Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0452200
Transcript ID	LotjaGi1g1v0452200.2
Related isoforms 9	LotjaGi1g1v0452200.1 LotjaGi1g1v0452200.3 LotjaGi1g1v0452200.4 LotjaGi1g1v0452200.5 LotjaGi1g1v0452200.6 LotjaGi1g1v0452200.7 LotjaGi1g1v0452200.8 LotjaGi1g1v0452200.9 LotjaGi1g1v0452200.10
Lotus japonicus genome version	Gifu v1.2
Description	Regulatory-associated protein of TOR 1; TAIR: AT3G08850.1 Regulatory-associated protein of TOR 1; Swiss-Prot: sp\|Q93YQ1\|RTOR1_ARATH Regulatory-associated protein of TOR 1; TrEMBL-Plants: tr\|V7B2P2\|V7B2P2_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0452200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:95185210..95194715) extracted from Lotus japonicus Gifu genome v1.2.

TCTCATTCTTCATCATATCGTGGTCAGAGTTATACGCAGTATATCCCCTTACCAATCAGTGACCTTGATTCCTGGCTGAA GACCCCATCAATTTATGTTTTTGATTGCTCTGCTGCGGGGTTAATAGTGAATTCTTTCATTGAGGTATTCCCTTTTAGTC ATGTTTGTTAACTACTGTACAAAGAAAACTACAAAGATATGGTTAGTGATTTTATCATGTTTTTGCAATTTGGATTGCCA AATTCGTTGCTGGACTTGTTATGGTAAGCTTCATGAATGGAGTGCATCTAACACTGCTGGGGCCACAAGGGATTGCATTT TGCTTGCAGCATGTGAAGCACATGAGACTTTGCCTCAGAGTGTTGAATTCCCAGCTGATGTGTTTACATCTTGCCTAACA ACACCTATAAAGATGGCATTGCGGTGGTAAATATCTTCTCACGTGTTCCTGCTTAGTTTTCATTTTTTACTGTTCAAAAT GTTTCATATGTTAAATATTCAGGAAGGTTTTTAGAGGACCATTTTTTTTTGGTAAAAGAATGTAGTAATTCATCATGCAT CGACTTTCAAATATTGCATGCTTTCGTAATGTGGGTGATATAGTTTTTACCCATTCACTTGTGATTTCCCTCTCTTCCCT AATTGAACTCGTAGCTATTCCCTTACTAGCCCCTGACTACTTTTATCTGTTGGTATTTCATGATGACTGGTTGTATACAC CTTTATTGTTAATGGCATTTTTCTTTATGTGATTTGCTCCATGTTGTTTCTTTTTTTGTACTGATCCTATTACATTTCTG GTATAAATTATTGCAGCTGGACTTTATTATAAGCAGTGATGATAGAAAATGACGACTGAAATGATGATGGTTTTTACTAT GAAGTTGATTTTATGTTTGACATCTGCTTTTGTTTTACTAATTGTCTTATTTTCTCACATTCCTAAACTTATTGTTGGTG ATAAATGATTAGTTTATATTACATTATAAAATGCCGTGTTAATTTTTCTTACTAAAATGGCTAGTAATAATATTTTTTGA TGTTATCTGTCTCTAGGTTCTGTACTCGTTCATTACTTCGTCAGTCGCTTGATTATTCCCTTATAGATAAGATCCCTGGC CGTCCCAATGACCGAAAGACACTTCTGGGTGAATTGAATTGGATTTTTACAGCAGTAACTGATACGATTGCCTGGAATGT TCTTCCTCATGGTAAGTCTCAACCCCTCCCCATAGTTCCCCACTAACTTGCTAGATTGCCATGGTGTAATTTTAACCCTG CTATTTTTTATTTTATTTAGCAATCTTAGTTGGTGTCTTGCATGATATCTTTTTCTGCAGAACTTTTTCAGAGGCTGTTC AGACAAGATTTGCTTGTTGCAAGTCTGTTTCGAAATTTTCTACTTGCTGAGCGAATAATGCGATCTGCAAATTGTACTCC TGTCTCTCACCCTATGTTACCGCCAACTCATCAGCATCATATGTGGTATTTTTCGTGACTTGTGTTATGATATTGTTATA TGTGTTAACAAACTTTATTGTTGGCTTATGTTATTTATCCCAACTGCAGGGATGCATGGGACATGGCTGCTGAGCTTTGC CTCTCTCAACTTCCCTCATTAGTTGAGGATCCTAATGCAGAATTTCAGGTATCTGGACTTCTTTTTTATACCTCTAATGT AACCTTCTGAAATTGAATATTGAATAATGATAATACACAACTAACAAAAGGAATAGTAATAAATAGGCTTAATTGCACTT TTGGTCCCCCAACTATTGCCTTCCTGTGAAAATCGTCCCCAAACTTCTAAATTAGCAAAAAACGTCCTCCAACTATACAT GTCGTTGGCTCGTTGCACTTTTGGTCTGCCGTTTTCCTTCCTTGAGAAAACTAACGTGAGAAGTTGATGTGGCTCCCTCA CGTGTGTCTCACGTGACTTTCTTCAGAGAGCTTGATGACTGGACAAGTCACATATTTCTCACGTGACTCTAAAAGGCTCC AACAGTTATGAAATTGCAAACCCTAATTAGACCTGATTACCCCATTTTAGAGTCACGTGAGACACATGTGACTTGTCCAC TCATCAAACTCTCTGAAGAAAGTCATGTAAGACACGCGTGAGAGAGCCACATCAGCTTCTCACGTTAGTTTTCTCACGGA AGGCAAACGGCAGACTAAAAGTGCAATGACATGTATAGTTGGAGGACGTTTTTTGCTAATTTTGAAGTTTGGGGACGATT TTCGCAGGAAGGCAATAGTTGGGGGACCAAAAGTGCAATTAAGCCTAATAAATAATATTCATTAGTTATAAAGTTTTAAG CTTACCCTGCTGAAGCGTTTGGTTGTTCTTTTTCAGCCTAGTACATTTTTCACTGAGCAGTTGACAGCATTCGAGGTATG GCTTGACCATGGTTCTGAACATAAGAAACCACCAGAACAGTTGCCTATAGTTCTTCAGGTACAGCAAATGTCTTGTTCTT GTTACCTTAGGAACCATTCTGTTGGTGTTGGTTCCTAACACTTGTTATATAGGTTACATGATTTTAATGAATCAATTAAT TAGATTTTTGTGATGGGGTTAGGTTTTCTTGACTGAAGCTTTTTCAATTTGGTCAATGATCATTATCATCCTTCTGATGG AGTTTTTTCAAAATTGTGTATTTGTTATGAGCATCTATTAACAATGTGTCTAGGTCCAGAAGCAGTAATGCTGAGAGACA CTTTTTGGGTAGTTTATTCTGCTGAAGTGGGTGGAATCGGAAGTTTGTGTGGCTAGCACTATAATGCTTCTTCTCTAATT GTTTTGCGGTCAATCTGTGTCTCACTTATTCTTTTCATTTTATGGACTTTCTGCAAGTTGTTTGACTTACCAATTACCAT GCTCTGCATTAATTGTCAGAATTCACTAATCACACCGTTTGAAATCCTGTCAATAGAGTGAAAGTTGGGGTAGCTTCCAT TATAGAAAAGGTGGTAGAGTCTCGTCTTATGTGTTTTGGACATGTATGTGTAATACCTGTTGAACCACAAATTAGGAGGG TTGACCAAATCGAAGATCTGATAGTTAGGGGTAGAGTGACCTAGGAAATTTTTATGACAAATAATTTAAAGGGATTTAGA AGTAAATAATCTATCTCAAAAATTAAAATCAAGGCTTGATCTTGTTTTTCTATCTAAAGTAAAATCTCCTATGTAAGCCT AACTTTCAAACTTTTCTTTTATGCACTTTTGACTGACAATTTATATTTACACCGCATGTATATTATTTTTGCTTCGAAGA AAAGTGTTTGCCATTTGTTGATAATTTTGCATGCATCGATAAAGTGGCATTTTTCCTATTTCAGGTTTTACTCAGTCAGT GCCATCGATTTCGGGCTTTAGTTCTCCTTGGAAGGTTCCTTGATATGGGGCCATGGGCTGTTGATCTGGTAATCTTTGTA TCATGTCATCATCTTTTGTAGCAGTTGTTATACCTTTTAATAGAAAGGATTATGATATTATAAATTGATACCAAATTTCT TATATGTAGGCATTATCTGTTGGAATATTTCCTTACGTTCTTAAGCTGCTGCAAACTACAACACCAGAATTACGTCAGAT TCTTGTATTCATATGGACTAAGATTTTGGCACTTGACAAGGTAATGTTTCATAATTTTTATTATTTAATGTGTGTAAACC CGAATTTTAATATAAATTATGTTGAAATTTTGACTTTGATGGCTAAGGCCGCTTTGTACTATAATTATTACTGTGCACAA ACATGTTATTTTTTGCATTGTATTTGGTTCTGGACAAGCGGAGAAAAGTAAAAATTGAATAGGGATAAGAGGGAAAGAAA CAGTAATGTCCGACATGAAAGCCTTTATGTGAGCAAACCTATTTTTCCTAGTTTTATTTTCCTCTTTCGGATGATAAACA TTCACTTGGTAGTTAATCATTTTATTAATAAAATTCTTATTTTGTTAAAAACATCCAAACTATGTAATCAAGTCCAAAAT CTTAAATATTTATCAGTGCATGAAACCAGCAAATAGACTGGAAATATATCCAGGAGTATATAAATGATTTGAAACTGGTA AGTTTTCTGGTGCGTGTTTTTGTCTTTTTATCTTTTTGGTTTTTATTTATATTTAATCAATTGGAAAGATTATAAAAATG TGAAAAAATTAATGATCGGTATAATTAAATATTAACCATTGGTAAGTTAAGTCTGGTTAACAAAAGGATTAATTAGAAAG AAATTATAGTTAACAGTGTCTATTTGCAAAAGCGATAAGTTTGGGGGGGGGGGGTTCATGCGATCATGCCTTTTATTGGT GCTTAGTTATATAATTATATAATATAAATTCGAATTGATAATTGAACAATTGTGAATATTACAAGGCTTCATGTTTTTGT CTTCTAATATGTATCTCATTTTCTATTTTTCTGCTACAATTTGGTGTTGAAACCCTACATGCTTTATGTTGACTGTGTCT TACAATTTTGATGTTCCATACGTGTTGCAGTCATGTCAGGTTGATCTAGTGAAAGATGGAGGTCATATCTATTTTATTAA GTTTCTTGATAGCATGGAAGCATATCCAGAGCAACGAGCAATGGCTGCTTTTGTTTTAGCTGTGATTGTGGATGGTCATA GAAGAGGTCAAGAAGCTTGTATTGAAGCTGGTTTGATCCAAGTCTGCTTAAAGCACCTTCAGAGCTCATCTCTCAATGAT TCACAAACCGAACCCCTTTTCCTTCAGTGGCTGTGCTTGTGTCTGGGGAAATTGTGGGAAGACTACACAGAGGCGCAAGC AATCGGTTTGCATGAAGATGCTACTTCTATATATGCTCCTCTACTTTCTGAACCCCAGCCAGAGGTACTGCCACACTTAC TATACTTTTTCTAGTTCTCATTGCAAGATGATTAAATTTTTTTTTAATATTTAAATAATCAAGTCATGTAATTTATTGCT TCTCAGGTTAGAGCATCTGCTGTTTTTGCACTGGGCACACTTCTTGATGTGGGATTTGATTCATGTAGAAGTGTTGGAGG AGATGAAGAATGTGATGATGATGACAAGTTTAGGGCTGAAGTTAGTATAGTTAAGAGTCTGTTGAGTGTTGCTTCAGATG GGAGTCCGTTGGTGAGGGCTGAGGTTGCAGTGGGTAGGTGATTAAATATCTGAATTATATTTTAATTTGAATGTTGTTGA AAAAATGTTCTATATTATTACGATTATGATAAGATGGATAGTACTGATACTGCGAGTTAATTATTTTTTCTTTGTTTTTA GTTATGGTCTCAACAAATTCTTAATCATCTTCAGACAAGCTATTATCGGCTAGTAGACTTGAAGTTAGAAAAAGGAATAA AAGTTCGAATGAAAAAGAAAAATCCAATGATAAAATGGTTAAACATGCATTGAAAACCATCATATTGTTTTTTTAATTTG TGTTTTTGATTTATTATCTGATTTTTTTAATGATGATTGCTAAATCTTATGCATGGTTAGATGGTTGGCTTGTGCATCTG TTTAAGATTAACATATGTTGTCTTTATGGTATGGATGGACTGGTAGGCTGAATCTAAGATATCTTACATAGGTTTTCTTT CTACTTTCAGCTTTAGCAAGGTTTGCTTTTGGCCACAACAAGTACCTGAAATCTATTGCTGCTGCATATTGGAAGCCTCA GACTAGTTCTTTGATAAATTCCTTACCCTCATTGACTAATATTAAAGATTCAGTTGGTGGTTTTTCTAACCAGAACCAGC ATAAGCCTCATGGAAATATTGTTTCACCTCAAATTGGTCCTCTCAGGGTTGGGAGTGAGAATTCTAAAGTGGTTCGAGAT GGGCGGATCTCATCTAGCAGTCCTCTCGCTAGTTCTGGAATCATGCATGGGTCCCCGATGTCTGATGATTCATCTCATCA TTCTGATTCAGGAATATTGAATGATGGTTTCAGTAATGGAGTGGTTAACCACACTGGGCCAAAACCCTTGGATAATGCAT TATATTCACAATGTGTACTTGCTATGTGTACTTTAGCAAAAGATCCATCGCCCCGCATTGCTAACCTTGGCCGCCGAGTA CTTTCCATAATAGGTATTGAACAAGTTGTAGCAAAACCATTGAAATCTACTGGTGTTCGTCCTAGTGAAGCTACAGCCAC TCCTAGCCTTGCTGGACTTGTTCGCTCATCTTCTTGGTTTGATATGAATGGAGGTAAGCCGCCCTCTCTTTTTATTTGAC GATTAATATCCTGGGATAATTTTCAATTCAGTTTGGTAAGGTTTATCTGTTTATCTCTTTGCATCAGATTTTAATTTTGT GATAATTCATGCTGCTATGTTATTTTCTTTTTTTGTTTATTATTGTATGCTGCTTTTGCAGGACACTTGCCTCTAACCTT CAGAACTCCTCCAGTCAGTCCTCCTCGCCCAAGTTATATAACTGGAATGCGCAGAGTATGTTCATTGGAGTTTAGGCCCC ACCTGATGACTTCTCCAGACTCAGGATTAGCTGATCCACTTTTAGGTTCGGCTGGAGCTGCGGGGAGTTCAGATCGCAGT TTTCTTCCACAATCAACTATATATAATTGGAGTTGTGGGCACTTTTCCAAACCACTTTTAACTGCGGCAGATGATAGTGA AGAAGTATTAGCAAGAAGAGAAGAGAGGGAAAAATATGCATTGGAGCACATAGCAAAATGCCAGCACTCAGGTTTGTATT TCATTTTTCTTATCCAATTAAGCAAGTATTTTATAAATGTCCAGTTGGGAACTTCACTTCATTTTCTGCTGTCAGCTGTG ACCAGACTAACAAATCCTATTGCTAAATGGGACACTAAGGGTACACAAACAGTGTTGCTGCAACCTTTCTCTCCTATAGT GATAGCTGCTGATGAGAATGAACGTATCAGGTATGTGAAGTTCATCAATATTATTTTTAGTTAAGTGCAGACTGTTATCA AACTGGGCATGACTTTAGATGAAGATCATGATGGGGCTTTAGTGTGAAGGCAATTAATTAAAAGGCCTAATCCAAATTGA TAAGAGTAATAAATTTCCAGATCTTGTTCACCTTCAGGATTGGTAGACTCAGGAAGATTGAGCAACATTTATCAGATATA GCTACTTAAGAATCTAAACAGCCACATTTTTTAGATATTTTTATGGACATTACGATGTGTTTCAATTTGGTCAGAATATT TTTTTAGTCTTGAAGAATCTCATTGTTGTTAGTCCTTGTATTGCATCATTTTGGCTTGTCTAATGTTATTGGGAGTTTTC CACAGGGTATGGAACCATGAAGAAGCATCACTTCTCAACAGCTTTGATAACAATGATTTTCCTGACAAAGGAATTTCTAA ACTCTGCCTAGTGAATGAGCTTGATGATAGCTTGCTTCTTGCTGCTTCATGTAATGTTATCTTCTGTTTAATACTATGCA TTCTATTCACAAATTATTGTTGCAGTACTAAATATCAGGTAATCTTATGATGCAGCTGATGGAAATATTCGAATTTGGAA AGATTATACTCTAAAGGGTAAACAGAAGCTTGTATCTGCATTCTCTTCAATTCATGGTCATAAACCTGGTGTGAGGAGTT TGAATGCAGTTGTTGATTGGCAACAGCAATGTGGTTATCTGGTATACAATTCCTCTTTGATTATTCTTAGGAATGTGGGA TATTTTCTTATACCAAATCCCTAAAACATGAACTCCAATTCTTTATTCTTCCCTTAAAGTGATGTTAGTGATTTTTTATG TTGTTCCATGTTGCATTTATGCATGTACCAGTATGCATCGGGTGAGATATCATCTATTATGCTATGGGATCTTGATAAAG AGCAACTTCTTAATGCTATACCTTCAGCATCAGATTGCAGTGTGTCTGCATTGGTAAGCTTCATCTATGTATGATGGTAG TTAGCAATGGAAATTATTATATTTGCTCAAATTATGTTGACGTGATAGCTTAATAGAGTTTATCCTTGAAAAGACATGTA CTATGTTGTATTCTGAAGAAATTTGGGGCTAATATTTTTATTCAGTGTGGCAAGCCCATTACATTTAATTTAGAGCTCTT AACTGTTGAGTTCATGTCTTGTAACCTGTTTATATATTTATTTATTTTCTCTGTAATAAGGACCAATATCTGCTGTTACT TAGAAACATCCCCTCCCCCCCCTTCATGACTTCTTCAAATCACCTGTTTGTGTTTAACTCAAGACCTAAAAACACTTTGT GGATCTTCTGTTTACGTTCTGGAAATTTCAATTCTTATCAGCCTCTCTTTAAATATGTTGGCATGATTGAAGATTCGATG ATATGGTTTATATGATTTTCTTTGAGCAACTAAGAAACTTGGAGCTCGTTGCGATATGTTCTCAAATAGTTTATTTTGTC TTTTCCAATTTCCAGTATAAGTTTTTAGAAGTTGCAAAGGAAGATCTGAGTTGACTGCTCTTGTACATTGTTGTAGTACA GTTATGATGGGATGTGATTCTAGTATTATTTTATTCCATCTGTAACCAGATCATGCTTCTATATAGAAATTATTTATGAA CAATTTTTCCCTTTTTATGCACTATATATCTTTGTTTCAGGCCGCATCTCAAGTTCATGGGGGACAATTTGCAGCTGGGT TTGTAGATGGTTTCGTCAGACTCTATGATGTCAGAACACCTGAAATGTAAGCACCTCAGATGAATTTCTGCCATCATGAC GAAATATAAAAAGTAGAAACTTGTTGTTAGTTCTTCTTAACTGATCAGATCGATTTGAGCAGTGTCCTTATTCTCAGTTA TATGATATTATTCTTTTGACATGTTTACCTGCTTGTACCTAAATCTTACACTTTTTAAGAGTTCATTTAGAAGCCTCTAC CTCTTTACTTCGAATCTCATAATGACTAATGACAATGATGCTTCTTAGGCTCGTCTGTGGATTACAGCCACACACACAAG GAGTAGAAAAAGTTGTGGGGATTGGCTTTCAACCTGGGTTGGACCCAGGAAAGGTAAAAAGAGCATGTTGCTAGTTTCAT ACATTTTTTTAATATCCCTTGCATACAATGTTTGTACTCTATACCTTGGTAGGAGTTTGGTGATTATGGTCTATGAATTT GGTTTGAAATGGATGATTAGATTATCACATTTGTTGCTTTCCTTCAGATTGTTAGTGCTTCTCAGGCTGGGGATATCCAA TTCCTTGATATAAGAAATCACAGCAGCGCCTATCTCACTATTTCAGCTCACAGGGGTTCCCTTACAGCTTTAGCAGTACA TAGACACGCTCCAATTATTGCCAGCGGTTCTGCCAAACAACTCATTAAAGTTTTTAACCTGGAGGGTGATCAACTGGGCA CCATTCGTTACTATCCTACCCTAATGGCCCAGAAAATTGGTTCAGTAAGCTGCCTAAATTTCCACCCATACCAAGTACTA CTTGCTGCCGGTGCGGCAGATGCATGTGTATGTATTTATGCTGATGACAGCACTCAAGCAAGATGA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0452200.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCATTGCGGTGGTTCTGTACTCGTTCATTACTTCGTCAGTCGCTTGATTATTCCCTTATAGATAAGATCCCTGGCCG TCCCAATGACCGAAAGACACTTCTGGGTGAATTGAATTGGATTTTTACAGCAGTAACTGATACGATTGCCTGGAATGTTC TTCCTCATGAACTTTTTCAGAGGCTGTTCAGACAAGATTTGCTTGTTGCAAGTCTGTTTCGAAATTTTCTACTTGCTGAG CGAATAATGCGATCTGCAAATTGTACTCCTGTCTCTCACCCTATGTTACCGCCAACTCATCAGCATCATATGTGGGATGC ATGGGACATGGCTGCTGAGCTTTGCCTCTCTCAACTTCCCTCATTAGTTGAGGATCCTAATGCAGAATTTCAGCCTAGTA CATTTTTCACTGAGCAGTTGACAGCATTCGAGGTATGGCTTGACCATGGTTCTGAACATAAGAAACCACCAGAACAGTTG CCTATAGTTCTTCAGGTTTTACTCAGTCAGTGCCATCGATTTCGGGCTTTAGTTCTCCTTGGAAGGTTCCTTGATATGGG GCCATGGGCTGTTGATCTGGCATTATCTGTTGGAATATTTCCTTACGTTCTTAAGCTGCTGCAAACTACAACACCAGAAT TACGTCAGATTCTTGTATTCATATGGACTAAGATTTTGGCACTTGACAAGTCATGTCAGGTTGATCTAGTGAAAGATGGA GGTCATATCTATTTTATTAAGTTTCTTGATAGCATGGAAGCATATCCAGAGCAACGAGCAATGGCTGCTTTTGTTTTAGC TGTGATTGTGGATGGTCATAGAAGAGGTCAAGAAGCTTGTATTGAAGCTGGTTTGATCCAAGTCTGCTTAAAGCACCTTC AGAGCTCATCTCTCAATGATTCACAAACCGAACCCCTTTTCCTTCAGTGGCTGTGCTTGTGTCTGGGGAAATTGTGGGAA GACTACACAGAGGCGCAAGCAATCGGTTTGCATGAAGATGCTACTTCTATATATGCTCCTCTACTTTCTGAACCCCAGCC AGAGGTTAGAGCATCTGCTGTTTTTGCACTGGGCACACTTCTTGATGTGGGATTTGATTCATGTAGAAGTGTTGGAGGAG ATGAAGAATGTGATGATGATGACAAGTTTAGGGCTGAAGTTAGTATAGTTAAGAGTCTGTTGAGTGTTGCTTCAGATGGG AGTCCGTTGGTGAGGGCTGAGGTTGCAGTGGCTTTAGCAAGGTTTGCTTTTGGCCACAACAAGTACCTGAAATCTATTGC TGCTGCATATTGGAAGCCTCAGACTAGTTCTTTGATAAATTCCTTACCCTCATTGACTAATATTAAAGATTCAGTTGGTG GTTTTTCTAACCAGAACCAGCATAAGCCTCATGGAAATATTGTTTCACCTCAAATTGGTCCTCTCAGGGTTGGGAGTGAG AATTCTAAAGTGGTTCGAGATGGGCGGATCTCATCTAGCAGTCCTCTCGCTAGTTCTGGAATCATGCATGGGTCCCCGAT GTCTGATGATTCATCTCATCATTCTGATTCAGGAATATTGAATGATGGTTTCAGTAATGGAGTGGTTAACCACACTGGGC CAAAACCCTTGGATAATGCATTATATTCACAATGTGTACTTGCTATGTGTACTTTAGCAAAAGATCCATCGCCCCGCATT GCTAACCTTGGCCGCCGAGTACTTTCCATAATAGGTATTGAACAAGTTGTAGCAAAACCATTGAAATCTACTGGTGTTCG TCCTAGTGAAGCTACAGCCACTCCTAGCCTTGCTGGACTTGTTCGCTCATCTTCTTGGTTTGATATGAATGGAGGACACT TGCCTCTAACCTTCAGAACTCCTCCAGTCAGTCCTCCTCGCCCAAGTTATATAACTGGAATGCGCAGAGTATGTTCATTG GAGTTTAGGCCCCACCTGATGACTTCTCCAGACTCAGGATTAGCTGATCCACTTTTAGGTTCGGCTGGAGCTGCGGGGAG TTCAGATCGCAGTTTTCTTCCACAATCAACTATATATAATTGGAGTTGTGGGCACTTTTCCAAACCACTTTTAACTGCGG CAGATGATAGTGAAGAAGTATTAGCAAGAAGAGAAGAGAGGGAAAAATATGCATTGGAGCACATAGCAAAATGCCAGCAC TCAGCTGTGACCAGACTAACAAATCCTATTGCTAAATGGGACACTAAGGGTACACAAACAGTGTTGCTGCAACCTTTCTC TCCTATAGTGATAGCTGCTGATGAGAATGAACGTATCAGGGTATGGAACCATGAAGAAGCATCACTTCTCAACAGCTTTG ATAACAATGATTTTCCTGACAAAGGAATTTCTAAACTCTGCCTAGTGAATGAGCTTGATGATAGCTTGCTTCTTGCTGCT TCATCTGATGGAAATATTCGAATTTGGAAAGATTATACTCTAAAGGGTAAACAGAAGCTTGTATCTGCATTCTCTTCAAT TCATGGTCATAAACCTGGTGTGAGGAGTTTGAATGCAGTTGTTGATTGGCAACAGCAATGTGGTTATCTGTATGCATCGG GTGAGATATCATCTATTATGCTATGGGATCTTGATAAAGAGCAACTTCTTAATGCTATACCTTCAGCATCAGATTGCAGT GTGTCTGCATTGGCCGCATCTCAAGTTCATGGGGGACAATTTGCAGCTGGGTTTGTAGATGGTTTCGTCAGACTCTATGA TGTCAGAACACCTGAAATGCTCGTCTGTGGATTACAGCCACACACACAAGGAGTAGAAAAAGTTGTGGGGATTGGCTTTC AACCTGGGTTGGACCCAGGAAAGATTGTTAGTGCTTCTCAGGCTGGGGATATCCAATTCCTTGATATAAGAAATCACAGC AGCGCCTATCTCACTATTTCAGCTCACAGGGGTTCCCTTACAGCTTTAGCAGTACATAGACACGCTCCAATTATTGCCAG CGGTTCTGCCAAACAACTCATTAAAGTTTTTAACCTGGAGGGTGATCAACTGGGCACCATTCGTTACTATCCTACCCTAA TGGCCCAGAAAATTGGTTCAGTAAGCTGCCTAAATTTCCACCCATACCAAGTACTACTTGCTGCCGGTGCGGCAGATGCA TGTGTATGTATTTATGCTGATGACAGCACTCAAGCAAGATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0452200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MALRWFCTRSLLRQSLDYSLIDKIPGRPNDRKTLLGELNWIFTAVTDTIAWNVLPHELFQRLFRQDLLVASLFRNFLLAE RIMRSANCTPVSHPMLPPTHQHHMWDAWDMAAELCLSQLPSLVEDPNAEFQPSTFFTEQLTAFEVWLDHGSEHKKPPEQL PIVLQVLLSQCHRFRALVLLGRFLDMGPWAVDLALSVGIFPYVLKLLQTTTPELRQILVFIWTKILALDKSCQVDLVKDG GHIYFIKFLDSMEAYPEQRAMAAFVLAVIVDGHRRGQEACIEAGLIQVCLKHLQSSSLNDSQTEPLFLQWLCLCLGKLWE DYTEAQAIGLHEDATSIYAPLLSEPQPEVRASAVFALGTLLDVGFDSCRSVGGDEECDDDDKFRAEVSIVKSLLSVASDG SPLVRAEVAVALARFAFGHNKYLKSIAAAYWKPQTSSLINSLPSLTNIKDSVGGFSNQNQHKPHGNIVSPQIGPLRVGSE NSKVVRDGRISSSSPLASSGIMHGSPMSDDSSHHSDSGILNDGFSNGVVNHTGPKPLDNALYSQCVLAMCTLAKDPSPRI ANLGRRVLSIIGIEQVVAKPLKSTGVRPSEATATPSLAGLVRSSSWFDMNGGHLPLTFRTPPVSPPRPSYITGMRRVCSL EFRPHLMTSPDSGLADPLLGSAGAAGSSDRSFLPQSTIYNWSCGHFSKPLLTAADDSEEVLARREEREKYALEHIAKCQH SAVTRLTNPIAKWDTKGTQTVLLQPFSPIVIAADENERIRVWNHEEASLLNSFDNNDFPDKGISKLCLVNELDDSLLLAA SSDGNIRIWKDYTLKGKQKLVSAFSSIHGHKPGVRSLNAVVDWQQQCGYLYASGEISSIMLWDLDKEQLLNAIPSASDCS VSALAASQVHGGQFAAGFVDGFVRLYDVRTPEMLVCGLQPHTQGVEKVVGIGFQPGLDPGKIVSASQAGDIQFLDIRNHS SAYLTISAHRGSLTALAVHRHAPIIASGSAKQLIKVFNLEGDQLGTIRYYPTLMAQKIGSVSCLNFHPYQVLLAAGAADA CVCIYADDSTQAR

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	PTHR12848 View details on PTHR12848 Search for proteins/transripts with this domain View external data on PTHR12848	1	1048	1048	0.0	IPR004083 Show description in modal box View details on IPR004083 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR12848:SF17 View details on PTHR12848:SF17 Search for proteins/transripts with this domain View external data on PTHR12848:SF17	1	1048	1048	0.0	–
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	24	51	28	8.5E-87	–
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	59	83	25	8.5E-87	–
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	135	165	31	8.5E-87	–
SUPERFAMILY	SSF48371 View details on SSF48371 Search for proteins/transripts with this domain View external data on SSF48371	151	573	423	5.35E-33	IPR016024 Show description in modal box View details on IPR016024 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	166	187	22	8.5E-87	–
Gene3D	G3DSA:1.25.10.10 View details on G3DSA:1.25.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.25.10.10	169	451	283	9.6E-28	IPR011989 Show description in modal box View details on IPR011989 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	189	208	20	8.5E-87	–
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	213	229	17	8.5E-87	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	489	519	31	-	–
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	726	763	38	99.0	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50294 View details on PS50294 Search for proteins/transripts with this domain View external data on PS50294	731	1053	323	18.457	IPR017986 Show description in modal box View details on IPR017986 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.130.10.10 View details on G3DSA:2.130.10.10 Search for proteins/transripts with this domain View external data on G3DSA:2.130.10.10	733	1052	320	5.7E-37	IPR015943 Show description in modal box View details on IPR015943 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF50978 View details on SSF50978 Search for proteins/transripts with this domain View external data on SSF50978	736	1045	310	3.66E-36	IPR036322 Show description in modal box View details on IPR036322 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	766	810	45	1.8	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50082 View details on PS50082 Search for proteins/transripts with this domain View external data on PS50082	793	810	18	8.57	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	866	907	42	2.2	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01547 View details on PR01547 Search for proteins/transripts with this domain View external data on PR01547	891	909	19	8.5E-87	–
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	959	998	40	0.023	IPR001680 Show description in modal box View details on IPR001680 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00320 View details on SM00320 Search for proteins/transripts with this domain View external data on SM00320	1011	1046	36	17.0	IPR001680 Show description in modal box View details on IPR001680 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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	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).	Subterm of View details of GO:0005488
GO:0031929 View details of GO:0031929 AmiGO InterPro QuickGO	Biological process	TOR signaling	A series of molecular signals mediated by TOR (Target of rapamycin) proteins, members of the phosphoinositide (PI) 3-kinase related kinase (PIKK) family that act as serine/threonine kinases in response to nutrient availability or growth factors.	Subterm of View details of GO:0035556
GO:0031931 View details of GO:0031931 AmiGO InterPro QuickGO	Cellular component	TORC1 complex	A protein complex that contains at least TOR (target of rapamycin) and Raptor (regulatory-associated protein of TOR), or orthologs of, in complex with other signaling components. Mediates the phosphorylation and activation of S6K. In Saccharomyces, the complex contains Kog1p, Lst8p, Tco89p, and either Tor1p or Tor2p.	Subterm of View details of GO:0032991 View details of GO:0038201

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0452200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0452200.2