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LotjaGi2g1v0165900.1

Overview

Field Value
Gene ID LotjaGi2g1v0165900
Transcript ID LotjaGi2g1v0165900.1
Related isoforms 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.

Sequence information

Genomic sequence (LjG1.1_chr2:57585729..57597709) extracted from Lotus japonicus Gifu genome v1.2.

GAAGTAGAGTAAAGAGAAGTTACAGAACCCTATTTGCGGAGCGGCGAGGTTTGAAAACTGAAGGAACTAACCAACCAACG GCCACGTCACTTTCTTTTTCATAGTATAAGTTTACACATCGTCACTTCCAATCTCATTTTTCTCTTCTTCTTCTTCTTCA ACGCATTTTCCAGGTTCTCTCTCTCTTCCTTTCTCTCTTCTTCAATTTTCCTTAATTCCCATTTTACCCCTCTCACTCAC ACTCTACTCGTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTGCAATCTTCAATCACCCCCTTTTAGGTTCAATTCAATTC AACAATCTTTCTTGGGTTTTCGTCAAAATTGTTGTCGTTTTCTTCACTTTCTACCATCGATCTGTGTTTGACTACATTTG TTTTATATTTCATAATTCTCGTTTTTTTTTTCACACTGTTGTTGTGTCTCAGTCAACAGCGGGAAATGGAAAGTTTGAAT CTTTCAATTGTTTAATTTGTTTGTTTGACTTTTTCTCTTTCAGGTTCGGATGAAGGAAAATGGGGTCTCGGGGGAGGGGA AATAAGTATGTTGAGTTTCACATTTGCTTCTCTTTTTCAATTTGAATTTGCTGAATTTTTCTTTTCTTTTCATTTTTCAT ACAATACAATGGGAATGTGGTTGAATTGGGATTTTAGAGTGAGATAAATTGGTCTTTGTTCTGTTTTGTTTTCCTGGGAA TAATGCTCTTATTGAATGAAGCAATTAGTTTATTAAGAATATGACTTCTCAAATGCAATGTAGTAATTTGTGATGGAATA GTTTGAAAAGTTGTGTATTGCGAAGATTTTGAAGTGTAGTAGATTGAGAATGGGGGAATGAAAGGTGGCAGAGAGTTGCA AATTGGGGATTATCTTCTAAACAAAGAATAATATGTTTTGGGGATTGAGATTTCAGGGAATTAAATTGATCATTGCTTAA CAATTCTCCAATAGAGGCACTTATTTCTGCATTCAAAATTGTATAATTATTAAGAAATTAAGGTAGTTATCAGCAGTTAT AAATTCTCATAAAGAACTTGGAAGGGATGGCTGAGACTTGATATCAGTTTAAATGTAACTGTCATCTTAAATTGACGTTT GGACTAATAGTTCCCCTTATAGATGAAATTGAAGTAGACCAAAATAAAACACTATGGTTTTCAATTAAATTTTTTTTGAG CCATCCGTTTGACATTCTGAAAGGAACAAGTATTGAACCATCTTTCTGCTACTCAGCCTGTCTCATTGCACAAACATGTT AAGGAAAATCTATTTGTGCATCTATCTGATTGAGGATGTTAGATTTGATTAGTTGATTCTGGAACCTCAATGTTGAGTTA TGATGTGATGCCTGTGATTACTTGATGCTGACAAACTGTTCTTCATGTTGTAGGCCTAGTAAGCCTTTGAAGGAATCAAG TAAGTCTTGTCTGTGGATTTTGTGGCACTGATTTTCAATATCCAATGTATGGTTTGATCCTCTATTGAAAACTAAGATCC AAGCTGATCAACACAGGAACATCTAATTCTCTATCAGATTCCATGCCTGCCATGAAAAAGGTTGTTTTATATTGTCATCC CGTTGATTATTCCTTCTCAAGTTCTTTATAATTTAGCAATGTAATCATATTAGGTTTTCTGTGGAAGTGGTTATGTAAAT TTCTACTATTCCCCCTGACAGAGTGCTTACATGTTGATATATAGTTTTACAGAGAGCTTTCTGACAGTAACAATATTGTA ACTAACTAACTAACTTCCATGGGAACAACACTGCTGACTTAGCTTAACTATTAACCAACTCAAGTGTCAATTAAGGCGTA AAATTAAACAACATGAGTGAACATAGCAGATACTCTAGTACAAACAATCACTAACCAACTTATGCCCTTAATTAACTCAA ACCTGCCCATTTTACATAAGACAATTGAAGTTATATGAAGATTCTTCTACTTCAATTGCTTTCATCTTACTGTTACTTCA ATTGCTCCCATTTTGACATCATGCTTATGGCAGTTTTAATAAGGTTATAGTCAATGAAATTTTCTCTTTTTAAATTAGTT TTGTGCTGTTGCGTGAGATCCTTGCCTTTTCTGTTTAACAGAATTCTGAGCTGACTCATTTTGGAGCTATATTCAACAAG TTGGTGAAGGAGCTTAAGGAGCCTGTTGTTGATTTTGAACTTCCAGATTGTTTTCATAAGTCGAAGGCAATGGAGTATAT TCATATAAAACGCAGTATCCTTTGTACATGTTGGTCAGAGAATGTTCATAATCACTCCTTATCGCATGTAGTGCAGTATA GTCTCTGCTTTATGGGTGTCTTTGTGTGTTGGCCCAGCTAATATGTCACCTAGTGTTGTTTGTAATTCCTTTATTTCTTC TGAACTATTTAATCCGGTTACAGTTAGATAGTTTGTTTACCTGTCGTATAGTGTTAGATAATATTTTTTGTTGGTTCTTA TTAATTTAAGATATATATCTCACTAAGAAGTTCAAGAGACGGTTTGATGATGATGGCATATTTTGTTCCTGTTCATCTGA ATCTCCACCTGTATGTGGTAGAGATTGCCACTGTGGGTAAGTATTCCATGTCTGTACTTCATGACATTTTTCATGTATTG ATCTACATTTCTAGTACATGCCTACTCCATTGTTAGTAGTGTTCCTGAATTTACCTTGTGTCCTTTGATTATGAATTATA TCATCATCTGGCATCCATAATGAAAGCATGTCATTGATACTGTGTTTCAACAGGATATACTATGTACACTGGTGTATTAT TATTACATTGGGATTGCTTAAGTATATGATAATTCTAACATTCTAATATTAGCATATTTATATTATCATCATCAATTTTT TGTCATTATCATTATTGATCTTGTTATTATTCTCAATGTTGATTGATCTGAACCCTGAGCATGAATTTTTCACAAGCTGA GTCTCAAACACCACAAAACCAGCAAAAAATGGGGTGGTATGGCTTGATTGATTTGGTTCCAAAAGTACAAGAAATTGCCT TGGGCTATCATACTGGGGCTAAGCTCTGGTGAAGTGGTGTTATATTTAAACTAAAAACCTAGTTTCTAGATTTTATTGAT GTATAACTTTTTGTTTTATTTGTATACGTAATCAAAATCTCTGCTCTTTATTTTATATTACTGATGCAAGTGTATCAACA TAAATCTGCAATCATTTTATCTATTCATTATGTTGACTGTCCCTACAGGATGCTTCAATCTAGTTGCTCCTCAGGCTGTA ACTGTGGGAGCTTATGTCTTAACAAGCCATTTCAGAGTCGCCCTATAAAAAAGATGAAGTTGGTTAAGGTATAAACTTCT GGATCAGGATTTTTTTGGGGGTTTGTTACTTATAATATAAATTTTTGTTGGTACTTTCTTTGCATATTGCTTTCAATTTT CAGTAATTCATTTCATTCTCAACACTATGAAAAACTAAAATACAGGAATTTCTGTTATTGCTAATTATTCCTGTATTTTC TGATCATTGTGAAATCCGGATTCTGTTTATAGGGCATTTGAACTTTATTGATTATTAAGCATGTTGTTCTTATTTGGTTA CTCTTGTGCTCCATTTTCAATTTATGTTCATCTTAATGCAATGCATATCTTCGCTGTTACAGGAGTTACCTGCCTTCTTT TTGTTGTTGAAGTTCTTTAGTTCTATTCTATTAATTTTTGTTCAATATATATGGTTGTAAATCTGAAATTTTAAATCACA CTTTTATTTCCTTCCCGCCATCTACTACTTCTATATCATCCCATTACCTCCACCTTATTTTTCTGCACATAATAGATATG TGCTCATATTCTAGCTAGGTTATTTGATTACAAATATTCACTTGTATTCCTCTCATAGTATCTACACTTAAACATAATGC ATTGCTTGTAGACTGAGAAATGTGGTTCTGGAATTGTCGCGGATGAAGATATCAAGCTTGGGGACTTTGTTGTTGAGTAT GTTGGAGAAGGTGATAATAATTGTTTTTACCATCTGCAATTACAAATGAGAATTGCTTTCCCTTTTAAAACCTACTTAAG AATGTTATTGTCTCCTCTCTCTACAGTTATTGATGACAAAACATGTGAAGAAAGGCTTTGGAACATGAAACATCGTGGGG AAACAAACTTTTACCTATGTGAAATCAATCGAGATATGGTGATAGATGCAACATATAAGGGAAACAAGTCAAGATATATC AATCATAGCTGCTGCCCCAATACTGAGATGCAGAAATGGTTGACTGCTAATTGCTTCACATGGTCATTTAGTAGTATTTG ATATTTTATCTGACCTTATTTAATATAATAGTTTGGAGCTTCATCTAACAAGTGCTTTATTTCTTCCTGGTCTTAAGGAT AGTTGATGGTGAAACACGAATTGGCATATTTGCAACGCGTGACATACAAAAGGGCGAGCATCTGACTTATGATTACCAGT ATGAACACTTGTGTTGAATACACCATTTCAGTTGAACTATCTCTTTTTCATTAATATCTATGCGTCTGGCAAGTTTTGGT GTCTTTGGAATGATGCTAGTGTGACTCTATTGCAGTGACTGTGGATTCTTTGTTTCTAACTATGTAGCAGGTTTGTTCAG TTTGGTGCAGATCAAGATTGCCATTGTGGTGCTGCTGGGTGCAGGCGTAAGCTAGGTGCTCGACCTACCAAGCCTAAAAT GTCTTCAGATGCTGCATTAAAATTAGTTGCATATCAGGTGGCTTAATCTTCTCTTACATAGCAACTTTATCCAGAGTAGA TATATCTCTCTAACTCTCCATGGTTGTTGAATTATTTCAAAGTACTACACCGAACTGAATTTCAGCGTCTTTTATTATAT CAAAGCTTTGCTGTGAGCTAATGCTTTTTAATTGGTTGATATATGAATATACTTTATCAAACTTTCATTGGACTTGTGAT TAAGAAATGCATCTATTATAGCAATGAATGTGCCACCATATCCTCACATATGTGCTGATTGATTTGTTGAGTATAATTGA TGTTGGAAATACTGCCTCTGTTAATTTACTGTCCAGAGAGAAGAATAGATAGAGATCAAGAAATACAAAATAGTTTTTTG GATTTGTTTTCAAATTCCTATCTTACCCTTTGACCTTTTGACTACTCAATAGTGGACTACTATATAGACAAATAAATAGG AAGAGATATTTTCTTCTCTTTCTAGATAGATAAATAGGAACTAAGGTAGTATATGAAAATATGAAGTTAGTATGTCACCA TAAAATGAGATTTACTAAACTTAGTGAAGAGAAAAGAGCCTTTTATGGTCCAAAATGTATTCCCATGTTTTTTATGGTTA TGATTTTTTTTTCCAATAACAAAGTGTTATATGAGTTCAGATCGCTGTAGTGAGTACCTACATTTGTAGAATCCTTTGAT TTGGGGGGGGGGGGTGATTAGTCAATGGGCGGGGGCTGCATGACCTTTTTTAATATCAGTCCACCACATCCATATTTTCT TTTTGGGTGCTTATTTGCTTTCTGAAAGTGTATCAGTTCAATTTGCTATTTTGTTTCATCATTGGGAGAATTATTAGTAG GTTCCATATTAGGCACTGTATTCATATTCAAAATAAAGTAACTATTTCACAGAAGAACAACTTCCTATAAAAAGGTAAAA GCCAATCTTTAAAATAACATTAATAATTTATATGGTTGCTGAACTTACTGTGTATTTGATAGGAATCGCTGAACTTACTG TGTATTTGATAGGAACCGATATCTTTATTACAATGAATAGGGCCCTTGATTACAGTATGAGTAGCTAATGCTAAAATGCC CCAATACTCTCAAATGACTAAACACCCGTCCTTTTCAACCTTTCTTCCACTTTCTAGGCAACATGTTTTCTTTCCTCAAA CTAACTCAGCTTTACTAGCAGTACTACTAACATACACTAACAATTATACCTACTAGCTGAGGGGTTTTCCTGTCAGTGTT GAAGTTTTTATTCCAAGGGTGAATCGGGAAAAGTGGTGCTTATGATCAGGTGCCAAAGTGTAATACAGTCATGGTCCTTA ACAGCTGAAACCTTGTTTCAAAATGTTTGGGACATTTGATGAGTTTTTAAAGATCTGATGATTGGTGCTGAATTTTTTAA AATAGACTAAAAATAATGTTGAAATCTATAAAACGTAAAAATCTGTTGGACTTGCGCTTTAGAGGCTTAACCTTGGCACA TTAGTAAGGTTGCTGCCTTGTGTGATCTTGTTGTCATGACCTTATTAAGGTTGTGTATAGATGAAAATACAATGTAATAT TTTGATATATTGTGTAGATAATAAATAATTTAAACCATTTGATATAATGCTTTTTAAGAACTGATTTTATTGAGTTTTGG TAACTTGGAAACCCCTTAAATGCAGCGATTAATTTTTTTTAAAATTATAGTTTTGTCCTTTGGGTACAAGAGAGGAAGAA GAAGACCTGAAATAATAAAATTATAGACCAAAATAGTAATCCTTATTTTATTCTAATACTATACTCCTAGTCTTAATTAA GGAAACAAATCGTGATATATAAGGAAATATGAAAACCAATCCATAGAGATGATAGGAGATACACTATATTACTCAAGATA CGATTACACTGGTGCATGAAAGTAAAGGAAAAGATTGCAGTATGTTAGTATCCAATAGCAAGGTATGAGACTTAAATCCT ATATGGGAAGAATGAGATTCTTGTGTGGCGTTTATAAGGTTGTAGGATCTCCATCTACAACGATTAGGTTTTTTGTTTCT TATCAATTGGTATAAGAGCCTTGTTCCATGTCTCTCAACTGCAAACGAGCGATGCATGTGGTGATGCCGACGTTGGAGTG TTTGCACTAGTCAAAGGGCTAGTGCACAACCAGCCTCATGGGTGTTGGGAGCATGGTGGGGTGTTAGGATCAAATTGCAA GGTATGACTTGAGTCCTATATCAGAAATATGTGAATTCTAGTGTGGGCTTAATAAGGCATTGGACCCTTCAATTACAATG ACTGGTTTTTGTGATATGGCTCTCCCAAGGTTCTTATCAGATACGATTAAAGATAGTATATGATATTCTCATTTATCCTG AATTTTCTCTTCAGCTAAAGCATACTAATCTTTAAGTTTTTTCAAATGTACCCTTTAGAAGAGAGAGGATATTCAAATAA TACAATTTGAGATTGGAGACCATCTGAGCCAGATCTCGTTTTGGACAAAAGATGGGGCAACACTGCATTTGGAGCAAAAG TTGAGCCAGACCATGTCTAGGACAATATCTTGACAAACCACAACTTCAACAAAAAAAAGGGGCCAAATTGTGTCTAGGAT AGCCAAGGCCAGTTGCTTCTTAATGGTAGGAGGGGATGAAATGCTTGTGGTAGAAGAGACATGGCAGAACTGAGGGTGAT ATTGCTTCGATATTGTTAAAAGTTATAGGGTTTATTCCTTTAGTTTTAGGAGGGAAAAGAATGCTCGTAATAAGGAGGGA AAACCTGGTGCTACAAAGCTCCCACTATGCGCGGAGTGCAGGGAGGGGCCAAACCTACTTTGTGGATCTAATGTAGGCAG CCTTACCTTACATTTTTCCACGGTTTGAACTTGTGGCCGCAAAGTCACATGGTAGCAACCTTATCGTTGCGCCGAGGTCC GCTCTCTATAATGTGAATGATATTATAGAAGACAAAACACTAATTCTTATTTATACTAATACTAGATTTAAAATTTTGAT TAAATTGGATGACAAATCATGACATATAAGGAAATATAGAAATCAATCTTAACAGATAATCTAAGATATTCTAAATTCCT CGAAGTTATATGATAAAGATATTATATGATATTTTTAGTGCATTAAAACAAAATTAAGTGCAACTAAAGGGGGTTCATGG CATTTTAGTTGTCAAGACGGAGGCTGCAGTGTAGCAGTAAATTACATCCTAGGGCATGCTTTTATATGATACATAGCTTG CTCTTACACTGGCGTTTCGCGTTTGTCAACCTGTACTCCTTTTTTTTCATCGTTTTCTCTTGAATGTCCAATGGAATACT ATTACACACAAATGTGCACGCATTTTGAGTGCCTCCTTTCCCTTTATATTGAGCATTTACTTACCTCTTGCTTTTCTGTG GATTCCTTTTATAGTCGCATGACTCACGATTCGATGCTGAGTCTTACGATTACTTCGACTGGGTTGGGTTGCACAACCTG AATCCGTTTCTGGTGCTTTTTGGGCTAGTTCTTTTATTTCGTCACGAAAACGGCCAGGAATATCCAACTAATATTCTTCC GAAAGACCCACATCACATTCTCAGAGAAACCAAACCCTACTTTGGTCCTTCTACCATCGATCCATGTGACATTTCTGATT AACTAAAGAAACATGTCTCCTTTGTTGTTCTTCTATTAGTTCTGGTCTCCCTGGTGCTTCTCAACACTCATCACCATCTA CACATGTTTCTTGCAGTACTATTTGTTTATTGTTGTTGTTGTTGTGCTATTTGTTATTGCTGCTGGCTAGTGTTGACATT TGAGATGACGAATGATTCAATTAGTTAGATTATGATCATTTACTAGGATCTAAGTATTGGAAGTAGGAAAGTAATATACA TCTTGTCATCTTGTTGATGTTTTTTGGAAGGGTTGAATACTTGAACTTTATGCAAGGACCCACTACTTTTCTTCTTGTTT TGATTTATGGCTTGGATCTTGGTATATTTTAAGGTTTATTATATGATATATCAACTTGTTTCAATTTATGACTCAATGTG CCCCTTAAACTCCATTTAAATTACCTAGAGGTAGAAACAAAGACACCTTTAAAAGTTAGCTGTTAGGTAAAGATCCATGA ATTTGTATTGACAAATACTTATATTTAAAGAAAAATATATGATTATGAGTCATCTAAAGAATAGCTTCCCACGTAAGTTA AAATCAACTCCTGCACTTTCACTTTTTTCAGAAGGTCCCCCCCCCCCCTACCTATTTTTTCCTTTTCCCACAAATGGGAT CAGGTACATGGATCATTCGCCTTAATGCCCTATCTTGTTTTGTTTTCATCAGTACCTCTAAGGCTTTTCCTAAGTTGGGA ACCAAATACTTATCTTAGTTGAAAAGCTCTTTAAGGCTAGAGGTCAGAGTTACTTTGTTGTATTTGCAAAGATCAACTCC TAAAAGCTTGAGTTTTGGTTTAATGTCCATGAATGATCAAATAGAGAAATTGAAATGACAAATTGTGAGAGAAAATTAAA ATAGGATTGCCTGTAATACCTCAATTGTTGCCATGATGCTTAGCAACCTATCCTGAAAATAGCTTTGGGATGATGAATAG CTTGCCCCTCAAAGACACCTTAGGTAAAGAACATTCCTCTGGTTATGACAGCTAATGTTGTTGCTTGCTGCATTGTTGGG GGATGATGAAGAGCTCTACTTAGGGCATTAAAGAAAAAAACATGGTTTCTTTCAGGATTTGGGCTTTTGATATCAACATA ATTTCTGGTCTGAAAAGATATCAATGGTAATATAACAATTAGAATGATTCCCATTGGCTGGAATAAGATATACACTATCC CCTTTTTGGAGGGAATGATCATTCCTTTATTTGATGGAATGAAGATTCTTTTTCTGAAGACAATACCAAATGTTTTATTT TTTCATTTTCTTTCCCATTATTCTGTGCAATCAACCCCAAAGTAATCAGTTCAATCTCTGTTATTGAATTTAGTAGCTAG TGCATTTATATTAAACTATGATGATATTTCCAGTTGACTAACTGTGGGCTTTCTATCTGGAAAGGTTTGTCAGAATGGAG GCTTGCAAATCGGTAAGCTTGATTCTTTATTTTGTTGATTATATTGTATTTGATTTATCTGCTATTGTTTCCTCTTTTTA TTTTATCTCCTATATTATGAACCATTCATTTTTTTTCTGTTGTACTTGGTTTTTCAGGAAGTTCTCGTGTTGACAAATCA CTGTGCATACACAATTGCATTGGTAATATTGTTATGATAAAACAGCTAGGAAATGCGAGGTATACTAAAATTGTCTATTT TTGAATTGTGATACTATCTTTATGAAGTTCATGTATCTAGTTTTATTTATATTATTCATTCAACAAGTTAATTTCACATG GTATAACTTTTTTGAAATGAATTGTTTTTTATTCTCATAATGCTACAGGTTTGGGCATATTTTACGGTTCGATAAATATT CCCGAAAACACTCGGTAAGAGATTCTTTGGTTAAGTTTTCATAGTTTTGATGAAAATTGTAATAAAATATGAATATGCAT TTACGATTTCAGATCCTGTTTGAGGATGGCTGTGTTGAGATTTATGATATGTCAAAAGAAGATTGGGAACTTGTGAGATT GTGATGCTACTTTTGGGGTAGGAATACTTGTGAGTATTTCTTTTGCACCTATCTCTATGTGATTTTGTTAAATATTATAT TTTAATGTTACCTCTCGAAATTGCTGCACTTTTGATTTGTTGGCTTGGAAGTGGTGAAATAATTTGATTTTTGCTCAATG TTTGATTCCATTCTGTCTTGTAAATCATGAATTTTTCTTTTATTCCCCCTCTTGACTGCTTTCTGAAGGATGTTTCTGAC ATTGAGTGCAAGATCAGTGATCGGTATGTATCATTCTGGAATGGGGTTTTTACCATAACAGAATTAAGAGTGTAATTTTG TTGCCTTGTTGGATGAAAAGAATTGATAACATGGTCTTTAGTCTGGTCAACAGTGCTAGAGGGAGGCCAAAAATAACATT GGAAGATACTGTTAAAAATGACTTCATTATCAATAATAGTCATCAAAATTTGGTTTTTATCGAGCTCGAGCTCAATGGCG TAGTGTGATCCATATATCCGACCTCACTTAGTGGGATAAAGCTTTTGCTGTTGTTGGTGGTGATTATCGTACAAGTCTTT GCTGGATTGAGAAATATGGTTCATAATTCATGAGGGGAAGGCATGTGAATAAAATTTAGAACGGTTGCATGGTTTATGTA ATCCAGCTCTGAATATTTTGATCATTCAGTTGTAAGCAGCTTTCCCTCTAAATTGCTATCATGGTCCAATCTTATCATTT TCCCATATAGTCTCATTCTTATGGAAACTAATATACTGTTCCATTCCACTTCTGTTTACACATGTTGCCAATTATTGCCT TTATGAGTTGTTGCTATAAGCAAGTATTGTGAAATTAGAAAATGGTAAAGTTAAGAGTACCAATACATGTATTATTCTCT TTTGCAGGTAAAAGGAAGTGAAAGTTGGAGGCATATTATTCTTTCTTTGGATGTGCAATTGTGCATACTGCATACTTGTT GTAGTTGCTCTGATCAACAGAGAATACGAGGCGGGATTGATTAACACAAAGCATTACTGATTGAAAAAGCATCAACAAAA GTTGCTTTTGTTTTCCATTGACAAACTACCACGCAAGACTAAAAGATAGTTCAAAGCAGGGAAATAATCCTTATATTATA TCTTGCAAATCCATCCTTGTTGTAGTGTAAAATAAGGATTCAATTTGTTCCATCAACGTGGAATTGTGCAATAGGTGTAT CAAGTATATTATTTTACTTTCATTCTTTTAAATGGATGCATCAATGCAGGAATGCTTGTATCCAATTCATAAATGCCGCT TACACTTGTATTTGTAATTCTACGAGTCCTATTTGTATTTGTAAATGTGTGATTTTGTTTTGTTTAATTTCTATTCATCA TTACTCTATGGCCAAGGCTTTGTAATGCATGGATGTTCAAATTGTTTATGTCTAGAATGTGTGTAAGTATATGGAGACTG ACCAGTAACAAACTGACAGCCAGTTAAAACTAACTATTAACGACTAACTGATTTCATCAACTGCATGCATTATGTTCCTC TACTAGGGTTATGCTAGATATAAGGTTAAATGAAACAAATCTTTTGCACCCATAAGTTAGC
Download Genomic Sequence

CDS sequence (LotjaGi2g1v0165900.1) 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 (LotjaGi2g1v0165900.1) 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.

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Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
MobiDBLite
mobidb-lite
1 27 27 -
PANTHER
PTHR22884
25 371 347 2.5E-160
PANTHER
PTHR22884:SF487
25 371 347 2.5E-160
Gene3D
G3DSA:2.170.270.10
57 294 238 1.1E-71
SUPERFAMILY
SSF82199
68 274 207 8.24E-64
ProSiteProfiles
PS51578
71 320 250 100.72
IPR025787
SMART
SM00570
90 138 49 3.7E-9
IPR006560
ProSiteProfiles
PS51215
90 137 48 11.809
IPR006560
ProSiteProfiles
PS50280
139 256 118 19.534
IPR001214
SMART
SM00317
139 262 124 1.5E-41
IPR001214
Pfam
PF00856
150 255 106 4.5E-19
IPR001214
ProSiteProfiles
PS50868
262 278 17 9.167
IPR003616
SMART
SM00508
262 278 17 0.0026
IPR003616

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 , while the GO metadata was last updated on .

GO term Namespace Name Definition Relationships
GO:0005515
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
GO:0005634
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
GO:0018024
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

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0165900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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