTTCATCAGGTATACTTATTCAATTTCAACAAGCAATTAACTTTTTATTTATCTAGCTTTCCCA GTGGTTTTTTTTCCATACACAAACTAACTCGGATGGAATTGTTATCCAAGTTCTTTTATTAATTAATTAACTTGCCCCTT TTTCTTAGCCATGAAATTTAAAATTCGCTCATGCCAACAATGAACAACTAATTAATATTGATCATGTTGTGCTTTGATTT GAAGAATGAAGATGGAGGGTGGGGACTACACATAGAGGGTCATAGCACCATGTTTTGTACTGTACTCAACTACATATGCA TGCGAATACTTGGAGAAGGACCTGATGGAGGTCAAGACAATGCTTGTGCAAGAGCAAGAAAATGGATTCATGATCATGGG GGCGCGACACACATAGCTTCTTGGGGGAAGACATGGCTTTCGGTATCTTTCATATTTATATATACTAATATATACCCAAA CTAAAAGGCATGTAGTATGTTACTTATTTGAATGAATCCTGCATCTGTAGATACTTGGTATATTTGATTGGAGCGGAACC AATCCAATGCCTCCAGAATTTTGGATCCTTCCTTCATTTCTTCCTATGCATCCAGGTTGAAGTGATTAACATTAATGTTG TCACTCTTTTTGGAACAATGTATATCTGAATTATTGAATTGAGAGTTTATTCTACATTTCTACTCATATTTTCAACTTAA TTGATTGCAGCTAAAATGTGGTGTTATTGCCGATTGGTGTACATGCCTATGTCTTACTTGTATGGGAAGAGATTTGTGGG TCCAATAACACCACTCATCTTACAGTTGAGAGAAGAACTCTTTACTCAACCTTATGAAAAAGTTAATTGGAAGAAGGCAC GTCATCAATGTGCAAAGGTATGACACATAGTCTCCAACTAATCACAATGTGTAATATATACATATATCCTCTATATGATC ATGGGAGGGATAGTTAAATAATGGTCTATTTTATGTATCACAGGAAGATCTTTACTATCCCAATCCTTTGATACAAGATC TGATATGGGATAGTTTATACTTATTCACTGAGCCATTCTTGACTCGTTGGCCTTTCAACAAGCTGATCAGAGAAAGAGCC CTTCAAGTAACAATGAAACATATCCATTATGAAGATCATAATAGTCGATACATTACCATTGGGTGCGTGGAAAAGGTAGG TACCATAACAATAAAGCATATCTTGTATTTATAGAATGCATGAATCAAACTCTTTTTTCATGATAAAATTCTGAAATTTA AAAGCTACTCATAGAAATTTATATACAAAATTAATTCTAGCTTTAAAACAATTGTGAAGGATTTTCAAAGATACATGTAT ATATCTCTCAGGTTTTATGCATGCTTGCTTGTTGGGTGGAAGATCCGAACGGAATTGCTTTCAAGAGACATCTTGCCAGG GTCCCGGATTACTTGTGGCTTGCAGAAGATGGAATGTGCATGCAGGTGTGTATATTACATCATCATATTTGAATAAAAAT TAACTACATATAATCATTATTATTTTTTGACAATGTTAATATAACCAATGTGATATTAATTAATTAATGCAGAGTTTTGG TAGCCAAGAATGGGATGCTGGTTTCGCTGTTCAAGCTCTGCTTTCTACTAACCTAATTGACGAACTCGGTCCCGCACTTG CAAAAGGACATGATTTTATCAAGAATTCTCAGGTCTGCTTAATTTTATGTGACATTATCATATAACTCTGCTTCCTTCAT TTACCAAATTATGCAATTCATTAAAAAGATATTTCGGTTCCCTATGGCTTTTCTATGCAGTGGCTTAATCAGCAAAATGA AAATTAACTGATTACTTTCAAGCTGACATTATACTTAGCATTGTTTTGACTATTGAGCGATGTGTGCTAGCTTTACCTTG CAGCATTAAATGGGTAATCTTATTCCACAGGTTAAGGACAACCCTTCAGGAGATTTTAAGAGTATGCATCGCCATATTTC CAAAGGAGCATGGACCTTTTCTGATCAAGACCATGGATGGCAAGTTTCTGATTGCACTGCAGAAGGTTTTAAGGTAGCTA ACTACATAGGTTGATAATTTAAGTGTGACATCTTGAGTTTCACATTGGTTAAGAACGAATAAGGTGAAAACAATAATAAA AAATGAATGACTTATTGATTTGGTGCTTACATAGCATTTTTTTAATTGTTCACCGGTGGAGGGATAGGGTTTAGGGGGCT TTTCTGTTGGTTGCTTGGGCACCATTCTGATGTTTTGTTATTACTTTCTCTAATTCTTTTTTTGTGCTGTGCTGTTCCTC TTCTCTATTGTTGCTCTGCCTTTCTTTAGCGTGGGCTGCTTCGTTTCTTCTGTTTTTGTGCTTTTGCCTGTTTGGCTTGG CCTTTGTTTCTTTCTTTTTTACGAGAGGGGTGTTCTCATGCTTCCTTTGTTTTTAATAAAGCTTATTTCCTTTGCAAAAA GAAAATGAGTCTTATAAACTCAATGTCTTAATATTTTTGGTGAAGATATAATGTCTGATTTTCTTTGTGGTCTTTTTTGT TGACCTTATTGGTGGAGGTTCTCCTTCTTTAGGCTTCTTATTGGGCTAAAACTTTGATATGACAAAGCCAATCATGTTAA AAGTACCTAAGTGGATTAAAAGGTTTCACTTGAGATATACTCACACTTGAGAGCAAGATGTTTGGAAATCAAGTGTTTTC TTTCTGTCTTCTTTATTGGCTCATTCTTTCGTATATAATCTTGTGCATGGTTGTGTCTCGTTGATGAACAACGACGCAAG TGTTGATAGCTTCTGCTGAGGGGAAAGTATGGTAATGTGAAGGTGACTCAAATTTGAGGGGGAATTGTTAGTAATTCCAG TGTGATGTCTGAAAGTTCAATTATGTTTTAATTCGCATGTAATTTCCTGTCTTGGGCAGTAGCTTGCGGATCTAGCACCC CTTGTGCTAGTTTTGAATACTATTTGATATAAAAGAAACTATGATGTATGGAGTCTCACATTAATTAAAAATGTTGAGGT AAATGTAATATAAGAAATGAGACTCATAAAACCAATGTCTTAAGGTATTTGACATAATTTTATTGGACACACAAAGAATG AGACATCAAATAAGTACAAATGATCTTCATCTGAAAAATATATGTTAACCTAGCTGAAATTCTTGTGTTCAATTTCAGTG TTGTCTACTTTTGTCAATGTTGCCTCCAGAGATTGTAGGGGAAAAGATAGAGCCTGAAAGGTTATTCGATACTGTCAATC TCCTATTGTCACTTCAGGCAAGTACTATATATTAAATTTATTGTCATCTGCTTCTAATTATTTAATAAGTTAATCAGTAA TCCTTCTCCTTGCTTAAAGGAATTTGATCATTTGATGTTTGATTTTACAGTGTTATATGATTAAATTTTCTATTTTTCAT CATTATAGAGTAAAAAGGGTGGTTTTGCAGTATGGGAGCCAGCAGGAGCTCAGGAGTGGCTGGAAGTAAGTATTCAATTA GTGAATAACTAAACATAAACCCATGACATGCAAAGATTAAATTAGTATAGGCAAAAAGCAGGGATTTATTCTCCTTAGTT TGTACATGTATATATAATTTAACTGATTTGTGCAATTTTTATTAGACTTTTCATTGTGTTTTAATAATTAAATGGGTTTT TGTTTTTTAAATTATATTTTAGGGTTTATGGTTTCATTTGAGATAGTCAAATTATTGTTGAGTTAGCAAAAATAATGGTG TATGGTAAAATAGAGATAGATTGCAACGTCTGATTTCGCGTCTCATCTTTAATGTACTATAAATAAATATAATAGATGTC ATGTGTACCTATGTATTTATTAATTGATAAAAGTTGTTATGTAGTTAACAAACTAAGTAATTAGTTTTGTTGTAACCAAA AAAATAACTAATTAGTTTTGTCATTATTTTTCAGCTACTCAATCCTATAGAATTTTTTGAGGACATTGTAATTGAGCATG AATTGGTTGAGTGCACTGGATCAGCAATTGGAGCCTTAGTTTTGTTCAAGAATCATTATCCAGAGCATAGAAAGAAAGAG ATCGAGGATTGCATTGCTAATGCAGTTCGTTACTTTGAAGATATACAAACAGCAGATGGTTCTTGGTATGGAAATGCAGG AATTTGCTTCATTTATGGTACTTGGTTTGCACTTGGTGGTCTAGAAGCAGCTGGCAAAACTTATGCCAATTGTGCTGCCA TTCGCAAAGGTGTTAAATTTCTACTCACGACACAATCAAAGGATGGTGGGTGGGGAGAGAGTTATCTATCATGCCCAAAA AAGGTTTGTAATTGAATATAGGCTTAATGGTCAAATTGGTCCCTGTGTTTGTAGTGAATTTTGATTTTAGTCCCTCCACG GAAAAAACTAGCCGATATCTCCCTGCAGTTGCAAGCATTTTGGTTCTAGTTCTCACCGGAGGGTGGAGCTCCGGCAAGAG TGCTGAATGGCAGGCCAGAGCTGAATTTTTAGAATTATATATTCAAGCATTCAGTTTGGCTGGTCTAGCTTTACCATAAA AGCTAGTTCATGATGGGGACTGCTCTACCCTATAAGATCTTATTTAGTTATATCTCTAGTTAATATGAGAGACCTTAATG ATTATTATTATATACCTATTAGTTTCTAATGCTTCTTCAACTTGTACATAAATTAATGCTAATGATATAGTGATGATCAT ATCTTACTAATGAAAATAATGCAGATATATGTACCTCTTGAAGGAAACCGATCAAATGTTGTACAGACAGCATGGGCTCT TATGGGTTTGATTCATGCTGGCCAGGTTTGTGTGTGATTTTGGGTACACTTAACGTAAATTAAAATAAAAATGCTTACTA CTATGTAATTGCCCATGAATCTTAAGTGTTCTTTTTTCTAATTCATTGCACAGGCGGAGAGAGACCCTACTCCACTTCAC CGTGCTGCAAAATTGCTCATCAATTCTCAGCTTGAAGATGGTGATTGGCCCCAACAGGTTCATCTCAATCCATGGCTCTT ATTTATGCCTAATCATGTTACTAATTGTATTTTGTAACTAACTTGATTAATGATGGTTTGGATGGAGTTTCTATTGCTAA TTGTTGTTTGCCTTACTAATAACAGGATATTACTGGAGTATACGTGAAAAATTGCACGCTGCATTACCCAATGTACAGAA ATAATTTTACAACGATGGCCCTAGCTGAATATCGTCGACGGGTTCCATTACCATCCATTGCAGTTTAACTTGTAAAGATA GCTGTGTGCACAAAAAGGCACAGCCACATCAATAGATCATGCAAATAAAATAATCAAACAAGTTCTGCAGTTGACCTTGT ACAATTGTACTCTTATTACTATAGTATGTATTTAGTGTCGGTTTGTTGCCTGTTAAATTTTTTATTAAGTTGTTTTTATT TCCATAACACACTTTTTTATCTTATTGTTTTGCTTGAGGTATAAAATTGTGTTGTTCCTGCTCTACTACTTCTTTTAATA AAAGCGAGAAGTTTCTACATCTTTCCTTAACATTTCTTTCTGTTATTCATTACATTACAAGTTTACCCCCAAGAGGGAGA GCAAGTGCGAATGACCCAACCCTCAAGAATGAATTGATGACCTATTTATTTTAACTTTTAGAAGATATAGTGATCTCAAT ATGTTTTAACTCATTAGCCTATAAATTTATGGACATACAAATAGATTTGTCAATCTACTCAAATATTTTATTATAAAATA AGTCTTTAAATAAGCTATCAGACCAAACCATGCACGAGTTTAAAAAGATCAGGCCCTGGCCTAAAAAAATCTATAACAGG TAACAAGTCGGTATTAGACCTTGAATTTTTTTAATATGTTATTAGAAATTGGGAGGCCTATACTCAACCACAAAAGCTAG CTCAAGAGTTGAGGTTTGCACTACCCTTATAAAGCTTATCTTGGCTCTATCTCTAGCCAATGTGGGACTTCTAACACACC CTCTCACGTTCAGGGTTGAACAGACTGGAACGTGAGATCAAAAACGGGTGACCCAAATATGGGAGGTCTCCACAACAAAT GTGGACTGGGCGAGCCCCTAGGGGGGCAACGCCTAACATGTAGCCCGCCCCGGGGCAGGGCCCTAACCTTAAGATGGGCC TTGGCTTCGGAGGCCCAATTGGCCCAAGAGATAGTGCCCGAACTCTATAAATAGGGGGGAGTTACCAATTGTAGAGGACT TTTGCTCATTGGATGAAATGATACATGAAATTCAGCATTCTCTCTCTCATTCTCATTCTCTCTCTAGCGCAATTCTCCAC TCTCTAGGTACTATACCTTTCTTCAATGTTCATTGCTAGAACATTTGGCGCCGTCTGTGGGGACTGTAAACT

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0338300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTGGAAGCTGAAGGTAGCAGATGGTGGCAAGAATCCTTACATATTCAGCATCAACAACTTCGTGGGAAGGCAGACATG GGAGTATGATCCTGATGCAGGTACTCCTGAGGAACGAGCTCAGGTTGAAGAAGCTCGTCAGGATTTCTATAACAACCGCT ACAAGGTCAAGACTTGTGGCGACCGACTTTGGCGGTTTCAGGTTATGAGGGAAAATAACTTCAAACAAACAATACCGAGT GTGAAGATAGAGGATGGAGAGAAGGTAACATACGATAAAGTGACAACAACTGTGAGAAGGGCCGCACATCACCTAGCAGG ATTACAGACCAGTGATGGCCATTGGCCTGCTCAAATTGCTGGTCCTCTGCTTTTCACGCCTCCCTTGATCTTTTGTATGT ACATAACAGGTCATCTTGATTCTGTATTCCCAGAAGTGTACCGCAAAGAGATTCTTCGTTACACATACGTTCATCAGAAT GAAGATGGAGGGTGGGGACTACACATAGAGGGTCATAGCACCATGTTTTGTACTGTACTCAACTACATATGCATGCGAAT ACTTGGAGAAGGACCTGATGGAGGTCAAGACAATGCTTGTGCAAGAGCAAGAAAATGGATTCATGATCATGGGGGCGCGA CACACATAGCTTCTTGGGGGAAGACATGGCTTTCGATACTTGGTATATTTGATTGGAGCGGAACCAATCCAATGCCTCCA GAATTTTGGATCCTTCCTTCATTTCTTCCTATGCATCCAGCTAAAATGTGGTGTTATTGCCGATTGGTGTACATGCCTAT GTCTTACTTGTATGGGAAGAGATTTGTGGGTCCAATAACACCACTCATCTTACAGTTGAGAGAAGAACTCTTTACTCAAC CTTATGAAAAAGTTAATTGGAAGAAGGCACGTCATCAATGTGCAAAGGAAGATCTTTACTATCCCAATCCTTTGATACAA GATCTGATATGGGATAGTTTATACTTATTCACTGAGCCATTCTTGACTCGTTGGCCTTTCAACAAGCTGATCAGAGAAAG AGCCCTTCAAGTAACAATGAAACATATCCATTATGAAGATCATAATAGTCGATACATTACCATTGGGTGCGTGGAAAAGG TTTTATGCATGCTTGCTTGTTGGGTGGAAGATCCGAACGGAATTGCTTTCAAGAGACATCTTGCCAGGGTCCCGGATTAC TTGTGGCTTGCAGAAGATGGAATGTGCATGCAGAGTTTTGGTAGCCAAGAATGGGATGCTGGTTTCGCTGTTCAAGCTCT GCTTTCTACTAACCTAATTGACGAACTCGGTCCCGCACTTGCAAAAGGACATGATTTTATCAAGAATTCTCAGGTTAAGG ACAACCCTTCAGGAGATTTTAAGAGTATGCATCGCCATATTTCCAAAGGAGCATGGACCTTTTCTGATCAAGACCATGGA TGGCAAGTTTCTGATTGCACTGCAGAAGGTTTTAAGTGTTGTCTACTTTTGTCAATGTTGCCTCCAGAGATTGTAGGGGA AAAGATAGAGCCTGAAAGGTTATTCGATACTGTCAATCTCCTATTGTCACTTCAGAGTAAAAAGGGTGGTTTTGCAGTAT GGGAGCCAGCAGGAGCTCAGGAGTGGCTGGAACTACTCAATCCTATAGAATTTTTTGAGGACATTGTAATTGAGCATGAA TTGGTTGAGTGCACTGGATCAGCAATTGGAGCCTTAGTTTTGTTCAAGAATCATTATCCAGAGCATAGAAAGAAAGAGAT CGAGGATTGCATTGCTAATGCAGTTCGTTACTTTGAAGATATACAAACAGCAGATGGTTCTTGGTATGGAAATGCAGGAA TTTGCTTCATTTATGGTACTTGGTTTGCACTTGGTGGTCTAGAAGCAGCTGGCAAAACTTATGCCAATTGTGCTGCCATT CGCAAAGGTGTTAAATTTCTACTCACGACACAATCAAAGGATGGTGGGTGGGGAGAGAGTTATCTATCATGCCCAAAAAA GATATATGTACCTCTTGAAGGAAACCGATCAAATGTTGTACAGACAGCATGGGCTCTTATGGGTTTGATTCATGCTGGCC AGGCGGAGAGAGACCCTACTCCACTTCACCGTGCTGCAAAATTGCTCATCAATTCTCAGCTTGAAGATGGTGATTGGCCC CAACAGGATATTACTGGAGTATACGTGAAAAATTGCACGCTGCATTACCCAATGTACAGAAATAATTTTACAACGATGGC CCTAGCTGAATATCGTCGACGGGTTCCATTACCATCCATTGCAGTTTAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0338300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MWKLKVADGGKNPYIFSINNFVGRQTWEYDPDAGTPEERAQVEEARQDFYNNRYKVKTCGDRLWRFQVMRENNFKQTIPS VKIEDGEKVTYDKVTTTVRRAAHHLAGLQTSDGHWPAQIAGPLLFTPPLIFCMYITGHLDSVFPEVYRKEILRYTYVHQN EDGGWGLHIEGHSTMFCTVLNYICMRILGEGPDGGQDNACARARKWIHDHGGATHIASWGKTWLSILGIFDWSGTNPMPP EFWILPSFLPMHPAKMWCYCRLVYMPMSYLYGKRFVGPITPLILQLREELFTQPYEKVNWKKARHQCAKEDLYYPNPLIQ DLIWDSLYLFTEPFLTRWPFNKLIRERALQVTMKHIHYEDHNSRYITIGCVEKVLCMLACWVEDPNGIAFKRHLARVPDY LWLAEDGMCMQSFGSQEWDAGFAVQALLSTNLIDELGPALAKGHDFIKNSQVKDNPSGDFKSMHRHISKGAWTFSDQDHG WQVSDCTAEGFKCCLLLSMLPPEIVGEKIEPERLFDTVNLLLSLQSKKGGFAVWEPAGAQEWLELLNPIEFFEDIVIEHE LVECTGSAIGALVLFKNHYPEHRKKEIEDCIANAVRYFEDIQTADGSWYGNAGICFIYGTWFALGGLEAAGKTYANCAAI RKGVKFLLTTQSKDGGWGESYLSCPKKIYVPLEGNRSNVVQTAWALMGLIHAGQAERDPTPLHRAAKLLINSQLEDGDWP QQDITGVYVKNCTLHYPMYRNNFTTMALAEYRRRVPLPSIAV

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
PANTHER	PTHR11764 View details on PTHR11764 Search for proteins/transripts with this domain View external data on PTHR11764	1	756	756	0.0	–
PANTHER	PTHR11764:SF42 View details on PTHR11764:SF42 Search for proteins/transripts with this domain View external data on PTHR11764:SF42	1	756	756	0.0	–
TIGRFAM	TIGR01787 View details on TIGR01787 Search for proteins/transripts with this domain View external data on TIGR01787	97	753	657	8.7E-241	IPR018333 Show description in modal box View details on IPR018333 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02892 View details on cd02892 Search for proteins/transripts with this domain View external data on cd02892	98	751	654	0.0	IPR018333 Show description in modal box View details on IPR018333 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF13249 View details on PF13249 Search for proteins/transripts with this domain View external data on PF13249	98	357	260	4.1E-41	IPR032697 Show description in modal box View details on IPR032697 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.50.10.20 View details on G3DSA:1.50.10.20 Search for proteins/transripts with this domain View external data on G3DSA:1.50.10.20	108	751	644	4.4E-257	–
Gene3D	G3DSA:1.50.10.20 View details on G3DSA:1.50.10.20 Search for proteins/transripts with this domain View external data on G3DSA:1.50.10.20	119	413	295	4.4E-257	–
SUPERFAMILY	SSF48239 View details on SSF48239 Search for proteins/transripts with this domain View external data on SSF48239	121	410	290	5.02E-104	IPR008930 Show description in modal box View details on IPR008930 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	351	756	406	5.57E-112	IPR008930 Show description in modal box View details on IPR008930 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF13243 View details on PF13243 Search for proteins/transripts with this domain View external data on PF13243	418	753	336	2.4E-48	IPR032696 Show description in modal box View details on IPR032696 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:0000250 View details of GO:0000250 AmiGO InterPro QuickGO	Molecular function	Lanosterol synthase activity	Catalysis of the reaction: (S)-2,3-epoxysqualene = lanosterol. This is a cyclization reaction that forms the sterol nucleus.	Subterm of View details of GO:0031559
GO:0005811 View details of GO:0005811 AmiGO InterPro QuickGO	Cellular component	Lipid droplet	An intracellular non-membrane-bounded organelle comprising a matrix of coalesced lipids surrounded by a phospholipid monolayer. May include associated proteins.	Subterm of View details of GO:0043232
GO:0016104 View details of GO:0016104 AmiGO InterPro QuickGO	Biological process	Triterpenoid biosynthetic process	The chemical reactions and pathways resulting in the formation of triterpenoid compounds, terpenoids with six isoprene units.	Subterm of View details of GO:0006722 View details of GO:0016114
GO:0016866 View details of GO:0016866 AmiGO InterPro QuickGO	Molecular function	Intramolecular transferase activity	Catalysis of the transfer of a functional group from one position to another within a single molecule.	Subterm of View details of GO:0016853
GO:0042300 View details of GO:0042300 AmiGO InterPro QuickGO	Molecular function	Beta-amyrin synthase activity	Catalysis of the reaction: (S)-2,3-epoxysqualene = beta-amyrin. This reaction is the cyclization and rearrangement of (S)-2,3-epoxysqualene (2,3-oxidosqualene) into beta-amyrin.	Subterm of View details of GO:0031559

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0338300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0338300.1