Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0165900
Transcript ID	LotjaGi2g1v0165900.2
Related isoforms 1	LotjaGi2g1v0165900.1
Lotus japonicus genome version	Gifu v1.2
Description	Histone-lysine N-methyltransferase; TAIR: AT2G44150.1 histone-lysine N-methyltransferase ASHH3; Swiss-Prot: sp\|Q945S8\|ASHH3_ARATH Histone-lysine N-methyltransferase ASHH3; TrEMBL-Plants: tr\|A0A0B2NX70\|A0A0B2NX70_GLYSO Histone-lysine N-methyltransferase ASHH3; Found in the gene: LotjaGi2g1v0165900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:57585743..57597610) extracted from Lotus japonicus Gifu genome v1.2.

AGAAGTTACAGAACCCTATTTGCGGAGCGGCGAGGTTTGAAAACTGAAGGAACTAACCAACCAACGGCCACGTCACTTTC TTTTTCATAGTATAAGTTTACACATCGTCACTTCCAATCTCATTTTTCTCTTCTTCTTCTTCTTCAACGCATTTTCCAGG TTCTCTCTCTCTTCCTTTCTCTCTTCTTCAATTTTCCTTAATTCCCATTTTACCCCTCTCACTCACACTCTACTCGTTCT TCTTCTTCTTCTTCTTCTTCTTCTTCTGCAATCTTCAATCACCCCCTTTTAGGTTCAATTCAATTCAACAATCTTTCTTG GGTTTTCGTCAAAATTGTTGTCGTTTTCTTCACTTTCTACCATCGATCTGTGTTTGACTACATTTGTTTTATATTTCATA ATTCTCGTTTTTTTTTTCACACTGTTGTTGTGTCTCAGTCAACAGCGGGAAATGGAAAGTTTGAATCTTTCAATTGTTTA ATTTGTTTGTTTGACTTTTTCTCTTTCAGGTTCGGATGAAGGAAAATGGGGTCTCGGGGGAGGGGAAATAAGTATGTTGA GTTTCACATTTGCTTCTCTTTTTCAATTTGAATTTGCTGAATTTTTCTTTTCTTTTCATTTTTCATACAATACAATGGGA ATGTGGTTGAATTGGGATTTTAGAGTGAGATAAATTGGTCTTTGTTCTGTTTTGTTTTCCTGGGAATAATGCTCTTATTG AATGAAGCAATTAGTTTATTAAGAATATGACTTCTCAAATGCAATGTAGTAATTTGTGATGGAATAGTTTGAAAAGTTGT GTATTGCGAAGATTTTGAAGTGTAGTAGATTGAGAATGGGGGAATGAAAGGTGGCAGAGAGTTGCAAATTGGGGATTATC TTCTAAACAAAGAATAATATGTTTTGGGGATTGAGATTTCAGGGAATTAAATTGATCATTGCTTAACAATTCTCCAATAG AGGCACTTATTTCTGCATTCAAAATTGTATAATTATTAAGAAATTAAGGTAGTTATCAGCAGTTATAAATTCTCATAAAG AACTTGGAAGGGATGGCTGAGACTTGATATCAGTTTAAATGTAACTGTCATCTTAAATTGACGTTTGGACTAATAGTTCC CCTTATAGATGAAATTGAAGTAGACCAAAATAAAACACTATGGTTTTCAATTAAATTTTTTTTGAGCCATCCGTTTGACA TTCTGAAAGGAACAAGTATTGAACCATCTTTCTGCTACTCAGCCTGTCTCATTGCACAAACATGTTAAGGAAAATCTATT TGTGCATCTATCTGATTGAGGATGTTAGATTTGATTAGTTGATTCTGGAACCTCAATGTTGAGTTATGATGTGATGCCTG TGATTACTTGATGCTGACAAACTGTTCTTCATGTTGTAGGCCTAGTAAGCCTTTGAAGGAATCAAGTAAGTCTTGTCTGT GGATTTTGTGGCACTGATTTTCAATATCCAATGTATGGTTTGATCCTCTATTGAAAACTAAGATCCAAGCTGATCAACAC AGGAACATCTAATTCTCTATCAGATTCCATGCCTGCCATGAAAAAGGTTGTTTTATATTGTCATCCCGTTGATTATTCCT TCTCAAGTTCTTTATAATTTAGCAATGTAATCATATTAGGTTTTCTGTGGAAGTGGTTATGTAAATTTCTACTATTCCCC CTGACAGAGTGCTTACATGTTGATATATAGTTTTACAGAGAGCTTTCTGACAGTAACAATATTGTAACTAACTAACTAAC TTCCATGGGAACAACACTGCTGACTTAGCTTAACTATTAACCAACTCAAGTGTCAATTAAGGCGTAAAATTAAACAACAT GAGTGAACATAGCAGATACTCTAGTACAAACAATCACTAACCAACTTATGCCCTTAATTAACTCAAACCTGCCCATTTTA CATAAGACAATTGAAGTTATATGAAGATTCTTCTACTTCAATTGCTTTCATCTTACTGTTACTTCAATTGCTCCCATTTT GACATCATGCTTATGGCAGTTTTAATAAGGTTATAGTCAATGAAATTTTCTCTTTTTAAATTAGTTTTGTGCTGTTGCGT GAGATCCTTGCCTTTTCTGTTTAACAGAATTCTGAGCTGACTCATTTTGGAGCTATATTCAACAAGTTGGTGAAGGAGCT TAAGGAGCCTGTTGTTGATTTTGAACTTCCAGATTGTTTTCATAAGTCGAAGGCAATGGAGTATATTCATATAAAACGCA GTATCCTTTGTACATGTTGGTCAGAGAATGTTCATAATCACTCCTTATCGCATGTAGTGCAGTATAGTCTCTGCTTTATG GGTGTCTTTGTGTGTTGGCCCAGCTAATATGTCACCTAGTGTTGTTTGTAATTCCTTTATTTCTTCTGAACTATTTAATC CGGTTACAGTTAGATAGTTTGTTTACCTGTCGTATAGTGTTAGATAATATTTTTTGTTGGTTCTTATTAATTTAAGATAT ATATCTCACTAAGAAGTTCAAGAGACGGTTTGATGATGATGGCATATTTTGTTCCTGTTCATCTGAATCTCCACCTGTAT GTGGTAGAGATTGCCACTGTGGGTAAGTATTCCATGTCTGTACTTCATGACATTTTTCATGTATTGATCTACATTTCTAG TACATGCCTACTCCATTGTTAGTAGTGTTCCTGAATTTACCTTGTGTCCTTTGATTATGAATTATATCATCATCTGGCAT CCATAATGAAAGCATGTCATTGATACTGTGTTTCAACAGGATATACTATGTACACTGGTGTATTATTATTACATTGGGAT TGCTTAAGTATATGATAATTCTAACATTCTAATATTAGCATATTTATATTATCATCATCAATTTTTTGTCATTATCATTA TTGATCTTGTTATTATTCTCAATGTTGATTGATCTGAACCCTGAGCATGAATTTTTCACAAGCTGAGTCTCAAACACCAC AAAACCAGCAAAAAATGGGGTGGTATGGCTTGATTGATTTGGTTCCAAAAGTACAAGAAATTGCCTTGGGCTATCATACT GGGGCTAAGCTCTGGTGAAGTGGTGTTATATTTAAACTAAAAACCTAGTTTCTAGATTTTATTGATGTATAACTTTTTGT TTTATTTGTATACGTAATCAAAATCTCTGCTCTTTATTTTATATTACTGATGCAAGTGTATCAACATAAATCTGCAATCA TTTTATCTATTCATTATGTTGACTGTCCCTACAGGATGCTTCAATCTAGTTGCTCCTCAGGCTGTAACTGTGGGAGCTTA TGTCTTAACAAGCCATTTCAGAGTCGCCCTATAAAAAAGATGAAGTTGGTTAAGGTATAAACTTCTGGATCAGGATTTTT TTGGGGGTTTGTTACTTATAATATAAATTTTTGTTGGTACTTTCTTTGCATATTGCTTTCAATTTTCAGTAATTCATTTC ATTCTCAACACTATGAAAAACTAAAATACAGGAATTTCTGTTATTGCTAATTATTCCTGTATTTTCTGATCATTGTGAAA TCCGGATTCTGTTTATAGGGCATTTGAACTTTATTGATTATTAAGCATGTTGTTCTTATTTGGTTACTCTTGTGCTCCAT TTTCAATTTATGTTCATCTTAATGCAATGCATATCTTCGCTGTTACAGGAGTTACCTGCCTTCTTTTTGTTGTTGAAGTT CTTTAGTTCTATTCTATTAATTTTTGTTCAATATATATGGTTGTAAATCTGAAATTTTAAATCACACTTTTATTTCCTTC CCGCCATCTACTACTTCTATATCATCCCATTACCTCCACCTTATTTTTCTGCACATAATAGATATGTGCTCATATTCTAG CTAGGTTATTTGATTACAAATATTCACTTGTATTCCTCTCATAGTATCTACACTTAAACATAATGCATTGCTTGTAGACT GAGAAATGTGGTTCTGGAATTGTCGCGGATGAAGATATCAAGCTTGGGGACTTTGTTGTTGAGTATGTTGGAGAAGGTGA TAATAATTGTTTTTACCATCTGCAATTACAAATGAGAATTGCTTTCCCTTTTAAAACCTACTTAAGAATGTTATTGTCTC CTCTCTCTACAGTTATTGATGACAAAACATGTGAAGAAAGGCTTTGGAACATGAAACATCGTGGGGAAACAAACTTTTAC CTATGTGAAATCAATCGAGATATGGTGATAGATGCAACATATAAGGGAAACAAGTCAAGATATATCAATCATAGCTGCTG CCCCAATACTGAGATGCAGAAATGGTTGACTGCTAATTGCTTCACATGGTCATTTAGTAGTATTTGATATTTTATCTGAC CTTATTTAATATAATAGTTTGGAGCTTCATCTAACAAGTGCTTTATTTCTTCCTGGTCTTAAGGATAGTTGATGGTGAAA CACGAATTGGCATATTTGCAACGCGTGACATACAAAAGGGCGAGCATCTGACTTATGATTACCAGTATGAACACTTGTGT TGAATACACCATTTCAGTTGAACTATCTCTTTTTCATTAATATCTATGCGTCTGGCAAGTTTTGGTGTCTTTGGAATGAT GCTAGTGTGACTCTATTGCAGTGACTGTGGATTCTTTGTTTCTAACTATGTAGCAGGTTTGTTCAGTTTGGTGCAGATCA AGATTGCCATTGTGGTGCTGCTGGGTGCAGGCGTAAGCTAGGTGCTCGACCTACCAAGCCTAAAATGTCTTCAGATGCTG CATTAAAATTAGTTGCATATCAGGTGGCTTAATCTTCTCTTACATAGCAACTTTATCCAGAGTAGATATATCTCTCTAAC TCTCCATGGTTGTTGAATTATTTCAAAGTACTACACCGAACTGAATTTCAGCGTCTTTTATTATATCAAAGCTTTGCTGT GAGCTAATGCTTTTTAATTGGTTGATATATGAATATACTTTATCAAACTTTCATTGGACTTGTGATTAAGAAATGCATCT ATTATAGCAATGAATGTGCCACCATATCCTCACATATGTGCTGATTGATTTGTTGAGTATAATTGATGTTGGAAATACTG CCTCTGTTAATTTACTGTCCAGAGAGAAGAATAGATAGAGATCAAGAAATACAAAATAGTTTTTTGGATTTGTTTTCAAA TTCCTATCTTACCCTTTGACCTTTTGACTACTCAATAGTGGACTACTATATAGACAAATAAATAGGAAGAGATATTTTCT TCTCTTTCTAGATAGATAAATAGGAACTAAGGTAGTATATGAAAATATGAAGTTAGTATGTCACCATAAAATGAGATTTA CTAAACTTAGTGAAGAGAAAAGAGCCTTTTATGGTCCAAAATGTATTCCCATGTTTTTTATGGTTATGATTTTTTTTTCC AATAACAAAGTGTTATATGAGTTCAGATCGCTGTAGTGAGTACCTACATTTGTAGAATCCTTTGATTTGGGGGGGGGGGG TGATTAGTCAATGGGCGGGGGCTGCATGACCTTTTTTAATATCAGTCCACCACATCCATATTTTCTTTTTGGGTGCTTAT TTGCTTTCTGAAAGTGTATCAGTTCAATTTGCTATTTTGTTTCATCATTGGGAGAATTATTAGTAGGTTCCATATTAGGC ACTGTATTCATATTCAAAATAAAGTAACTATTTCACAGAAGAACAACTTCCTATAAAAAGGTAAAAGCCAATCTTTAAAA TAACATTAATAATTTATATGGTTGCTGAACTTACTGTGTATTTGATAGGAATCGCTGAACTTACTGTGTATTTGATAGGA ACCGATATCTTTATTACAATGAATAGGGCCCTTGATTACAGTATGAGTAGCTAATGCTAAAATGCCCCAATACTCTCAAA TGACTAAACACCCGTCCTTTTCAACCTTTCTTCCACTTTCTAGGCAACATGTTTTCTTTCCTCAAACTAACTCAGCTTTA CTAGCAGTACTACTAACATACACTAACAATTATACCTACTAGCTGAGGGGTTTTCCTGTCAGTGTTGAAGTTTTTATTCC AAGGGTGAATCGGGAAAAGTGGTGCTTATGATCAGGTGCCAAAGTGTAATACAGTCATGGTCCTTAACAGCTGAAACCTT GTTTCAAAATGTTTGGGACATTTGATGAGTTTTTAAAGATCTGATGATTGGTGCTGAATTTTTTAAAATAGACTAAAAAT AATGTTGAAATCTATAAAACGTAAAAATCTGTTGGACTTGCGCTTTAGAGGCTTAACCTTGGCACATTAGTAAGGTTGCT GCCTTGTGTGATCTTGTTGTCATGACCTTATTAAGGTTGTGTATAGATGAAAATACAATGTAATATTTTGATATATTGTG TAGATAATAAATAATTTAAACCATTTGATATAATGCTTTTTAAGAACTGATTTTATTGAGTTTTGGTAACTTGGAAACCC CTTAAATGCAGCGATTAATTTTTTTTAAAATTATAGTTTTGTCCTTTGGGTACAAGAGAGGAAGAAGAAGACCTGAAATA ATAAAATTATAGACCAAAATAGTAATCCTTATTTTATTCTAATACTATACTCCTAGTCTTAATTAAGGAAACAAATCGTG ATATATAAGGAAATATGAAAACCAATCCATAGAGATGATAGGAGATACACTATATTACTCAAGATACGATTACACTGGTG CATGAAAGTAAAGGAAAAGATTGCAGTATGTTAGTATCCAATAGCAAGGTATGAGACTTAAATCCTATATGGGAAGAATG AGATTCTTGTGTGGCGTTTATAAGGTTGTAGGATCTCCATCTACAACGATTAGGTTTTTTGTTTCTTATCAATTGGTATA AGAGCCTTGTTCCATGTCTCTCAACTGCAAACGAGCGATGCATGTGGTGATGCCGACGTTGGAGTGTTTGCACTAGTCAA AGGGCTAGTGCACAACCAGCCTCATGGGTGTTGGGAGCATGGTGGGGTGTTAGGATCAAATTGCAAGGTATGACTTGAGT CCTATATCAGAAATATGTGAATTCTAGTGTGGGCTTAATAAGGCATTGGACCCTTCAATTACAATGACTGGTTTTTGTGA TATGGCTCTCCCAAGGTTCTTATCAGATACGATTAAAGATAGTATATGATATTCTCATTTATCCTGAATTTTCTCTTCAG CTAAAGCATACTAATCTTTAAGTTTTTTCAAATGTACCCTTTAGAAGAGAGAGGATATTCAAATAATACAATTTGAGATT GGAGACCATCTGAGCCAGATCTCGTTTTGGACAAAAGATGGGGCAACACTGCATTTGGAGCAAAAGTTGAGCCAGACCAT GTCTAGGACAATATCTTGACAAACCACAACTTCAACAAAAAAAAGGGGCCAAATTGTGTCTAGGATAGCCAAGGCCAGTT GCTTCTTAATGGTAGGAGGGGATGAAATGCTTGTGGTAGAAGAGACATGGCAGAACTGAGGGTGATATTGCTTCGATATT GTTAAAAGTTATAGGGTTTATTCCTTTAGTTTTAGGAGGGAAAAGAATGCTCGTAATAAGGAGGGAAAACCTGGTGCTAC AAAGCTCCCACTATGCGCGGAGTGCAGGGAGGGGCCAAACCTACTTTGTGGATCTAATGTAGGCAGCCTTACCTTACATT TTTCCACGGTTTGAACTTGTGGCCGCAAAGTCACATGGTAGCAACCTTATCGTTGCGCCGAGGTCCGCTCTCTATAATGT GAATGATATTATAGAAGACAAAACACTAATTCTTATTTATACTAATACTAGATTTAAAATTTTGATTAAATTGGATGACA AATCATGACATATAAGGAAATATAGAAATCAATCTTAACAGATAATCTAAGATATTCTAAATTCCTCGAAGTTATATGAT AAAGATATTATATGATATTTTTAGTGCATTAAAACAAAATTAAGTGCAACTAAAGGGGGTTCATGGCATTTTAGTTGTCA AGACGGAGGCTGCAGTGTAGCAGTAAATTACATCCTAGGGCATGCTTTTATATGATACATAGCTTGCTCTTACACTGGCG TTTCGCGTTTGTCAACCTGTACTCCTTTTTTTTCATCGTTTTCTCTTGAATGTCCAATGGAATACTATTACACACAAATG TGCACGCATTTTGAGTGCCTCCTTTCCCTTTATATTGAGCATTTACTTACCTCTTGCTTTTCTGTGGATTCCTTTTATAG TCGCATGACTCACGATTCGATGCTGAGTCTTACGATTACTTCGACTGGGTTGGGTTGCACAACCTGAATCCGTTTCTGGT GCTTTTTGGGCTAGTTCTTTTATTTCGTCACGAAAACGGCCAGGAATATCCAACTAATATTCTTCCGAAAGACCCACATC ACATTCTCAGAGAAACCAAACCCTACTTTGGTCCTTCTACCATCGATCCATGTGACATTTCTGATTAACTAAAGAAACAT GTCTCCTTTGTTGTTCTTCTATTAGTTCTGGTCTCCCTGGTGCTTCTCAACACTCATCACCATCTACACATGTTTCTTGC AGTACTATTTGTTTATTGTTGTTGTTGTTGTGCTATTTGTTATTGCTGCTGGCTAGTGTTGACATTTGAGATGACGAATG ATTCAATTAGTTAGATTATGATCATTTACTAGGATCTAAGTATTGGAAGTAGGAAAGTAATATACATCTTGTCATCTTGT TGATGTTTTTTGGAAGGGTTGAATACTTGAACTTTATGCAAGGACCCACTACTTTTCTTCTTGTTTTGATTTATGGCTTG GATCTTGGTATATTTTAAGGTTTATTATATGATATATCAACTTGTTTCAATTTATGACTCAATGTGCCCCTTAAACTCCA TTTAAATTACCTAGAGGTAGAAACAAAGACACCTTTAAAAGTTAGCTGTTAGGTAAAGATCCATGAATTTGTATTGACAA ATACTTATATTTAAAGAAAAATATATGATTATGAGTCATCTAAAGAATAGCTTCCCACGTAAGTTAAAATCAACTCCTGC ACTTTCACTTTTTTCAGAAGGTCCCCCCCCCCCCTACCTATTTTTTCCTTTTCCCACAAATGGGATCAGGTACATGGATC ATTCGCCTTAATGCCCTATCTTGTTTTGTTTTCATCAGTACCTCTAAGGCTTTTCCTAAGTTGGGAACCAAATACTTATC TTAGTTGAAAAGCTCTTTAAGGCTAGAGGTCAGAGTTACTTTGTTGTATTTGCAAAGATCAACTCCTAAAAGCTTGAGTT TTGGTTTAATGTCCATGAATGATCAAATAGAGAAATTGAAATGACAAATTGTGAGAGAAAATTAAAATAGGATTGCCTGT AATACCTCAATTGTTGCCATGATGCTTAGCAACCTATCCTGAAAATAGCTTTGGGATGATGAATAGCTTGCCCCTCAAAG ACACCTTAGGTAAAGAACATTCCTCTGGTTATGACAGCTAATGTTGTTGCTTGCTGCATTGTTGGGGGATGATGAAGAGC TCTACTTAGGGCATTAAAGAAAAAAACATGGTTTCTTTCAGGATTTGGGCTTTTGATATCAACATAATTTCTGGTCTGAA AAGATATCAATGGTAATATAACAATTAGAATGATTCCCATTGGCTGGAATAAGATATACACTATCCCCTTTTTGGAGGGA ATGATCATTCCTTTATTTGATGGAATGAAGATTCTTTTTCTGAAGACAATACCAAATGTTTTATTTTTTCATTTTCTTTC CCATTATTCTGTGCAATCAACCCCAAAGTAATCAGTTCAATCTCTGTTATTGAATTTAGTAGCTAGTGCATTTATATTAA ACTATGATGATATTTCCAGTTGACTAACTGTGGGCTTTCTATCTGGAAAGGTTTGTCAGAATGGAGGCTTGCAAATCGGT AAGCTTGATTCTTTATTTTGTTGATTATATTGTATTTGATTTATCTGCTATTGTTTCCTCTTTTTATTTTATCTCCTATA TTATGAACCATTCATTTTTTTTCTGTTGTACTTGGTTTTTCAGGAAGTTCTCGTGTTGACAAATCACTGTGCATACACAA TTGCATTGGTAATATTGTTATGATAAAACAGCTAGGAAATGCGAGGTATACTAAAATTGTCTATTTTTGAATTGTGATAC TATCTTTATGAAGTTCATGTATCTAGTTTTATTTATATTATTCATTCAACAAGTTAATTTCACATGGTATAACTTTTTTG AAATGAATTGTTTTTTATTCTCATAATGCTACAGGTTTGGGCATATTTTACGGTTCGATAAATATTCCCGAAAACACTCG GTAAGAGATTCTTTGGTTAAGTTTTCATAGTTTTGATGAAAATTGTAATAAAATATGAATATGCATTTACGATTTCAGAT CCTGTTTGAGGATGGCTGTGTTGAGATTTATGATATGTCAAAAGAAGATTGGGAACTTGTGAGATTGTGATGCTACTTTT GGGGTAGGAATACTTGTGAGTATTTCTTTTGCACCTATCTCTATGTGATTTTGTTAAATATTATATTTTAATGTTACCTC TCGAAATTGCTGCACTTTTGATTTGTTGGCTTGGAAGTGGTGAAATAATTTGATTTTTGCTCAATGTTTGATTCCATTCT GTCTTGTAAATCATGAATTTTTCTTTTATTCCCCCTCTTGACTGCTTTCTGAAGGATGTTTCTGACATTGAGTGCAAGAT CAGTGATCGGTATGTATCATTCTGGAATGGGGTTTTTACCATAACAGAATTAAGAGTGTAATTTTGTTGCCTTGTTGGAT GAAAAGAATTGATAACATGGTCTTTAGTCTGGTCAACAGTGCTAGAGGGAGGCCAAAAATAACATTGGAAGATACTGTTA AAAATGACTTCATTATCAATAATAGTCATCAAAATTTGGTTTTTATCGAGCTCGAGCTCAATGGCGTAGTGTGATCCATA TATCCGACCTCACTTAGTGGGATAAAGCTTTTGCTGTTGTTGGTGGTGATTATCGTACAAGTCTTTGCTGGATTGAGAAA TATGGTTCATAATTCATGAGGGGAAGGCATGTGAATAAAATTTAGAACGGTTGCATGGTTTATGTAATCCAGCTCTGAAT ATTTTGATCATTCAGTTGTAAGCAGCTTTCCCTCTAAATTGCTATCATGGTCCAATCTTATCATTTTCCCATATAGTCTC ATTCTTATGGAAACTAATATACTGTTCCATTCCACTTCTGTTTACACATGTTGCCAATTATTGCCTTTATGAGTTGTTGC TATAAGCAAGTATTGTGAAATTAGAAAATGGTAAAGTTAAGAGTACCAATACATGTATTATTCTCTTTTGCAGGTAAAAG GAAGTGAAAGTTGGAGGCATATTATTCTTTCTTTGGATGTGCAATTGTGCATACTGCATACTTGTTGTAGTTGCTCTGAT CAACAGAGAATACGAGGCGGGATTGATTAACACAAAGCATTACTGATTGAAAAAGCATCAACAAAAGTTGCTTTTGTTTT CCATTGACAAACTACCACGCAAGACTAAAAGATAGTTCAAAGCAGGGAAATAATCCTTATATTATATCTTGCAAATCCAT CCTTGTTGTAGTGTAAAATAAGGATTCAATTTGTTCCATCAACGTGGAATTGTGCAATAGGTGTATCAAGTATATTATTT TACTTTCATTCTTTTAAATGGATGCATCAATGCAGGAATGCTTGTATCCAATTCATAAATGCCGCTTACACTTGTATTTG TAATTCTACGAGTCCTATTTGTATTTGTAAATGTGTGATTTTGTTTTGTTTAATTTCTATTCATCATTACTCTATGGCCA AGGCTTTGTAATGCATGGATGTTCAAATTGTTTATGTCTAGAATGTGTGTAAGTATATGGAGACTGACCAGTAACAAACT GACAGCCAGTTAAAACTAACTATTAACG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0165900.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGGTCTCGGGGGAGGGGAAATAAGCCTAGTAAGCCTTTGAAGGAATCAAGAACATCTAATTCTCTATCAGATTCCAT GCCTGCCATGAAAAAGAATTCTGAGCTGACTCATTTTGGAGCTATATTCAACAAGTTGGTGAAGGAGCTTAAGGAGCCTG TTGTTGATTTTGAACTTCCAGATTGTTTTCATAAGTCGAAGGCAATGGAGTATATTCATATAAAACGCAATATATATCTC ACTAAGAAGTTCAAGAGACGGTTTGATGATGATGGCATATTTTGTTCCTGTTCATCTGAATCTCCACCTGTATGTGGTAG AGATTGCCACTGTGGGATGCTTCAATCTAGTTGCTCCTCAGGCTGTAACTGTGGGAGCTTATGTCTTAACAAGCCATTTC AGAGTCGCCCTATAAAAAAGATGAAGTTGGTTAAGACTGAGAAATGTGGTTCTGGAATTGTCGCGGATGAAGATATCAAG CTTGGGGACTTTGTTGTTGAGTATGTTGGAGAAGTTATTGATGACAAAACATGTGAAGAAAGGCTTTGGAACATGAAACA TCGTGGGGAAACAAACTTTTACCTATGTGAAATCAATCGAGATATGGTGATAGATGCAACATATAAGGGAAACAAGTCAA GATATATCAATCATAGCTGCTGCCCCAATACTGAGATGCAGAAATGGATAGTTGATGGTGAAACACGAATTGGCATATTT GCAACGCGTGACATACAAAAGGGCGAGCATCTGACTTATGATTACCAGTTTGTTCAGTTTGGTGCAGATCAAGATTGCCA TTGTGGTGCTGCTGGGTGCAGGCGTAAGCTAGGTGCTCGACCTACCAAGCCTAAAATGTCTTCAGATGCTGCATTAAAAT TAGTTGCATATCAGGTTTGTCAGAATGGAGGCTTGCAAATCGGAAGTTCTCGTGTTGACAAATCACTGTGCATACACAAT TGCATTGGTAATATTGTTATGATAAAACAGCTAGGAAATGCGAGGTTTGGGCATATTTTACGGTTCGATAAATATTCCCG AAAACACTCGATCCTGTTTGAGGATGGCTGTGTTGAGATTTATGATATGTCAAAAGAAGATTGGGAACTTGTGAGATTGT GA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0165900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGSRGRGNKPSKPLKESRTSNSLSDSMPAMKKNSELTHFGAIFNKLVKELKEPVVDFELPDCFHKSKAMEYIHIKRNIYL TKKFKRRFDDDGIFCSCSSESPPVCGRDCHCGMLQSSCSSGCNCGSLCLNKPFQSRPIKKMKLVKTEKCGSGIVADEDIK LGDFVVEYVGEVIDDKTCEERLWNMKHRGETNFYLCEINRDMVIDATYKGNKSRYINHSCCPNTEMQKWIVDGETRIGIF ATRDIQKGEHLTYDYQFVQFGADQDCHCGAAGCRRKLGARPTKPKMSSDAALKLVAYQVCQNGGLQIGSSRVDKSLCIHN CIGNIVMIKQLGNARFGHILRFDKYSRKHSILFEDGCVEIYDMSKEDWELVRL

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	27	27	-	–
PANTHER	PTHR22884 View details on PTHR22884 Search for proteins/transripts with this domain View external data on PTHR22884	25	371	347	2.5E-160	–
PANTHER	PTHR22884:SF487 View details on PTHR22884:SF487 Search for proteins/transripts with this domain View external data on PTHR22884:SF487	25	371	347	2.5E-160	–
Gene3D	G3DSA:2.170.270.10 View details on G3DSA:2.170.270.10 Search for proteins/transripts with this domain View external data on G3DSA:2.170.270.10	57	294	238	1.1E-71	–
SUPERFAMILY	SSF82199 View details on SSF82199 Search for proteins/transripts with this domain View external data on SSF82199	68	274	207	8.24E-64	–
ProSiteProfiles	PS51578 View details on PS51578 Search for proteins/transripts with this domain View external data on PS51578	71	320	250	100.72	IPR025787 Show description in modal box View details on IPR025787 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00570 View details on SM00570 Search for proteins/transripts with this domain View external data on SM00570	90	138	49	3.7E-9	IPR006560 Show description in modal box View details on IPR006560 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51215 View details on PS51215 Search for proteins/transripts with this domain View external data on PS51215	90	137	48	11.809	IPR006560 Show description in modal box View details on IPR006560 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50280 View details on PS50280 Search for proteins/transripts with this domain View external data on PS50280	139	256	118	19.534	IPR001214 Show description in modal box View details on IPR001214 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00317 View details on SM00317 Search for proteins/transripts with this domain View external data on SM00317	139	262	124	1.5E-41	IPR001214 Show description in modal box View details on IPR001214 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00856 View details on PF00856 Search for proteins/transripts with this domain View external data on PF00856	150	255	106	4.5E-19	IPR001214 Show description in modal box View details on IPR001214 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50868 View details on PS50868 Search for proteins/transripts with this domain View external data on PS50868	262	278	17	9.167	IPR003616 Show description in modal box View details on IPR003616 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00508 View details on SM00508 Search for proteins/transripts with this domain View external data on SM00508	262	278	17	0.0026	IPR003616 Show description in modal box View details on IPR003616 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:0005634 View details of GO:0005634 AmiGO InterPro QuickGO	Cellular component	Nucleus	A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent.	Subterm of View details of GO:0043231
GO:0018024 View details of GO:0018024 AmiGO InterPro QuickGO	Molecular function	Histone-lysine N-methyltransferase activity	Catalysis of the reaction: S-adenosyl-L-methionine + histone L-lysine = S-adenosyl-L-homocysteine + histone N6-methyl-L-lysine. The methylation of peptidyl-lysine in histones forms N6-methyl-L-lysine, N6,N6-dimethyl-L-lysine and N6,N6,N6-trimethyl-L-lysine derivatives.	Subterm of View details of GO:0016279 View details of GO:0042054

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0165900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0165900.2