Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0287600
Transcript ID	LotjaGi4g1v0287600.3
Related isoforms 5	LotjaGi4g1v0287600.1 LotjaGi4g1v0287600.2 LotjaGi4g1v0287600.4 LotjaGi4g1v0287600.5 LotjaGi4g1v0287600.6
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp\|Q40392\|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr\|A0A151T389\|A0A151T389_CAJCA TMV resistance protein N; Found in the gene: LotjaGi4g1v0287600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:65997402..66009715) extracted from Lotus japonicus Gifu genome v1.2.

ACCACCACGAGGGAAACGGGATGCAAAGAAAGCAATAATAAAAGGAAAAGCTGAGACAAGATGAGACATAATAATTGCCA AAGGATAGTAGATGAGTGGCCAATACTCAATAGCACTGAAGTCAAAACTGATCAGACACGCACCACGGAAGGCACACACT TGTTCTTCTTGTTAATTGAAAAACCAGATTAGTTTGATTCCAATGGCCGGGAGCTCTTCTTCTTCTGCTGCTACTATGGC TCATCCTCCTCCTCCTCCTCCTACAAAGTATGATGTGTTTTTGAGCTTCCGAGGGGAAGACACGCGCAAGAACTTCATGA GTCATCTTTATGCTGGACTTGACAGGAAAAAAATCAATGCCTTCATAGATGACAGATCACTAGAGACAGGTGATGAGATC TCACCTGAACTCTGCAAAGCAATTGAAGCATCAATGATTTACGTCATCATTTTCTCCAAAGACTATGCTTCTTCCAAGTG GTGTTTGGATGAACTTGTGAAGATTATGGAATGCAAGAAGAAATATGAAAGGGTTGTGATACCTATTTTCTACTACGTGG AACCAGCAACTGTTAGGCATCAGAAAGAGACTTATGCAGATGCGGTTGTGAAGCATCAAAACCGGCTAGTACCAAAGGAA GTAATACAGAGATGGAAGGAAGCTCTAACCGAAGCTGCTGGAATCTCTGGCTGGGATTCAAACGCCGCCAGGTGACTACT TTTTTAGTTAATTCCACCGTTAGTCTGCATGTGTTTTTCTTAATCATCTGATCTAATCAATTTATAAATGTTTCGTTTTT AAAAATGTTGTGGTCTTTATTTTACAAATCAAAAGCAACAAATATGACACTACTATGTTTCCCTACTGTTGCTACGTAAT GACCCCAAATTAATGTTGTTCCTTTCATATGTTCCAGAACAGAATTCGACTTTGTTGATGATATTGTAGAAGATATTTTA AAAAAATTGGATCGTTTTATCTCAAGTTATAGTGATAATAAAGGAATGGTTGGAATTGATGAGCATATTTCACAAATCCA GTCCTTCTCACAACTTGAGCCAGAAGCTGTTCGGATCATAGGAATTTGGGGCATGGGAGGAATAGGTAAAACTACACTGG CCCGGGCACTCACTACAAAAAACTTGTCATATAGTGACTGCAGAAAGCCGTAGGTAAAGGGTAAAAAACCGTCGCTATTG TTCGAAAAACTTTTACCGACGGAAAAAATTTTCGTGGTTTTTATTTCGTTGTACCCACGGTTTTGGTTCCGTCGGTATAG CTTATAGTGACGGTAATCCTGCCTTAAGTTTAGCTCAACATGATATACCTACGGTTTTGTTTCCATCGGTATAGGTATTC ATGACAATTTACGGTTGCACTATACCCACGGAAATATTGCCGACGCTGTAACATTTTTGTGACGGAGAGTCGTCGTTGGT AGTACTTTAACTTATACCAACGACAATATTTCTGTCAGTATAGGTTTTAATTGTTTTTTTTTAATAGCTACGAATTTAAT ATCATTGCTATTGGATTTAATGACAGTAGTAAATACTAACAAATGAAGATTTTAATTACACATTATAAATTACAATTGTC AACATTACTCGATTATTATGGGTTCTAAGAACTTTTTTACTAATATAAGTTAAATATCCCTTAATTGTTTTAAAGGATAA AAGCACCTATACACATTCAGCTCACATAAAAAAGTGATTTTGCAAAACAAGGGTCGTTTGCGTTTTCAGAAGAAGAAGGC TTTTGTGTTCTCAATGTCCTTTTGCGTTTCAGAGAGAGTAAAGGCTTTTTTTCTCCTATAATTTTAGTCTTTTATGATTA TTTTATGATAAAAATAACCTTTGCAAAAAAATAAGCCCTTAATTGTGAAATTTTTGGCGGGCAAATTTTAGCTACGGCAT ACAAAAGCGTTGGTTTATAATACTTATAGCCACGGTAAGTCAAATTCCGTTGGTATACGATATCTATTCTCACCCTATTT ATATCTATCACTATATCCTATAGCGACGAAATTATATCTGTAGATATATGTAATCTATACCCACAGATTTTATACTCGTC CCTAAAACATATAGTAACAAAATAAAATATTGGTTGGTATATGATGCTTTTACCCATGGTTGAAGTTTTGTCACTAAATG AATTAGTTACAGTAATAATCATCCGTAGGTATATCCTACCTATAGCCACGGTTAATAAGGAGTCTGTTGGTAAATAACAC TTATACATACGCTTTTTAATGCTGTCACTAAAGCTGTCCGTTGGTATATGGCAATTTTTTTGTAGTGACTGTATGACAAA CATGGGAACCAATTCAGTTCCACGTTGGTTGAAAATGCTCAACAAGAAATAGACACAAATGGAACATACAGTCTACGTCA AAAGTACTTATCAAAGCTTGGTTTTTCAGATGAAAGGGTCAAACGGGCAAAGGTTCTTCTTATTCTTGATGACGTGAAAA CTTCAAGTCAAATTCAAGAATTGATTGGAGGGCATGGAAACTTTGGCCAGGGAAGTAGAATCATTGTGACTAGTAGAGAC CTGCAGGTGCTTAAGAATGTTGAAGCGGATGAAATATATCAAGTCAACGAGATGAGTTACCAAGACTCTCTACGACTCTT CACATTGAGGGCCTTTAAACCAAACACTCCCGTGGAAGGTTATGCAGACTTGGTAGAAGAGGTATTAAAATATGCTAAAG GGGTTCCATTAGCTCTCCAAGTCTTAGGCTCGCTGCTTTATGATAAAAAAAGGGAAGTATGGGAAAGTCTACTACAAAAG CTGCGAAAACTTCCCAATCGTCAAATTATCGATGTGTTGAAATTAAGTTATGATGGGCTGGATGATGAAGAGAAGGACAT ATTTCTTGACATTGCTTGCTTCTATGTAGGCCGGGTTGAGGATGCAGTAGTGGATTTCATAGATGCTTGTGGTTTCTCTG CTAAAGTTGGAATGGATGTTCTCAAAGATAGGTGCCTTATATCTATTTGGGATTATCGAGTCGTGGTGCATGATCTAATA CAGGAAATGGGAAAAGATATTGTTCATCAACAATGTGCCAATGATCCTGGAAAACGTAGTCGTTTATGGGACTATGAAGA TATTTACAATGTTTTAAAAAATAACAAGGTATATTCTCACGCATCTCAACAACTCACATAGTCTCATGGATTTACTTCTC ACACACTACAAAGTACTTAGCGGTTATTAAATTTCTTGCAACTAACTGCACATTCTTTCATGTTTATTTATCTATAATTC CTTGCTTTTACTTTTAGGGCACGGATGCAATCCAATGTATATTCCTCGACATGAGCACGAAAACTGTTGTTCAACTACAT CCTGAGACTTTTAAAAGCATGCCTAATCTGAGAATGTTTTGTTTGGATAGTCGTGATATTCAACCAAAAGTGACCCTTTC TGCATTTCTTGAAAGTCTTCCAGATGGTTTAAAATTGCTTCATTGGGTTGGGTTTCCTCAAAGATCCTTGCCGCTTTGTC CTGAAAATCTTGTTGAACTTAAAATGCGTCATAGCAAGCTTGAACAACTTTGGGAGGATGATCAGGTAGTTCAAATTTTA TGTTGTGTTCCTTTATATTTTAGGTATGAATTGCAGTATAAATTGAGGAACTAACAACATACTAAGAAAACACAAACTTG TCTGAGACATGTGAAATCACACCGTCTTAAGAATGATTTATTTACTTAGAGAAAAATCCCCTTAGAACAAGACGAGAATT CCCTTTATAAACCAGTAAAGCCATCAAATATGAAGGGAAAAATGAAAAATAAGTGATATGCTAAGTGATGTGATAGAAAA TGCAGATAGATGAAAAGAAAAATGAGTAAAATGAGATTGAGAAGAAAATGAGTGTGTATATATTAAAACTACTTACAAAT ATCATAAGCCATACATAGCTTAGCCTTTACGAGCAAAATTACCTAGATAGCAAAGCTTCTAGATAATAAATAATTTTTTT TCATATATATACAAATAATTTATTTTCGATTGAATATATATAATAGATAAAATGACATGAAATAAAATAAAGAGAGAAAA TAGAGGGAGTAATTACCAAGGATAGTTTAGGAATTAAACATGAGTAATTTACAAAGTCAGTTAAAAGTCAATAAAAGTAT TATTGAGAATTTAATTTTGCACACTTTATAAAGCTTAAGGAGTTAAATACACATTTTTAAAACTTCAGGGACTATTTTGC TTTTTTAACTAGCTTATAACATGAATATAGGGTTAAGTTTACCTGCTTTTTTTTTTTCTCCTAATCATTTACTACTTTTT ACATCAGGAATTACCGAATTTGAAAAGGCTTGATCTTGGGGGTTCTAAGCAGTTGGTTCGAATACCAGACCTTTCAAAGT TCCCAAATATTGAAGATATAGTTCTTAGTGGTTGTGCAAGCTTAATTGAAGTTTACTCATCAAGTTTCCTCAGCAAACTC AAATGTTTAAAGTTAAGGAGGTGTGTTGAGCTTACAAGTTTAAATGTTCCTAGCAATATTCTATCGAGATCTTCTGGACT AGTGGAGCTCTCTAACTGTCGCAAGCTAAAAACGTTGTCAATCAACAGAACCAAGGTGGTTGAATCGCATTTTGATGGAT CTTCCTATGAGTCTTGTTGTTTGATGCTCCATAATTGTGAATCGCTTACAAGCCTTCGAATCGACCTTTGTCGGTCAAAA TTGCTGCAAAAACTTTGTCTGAGTGGTTGCTCAAATTTACAAACTTTTCCTGAAATTGAGGACACAGTTGAAAACTTAGT CGTGCTTCTCTTAGACGAAATAGCTATACAAGAACTACCTTCATCCTTGCATCGCTTTGTGGGGCTTCAAGAATTGAGCT TGCGTAATTGCTCAAGGCTTGAGATTATTCCTTGTTCCATTGGAAGACTCACCAAACTCCGCAGCTTAGACCTTACCGGT TGTGAATCACTTGAAACATTTCCAAGTAGCATTTTCAAATTAAAGTTGACAGAACTCGATTTGGATGGTTGCTCAAAGCT AAAGACATTCCCAAAAATCTTGGAGCCTGCAGAAAGTTTTGCTGACATTAACTTACCATATACAGCAATTAAAGAACTGC CTTCATCTTTGGACTTCTTGGTGGGTCTTCAAACCTTGTGTCTGTATGGGTGTCGTAATCTGGAGTCACTTCCAAACAGC ATTTGCAATCTAAAGCTTCTATCTAAGCTTGACTGTTCAGGTTGTCGCAACTTAACAGAAATCCCAAATGACATTGGCCG CTTGTCATCATTAAGGAACTTGCAACTGCATCGTACCAAAATTGTGAACTTCCCAGAGAGCATTGGTCATCTTTCAAGCT TGGAATCACTTAATGCAAGTTATACCGGAATTGTGAACCTTCCAGAGAGTATTGCTCATCTTTCAAGCTTGAACTCACTT AATGTAAGTTATTCCGAAATTGTGAACCTTCCAGAGAGCATGGGTCATCTTTCAAGCTTGAAATCACTTAATGTAAGTTA TACTGGAGTTGTGAACCTTCCAGAGAGTATTGCTCATCTTTCAACCTTGAAATCACTTAATGTCAGTGGTTGCAGAAAGC TTGAATGTATCCCAAAACTTCCACCATTTCTGAAATGGTTATTGGCATTTGATTGCCCATCCATTACAAGAGTGATTTCA AATTCAACGTTCAAACACCCTTCAGATTCCAAAGAAGGTACCTTCCAATTTCATTTCACCAGTAATGAAGATCAGGATCC AAGTGCTTGTAGTGATGTTGTGGCCGATGCAAGGCTTAAGGTCATAGAGGATGCATATAGATTTGTGTACTATTGCTTTC CAGGGAGTGCAGTTCCATATTGGTTCCCTTATCGATGCGAGGGAGATTCAGTAACTGTGGATAAAGATTCTCTAAATTGG TGCAATGATAACAGGCTCATCGGTTTTGCTATGTGTTTCGTTTTGCAACATAAAAATACAGGATCTGGTTCTTTAAAATG CAGCATAATAGTTAAATCTGATGGGTGCACATTCACCCTTCCCCAAGAAGATCAGCTAAGAGACTCTTTCTCTTGCAGTG CTGCACAAGTGGGACAGAGAGATCACACATTCCTATGGAAATATTACTTAACGGACTCTGTCGACGAAGGGATCTTTCAC GCCTCCAGCTTCACTTTTAAGATCCCTATTCCGAGCTATCATGAACCAAGTTATGAGGTGAAAGAGTGTGGAATATGCCC CCTTTATACCTCCATCATATCAGAGAAGCGAAAACCCCCCGAAAACCCGTTAAGAAGAAGAAGAAGGTCGTCTCCCTTCG TCGTTGTTCAGATCTGAAGCCAAACTTCGCATTCCTCCTTCGCTGTTCACATCTGAAGTCAATACTATAAAACCTTGGCT GATCAAAGAAAAAGAAATAATAATAATTACTATAAAACGGCTAAGGTGCTTCTATCTTCGGTTACAGAGAATACACAATA CTAGGCCTCTGTATAAGATGAAACAATAATGGAACCCCTGGTTGAGGGAAAATTTGGACTGCTATGCTATTCTAATACTA GTACTACACAAGTATTTACAAACTATGTCTATCTCCCGTCAAAAGAAGCACACTAAGAGCAGCTGGAATATGTCTCTGAC TTGATTACCCGAGTATTGTAAGAGCCACATAGTCCACACTTGTGATACAAACTGACTTGATAGACAAGAAATTTACAACA ACAAAAAAAAATTTAGCTGGCCAGCTAAAATGCCAGAATGCTCTTTCATAAAATCCACATTTGTTTTTGTAGTGAAAAGT AACATGAACGAGATACCAAAGTATTCACCTGATTGCAGTTCCTGTACTCTTCAGGAAGCTCCTCAGCAGCCAATAAGGCA TCAAACATACCAAAGTAAACCTACATAGATAGAGAAAAACAACTAAATATGCCATATCGTGCAAATTTTCAAGCATTTCT ATTTCCATCTCAACGCCGCACCAGAAATAGTCATACCCCAATACGCTACTCAAAGAAACCCCGGACAAAATGGTTGACAA TGAGTCCTACATGTGCAATCCCAACCGATGGTAGTGAAAAAAATTGGCTCTTTAGTTATATGTGGTAAGTAACTCATACC CCATATCATACAAGGTATTGAAATTTGACATGAATATTCTAATTACATCCTTCATCTTTTCAATGAAACTTTTAATAAAA GGGAGTGTGTTTCCTCTTACACTCCTTAGTTATCTCAAATTCTTAATTCAGAAACAGCAGCAACATATGCATTACTTTGT TAAAATCGTTAGGTTTATGTTTTTCAAGTTTTACTTTGTTTAAAACTAAGAAAGAATTTTTATATTTGACTAACCTATTT GAAAATATCAAAACAGAAATTGAGCAAATAATCTATCCGAGTATTTGCCGTGTGTTGGTGAAACCCAACCTACTCCACTA CAATGCCAACATCATATCATATCTTTTGACAAAAGAAAAAATATCACTATCAACATCTCTCTCTTGTTATTTCCTCTCCT TTTTCTTCAACTTTAACGTTTTTTCCACACGAATAATGTTTAATCTATATCTCATGACTCTTTAGTGCATATTACCTACA TCAAACATAGATAATAGAATTGGAGTATCAACATGCATAAAATAACATAAAATCTGTTGTAATTTAATGGGAAGAGCTAT GTAAAGGATAACATGTGTATGAAAAATGTATACAAAAGTAACACATCAGAGAATATAGAAGAGTCTAGGCAGAGACAGAA GTAAGTACAATCAAAAGAAAAATTAAACCAGTGCAGACTGCAGACAACTGCAAAATGAGTGTGGTACATGATGTGATAAA AAGAGAGAAAAGAAGAGAAAAATGTTGTGTTTGAGGAGTGTCTAACTGTTTGAGTGTCTACGTATCACTATTGCAATCAA AATGATGATTTGGATATTCATTTGGAAAGGAAACAGTCAAGATCAAGGTGACTTAAGGGGCAGTCTTCCCATTAATGTTG TTCTATTAACTCAAGAAAGCCCCATTAGCCTTTCTCAAGTGACCTTGTTCCCAAAATATGTCAAGATTACATCAAAATAG AGAGAAACAAGGCCACATTCAACTCTCTCATTCCTCTAGAGTTTCAAGTTTCAAAACTAAACTAAAAAAGGGCATTTACT TTTTTATACAGTAAGATTAAAAAAGGAGTGGCTGAAGTCAATTCAAAGAGCAAGTTCTGGTGTATATTCATCAAAGCTTT CTTCATCTACCAGAAGGAAAGAAAACAAGAACACATCCACAATAAAAACAGAATTCAAGAACTTAACTGCTCTACATTTT CTCCAAGGTTACATGAGAAGCTCTCAAGTAATGTGGGGGGAAAAATCAAAAAGTTAAATTAAATTAAACAACCTCTATTC CTTTTCATGATGTCCTTCATGCTTTCTAAATGCTAACTAGTTGTTGCAGGTTCAATATCCTTCAGAAGTCCAACTATTTG CTGCATGGTTGGTCGTTTGAAGGGGAGATCAGCAGTGCACAGATAACCAATCTTGAGGGCCTCTTCCATTTGTTCATCCG GTCCTGTATCGCGAATTTTGGGATCAATAGCTCTTGAAGTTTGGTTCTTCCTCACTAGCCCTCTGACCCAACTAACCAAG GTTTCTTCTTTATCATCATGGTAATCATCTTCAACTGGCTTCTTTCCAGTAAGTAGTTCAAAGAGAACAACTCCAAAACA GTACACATCAGATTTTGTTGTTGGGGTATCAAAGTCTGGCTGAGTAAACTCCGGCGGATCATAACCGGGCGAGCCGCGCG CAATCTCTTCATCTAAGCCACTTCCAAAGATCTTGGCCAGCCCAAAATCAGACAACCTCGGCTCCAAGTCATAGTCCAAG TAAACACTGCTAGCTTTAACAGCTCTGTGAATGATTGGAGGTGAACATCCATGATGCAAGAATGCCAATGCTCGCGCGGT GCCGAGGGCAATCTTGTGCCGAAAACTCCAGGTTGTGAGTAACCCTTCAGAGCCAGCATTTTGAATCCCATTATTGTCAG GTTCTTCCCATGTGTCAGTGCTCCAGTCATCTGTGCTGTGCAGAACCCCAAGTGGCAAGTCATAAAGCAGGTTTTGCAAG TTCCCATTCTCCATGTAATCATATATGGCAATTCTCTGATCCCCAGCTAAGCAATATCCAGTTAGAAGAACAAGATTTGG GTGCTTGATTCTACCAAGAAACTCAAGCTCTCTTGCAGCTTCTTCATCTGTCAATGTAGACCCAACAACTAGCACTTTAA CTGCTACATGAATACCTCCAGGCAGAAAGCCTCTATAGACTGGCCCAAATTTTCCTTCAGCTAATAGGGTACCGCGGTCA AAATTAGAAGTTGCAGATAAGAGGTCTGCAAATGTGATATTCAACAATGGCTTCTCAAATATCACTACTGGGACTGATGT TGCTTGCTTAACATCAGCCACCCAAGTTGTTGAATCAGTTTGGAAGGAAAAAGGACCTGAAATGTTCTGTTCTTCTTTGT ATGAAGTTTGTTTAACTTCCCACTTTTTTGTTCTCCTTCTGCAACCAAATGCTAGGAGCAAAAGTCCAGCAAGGAGGCAA ATCATGGACAAGCTCAATACCAGAGCCAGCTTCATTCCCTTGTGTCCAGTGGCTCTTCTTTTGAAAAGAGTCGGGTTCGC AGCGATTGGGCAATCGTTCTCTATGCCAATGAATGCTGTTTGCAGGATATCGGGTTTGATTCCTGAAGCACAGAGGGTTA AGTTGTTATAAGAGAAGTTGTATTTCTCCATCCACAGGATTTTATTCAACACAGATTGAGGGACTGTTCCACTCAAATTG TTGTGTGAAAGGTCAAGAACTTGGAGGTGTTTATTCCCCAGTGAGGGAATTTTCCCATCAAGATGATTCATAGAAAGAAC AAGTGCACTCAAATTACTGAGTTGTGAGATTTCATCAGGAATGTGACCAAAAAGACTAGTATTGGACAGGTTCAGATATT CCAGTCCTGGAAGCATTTCAATCTGTGGGAATTTCTGACTGGAAAATCTATTGTGTGCAAGATTCAGGTGCTTTAGATTC AGGGACTCACTCAAATTCTGGAAAACCTCCCCACTAAGTTGATTCTCTGACAAATCCAGATAAATTAAATGAGACCAATT GTAATCAGAGTTGAACTGTACCTGAGGAATGTGACCTTGAAACTGGTTTCTGCAAAGGTCCATGACCTCAACCTTTTCCA GCAACACCCCCATGAGAGAACCCTGAAATGAATTGCCTGATATGTTGAGGCTCACAATGGACTTCAACCCAGAAAAATCT GAACCCCTTCCATAGATATAATTCCCAGCAAGATTCAAGGCCCTAAGCTTAGGAAATGCAACACCAAAACCATCAGGGAG TGTTCCATTCAGCTGATTTGATGAAAGATCAATTGAAACAAGAGACTGGCACTTGAGAATCCCAGAAGGTATGCTTTGAT CAAACCTGTTGTGGTCAAGTTTCAGGACCTGAAGACTCACAAGAGAGCTCAAAGCTTCAGGAATCTCCTCAGAGAAATTG TTGCTGGACAAGTCAAAGTCTTGTAGCAAACCAAAGTTCCCAATGTTGCTAGTCAATGCACCAGAAATCTGATTGGAAGA GAGGTTGAGCCTCTTGAGAGAGGTTAAACTCCAGAAATCTGAAGGCAAACCAGTGATTCTGTTGCAGCTGAGATCCAAAT TTTGAAGCCTGCTGAGCTTCCCTATGGTGTTATCAGGAATAGGACCTGAAAGGCCCATACCAGGAAGCACCAAGTCAACA ACATGCTCTTTATTGGCATCACAGAACACCCCTTGCCATGAACAAACAGAAGAAGAAAAGTTGTAGCCTTGAGAGGAGTT TGTTACACCCATCTTCCTCAAGAACTCAGACACAAAAAACTCATCAGTGTTTGGTTGTTGGGACACCAAGTGCTTGAATA AAAGTGTCAAAACCAGAACAGATCCAAACACTCCCAAACCCATAGAAATGATGCAGAACAACAACCCCAAACCAAAACCT CCACCAAATGCCCCTCTCAGAACTTCAAAACCAATATCATGGATGATGATAATGATGATGGGTTGTTTTTCACTCTACAA GAACCAATGCTGTTGTAGTTTTGTGCATTCTGAATCTCACTAAAACATGAAAACCTCAAAGGGGACCAATTTTCTACTGC AAATGATAGCATAGAAGGACACAGCACAAGACAAGTACACACCAGAAAGAGTAAAACAAGGACCAAACACAAGCTTCAAA AAATACTAGTGGTGCTTTTTAAGAAAAAAAAATTCACTAGATGTGATTCAAAGGTTGTGGACTATAACAAGAGAATGTGA GCATGCCTTGTCTGGATTCATTAGCCAACAAAGAGAAGGGTAAATAAAGAAACAACACAGATGCAAGCAGGAAGCTATTG TCTCTGTCTAGACACTAAGATTGTGGAAAAGTTGTGAAGCTTTTACTTGTGTGTTGCAGAACTTTTTGTGTAGAAAGAAA GAAAGAAACTGATTTTTCAAGAGGGGTTTTTTTGTTTTTCCTCTTCAAATGAGACACGCAGAGCAAAACATGCAGAGAGG TGTGGACCAGGAAGGAGAAGTGGATGGAAATGTGAAGTGGAGTGAAGTGAAGTGGGATTTGAGGTTCATAAATGTGAAGG AAGTGAGTTGAGATGAGATATTGTTAAGGATGACGGTTGGTGGTTGTGAACATATGTAAGATGTGCTGTGTTGGTGTGGA TTCAATGATTCTTCATTGAGTGTGTTTATCACAACCATTTTCTAGGTCCTTGGAAAAGTGGGGGAGAAAAGTCACCCTTA TCATTTCATTCTTCTTTTTTTTCCTCTACATATGAACCTACTTAGGATTTTGCTATCATCCATATGGGATTTAGCTTCTT CTTAACACTCGATTAACACTGTTGTTATTTAACTTAAAAACTATTTTTTTAGCTTCTCCCTCTAATTGATTTTAAGACTG ATTGACTTTCATAATATTATCCTAGGACGAATCTGGATATTTTTACACTCAAAAAAAAAACTCTGCATTTCCACATAATT TTATTTTTATCTATTTCATTATTTCCTATCTTATCACATGTCAAATTTTATATTTTCTTTCTCTTCTATTCATATTTATC TTTTTCCTTGGGGTGTTATTGGTTTTGCCCTTGTTCTTTTTTGGGTTTGTTTGTGTGGGTGTTTGGGGCTTTTTTCTCTT TTGCGGTGTTTATTTGTCCTATGCTGTTTTCTCTTTGCTTGAGAGTCTCAAGCTTTCTACTATTTTAATATATA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0287600.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCGGGAGCTCTTCTTCTTCTGCTGCTACTATGGCTCATCCTCCTCCTCCTCCTCCTACAAAGTATGATGTGTTTTT GAGCTTCCGAGGGGAAGACACGCGCAAGAACTTCATGAGTCATCTTTATGCTGGACTTGACAGGAAAAAAATCAATGCCT TCATAGATGACAGATCACTAGAGACAGGTGATGAGATCTCACCTGAACTCTGCAAAGCAATTGAAGCATCAATGATTTAC GTCATCATTTTCTCCAAAGACTATGCTTCTTCCAAGTGGTGTTTGGATGAACTTGTGAAGATTATGGAATGCAAGAAGAA ATATGAAAGGGTTGTGATACCTATTTTCTACTACGTGGAACCAGCAACTGTTAGGCATCAGAAAGAGACTTATGCAGATG CGGTTGTGAAGCATCAAAACCGGCTAGTACCAAAGGAAGTAATACAGAGATGGAAGGAAGCTCTAACCGAAGCTGCTGGA ATCTCTGGCTGGGATTCAAACGCCGCCAGTGACTGTATGACAAACATGGGAACCAATTCAGTTCCACGTTGGTTGAAAAT GCTCAACAAGAAATAG

Download CDS Sequence

Protein sequence (LotjaGi4g1v0287600.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAGSSSSSAATMAHPPPPPPTKYDVFLSFRGEDTRKNFMSHLYAGLDRKKINAFIDDRSLETGDEISPELCKAIEASMIY VIIFSKDYASSKWCLDELVKIMECKKKYERVVIPIFYYVEPATVRHQKETYADAVVKHQNRLVPKEVIQRWKEALTEAAG ISGWDSNAASDCMTNMGTNSVPRWLKMLNKK

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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	21	21	-	–
SUPERFAMILY	SSF52200 View details on SSF52200 Search for proteins/transripts with this domain View external data on SSF52200	14	164	151	4.32E-43	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR32009 View details on PTHR32009 Search for proteins/transripts with this domain View external data on PTHR32009	19	169	151	1.7E-71	–
PANTHER	PTHR32009:SF51 View details on PTHR32009:SF51 Search for proteins/transripts with this domain View external data on PTHR32009:SF51	19	169	151	1.7E-71	–
Gene3D	G3DSA:3.40.50.10140 View details on G3DSA:3.40.50.10140 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10140	19	191	173	5.6E-65	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	21	161	141	28.831	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01582 View details on PF01582 Search for proteins/transripts with this domain View external data on PF01582	22	164	143	2.3E-46	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00255 View details on SM00255 Search for proteins/transripts with this domain View external data on SM00255	22	161	140	1.4E-47	IPR000157 Show description in modal box View details on IPR000157 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:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0287600.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0287600.3