Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0457700
Transcript ID	LotjaGi3g1v0457700.1
Related isoforms 3	LotjaGi3g1v0457700.2 LotjaGi3g1v0457700.3 LotjaGi3g1v0457700.4
Lotus japonicus genome version	Gifu v1.2
Description	O-methyltransferase; TAIR: AT5G54160.1 O-methyltransferase 1; Swiss-Prot: sp\|Q6WUC2\|7OMT_PAPSO (R,S)-reticuline 7-O-methyltransferase; TrEMBL-Plants: tr\|I3SGC9\|I3SGC9_LOTJA Uncharacterized protein; Found in the gene: LotjaGi3g1v0457700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:87174070..87184552) extracted from Lotus japonicus Gifu genome v1.2.

ATGAGAGTCACTTTCAACAAATGATTTTTACATGGTTTAAATTTGTGTAATCACTCATACGAGATATACCCCAATAGTCC TAATTGGTAGTGTACTACTCTTTTGAGTATATAAAAATCAGGATGGGCATGGTTTATTTAATAGTAATACTATAATAGTG TAATGGAAGAGATAGAGATAGAGATAGAGATAGAGATGTACGTAATTTTAATCCGACAAAATGATGTGAAATTTCAAGAG AAGTTATTCGCCTAAAAGATATCTTATCCTGGACACAAGCAAGTTGACAACGCATGCTGGCGTGGATCCTAAAATGAAAG TCTCAAAACCTGGCACATCACATTACAGTTGTCGAGTTAAATTCCTGGTTGGCTGTCACTAACTCACTCAATTTGGTTGC GCTGAAAAGATTGACATTTAGGTGCCATTTCGTGCCTTACAGGTATCTACTACTTCAACTTTGTTGTGTCTGTCTCCATT AAATTCAAATGGGTGTCGAAACATGTACATAGGAGGAGGAATGCCACTTTCTCCTTGTTGGGTGTGTGAGTGAATCTCTT GCCTCAGAGGAAAACATGGCTTATGCAGAGCCTGCTCTGAAGCCTATATATTTGCTGCTCTTTTGGAATTAACAAGGTAT CATCATCTGTCCGCCTGTCATGAGACTAATTATCTCATGAAAATTTTCTACATATATACTCTCTGCTCAGAGAATGAACC CTCAACTAAATGTAGTGTAGTAGTGATAGCAAATATATAAGCTTCATTACATTTAGTTGAGGGCCTCGACTAAATGTTAT GAAACTTATATATTTGTTATTCTCTGATTTTTCTTTTATGGCACATTCTCAAATCTCAACCATGGTTCCATCTTGGAGTC TAGCTGGGTAGCTTCATCTTGAAATATGACTAGTTTGTTCATGTTTTTGTTCATTTGTTTACTGTTGTTTTACTAGAATT TCCTCATGTTCATGGTGGCAGTAGCTAATGCAATTGTTGGTTTTGAGACCTCAAGAAGAGGGGGGGGGGGGGGGGGGGGA ATCTTTGGTATGCTAACAAAGGTGAACAATAACTTTACTGTTATGTCCAACTATGATTCTTCTTTGTGGTTCATGATCTG TTTAAGTTTTCTGCTGAAAGTGTTGATTTGACCATGAGCACATCACATACTTTGTTTTCTTCCTTTGCTATTTTTGTTTT ACATGATGCTAAGTGTGGTGTGTAAATAGCAACATGATGATGCATGCTGTCATGACATGTCCGGGCCGAGGTTTGTGTTT GCAACTCCTTTCACTTTATCTTGGGCCCTTAGGTTCAAGTCTTGGATATGAAAAGGAAAATTTAAAAAATCACTTTATTT ACATTTTATTATGCCCTTTGAGGTCTTTGTTCCAAATGAAAGACTAAAAACTCGTTGAAGTTAAAGTTTCATCAGGCTGA GATTCAAGATGGAAACTAGTTATACACACACACACACATATAGCTGGATTGCAGGACACATAATTATTAAAATCTCATTG CATATTGTTTGTTTGTGTTGGTTGTAGCTTTTTTCCAAATTTTATTTCATTCATACAAGTTTCCTCTTCCATACTAGTTA TAATCATGGCAGATCTTTTTGTTAACTAAGTCTTATTCCCATTGATTTATGAAGCATCTCAAGAGATTCTACTTGCTGAA AAATCAACCTTCATTTCCCTTCAAGCACTGATTTTTCTCACCCTCTTCACATAGTGATATGCTGAATACAAACCATATGT TTTTTATTTTGGGTCTAAAACCTGGGGTTAGTTGAGTAGATCTATTATCTTTTCGCGAAAGTTAACTACTTCTTGCTGAT GCTGATACGTATAGAACTATGGATTGAGGCCCTAAGGCCCTGTTAGTAACAGGCTGACTCTGCCATTCTGAAATTGACTT TATGCATACAGAAAAGATGGGCTGGGCCCAACTGGGATGGGCTTGGTTGGTCCAATCTACCAACTAATTTCTGGTATAAT TCCATAGAAGTTGTATAGTTTTATGATACACACACAAGAGAATTTGTGCTATATGTTTTGGCCACGTATACAGTGTTACA CCTCTGAGATATTGACTTCAACACATCTAAGAAGGTTCACATTGACTAGAAATATGACCAAATAGTTGCAGCCCTCATCT CTAAGGTGGCTTTTGGGGTAGAGTTAGACTTAATCTAAATTCTAAAACATTTCTATACAACAATTTGTTGAGGAATTGTA TCCCTCAAACTATTGTTTTGCTTTGACTAAAAAAAGAAAGTAATGTTATATGAAGTCATCCTCATCCTTGCCCCTATTTT ACTGCATGGATTGAAATCACCTCTGATTTAATATCTTTCTTTCCTGATCTTTCAACATAAAAAAAATATTTACTATGAAA CTGCGATATTCTCCTCAGTTACAAGTTTTCATTGTTGAAGTATCACTCTTCAATTAGAGGAACAATGAAGGAGAATCAAA TAGAGAGGAGAGATGAATCCTTTCTTACATTAGGTAGCAGTACCTGTTAGTGGCTTAGCAGAAAGACTTTTCCAACACCA ATTTCTATCTCAATTATTGAAGGATTACTTTTTTGCAAATGTACATTTGTGTTAACGTGTCAATATTCAAACGGTGCAGA AAATTGGCGATGTGACCCCATGTTTGTCATTAGCTATGCTAATTAGTTTTTTCTTTAAACATGACCCTGCAATCAGATCA TCTTCTTGTTCATTGGAGAACTAATGATACAAAATTATACTAATGTTCTTCATTAGATGTATCCCATTGGATTCATTCAC TTTCCAAAATTCGTACGTGTCAGATGAATCATGGTTCAAATTCACCAGAGCTGCGATTCATGTTCAATATCTCCTCTCAG TACCAAAGTAGTAGCTCAAAAGCAGAACACATGCTTTAATGGTTTCTAATATGCACCACACACTCATCCATCACATTATC ATGTCGACATAAATAATTCACTTTCACCATCATAGAATTTTGTTTTTCCAATCTCAACCGCACACGTATGTTAAACTCAC CAATCCACCATACACGTCATGCTACCTCTTCATCTTTATTAACCGATCATTTGCAAGCAAGCTGCACAGAAGCAACCAAC TCTGAGGGGAGCAAGTTGCTTTTGGTAAAACAAAAGGTTCTTCTGTTCTGAACACGCGTCTTATTCTTAGTATAGAATTC CCACAAATCATGGAGACTGTTCTTTCCAAACACTCCCCCCCTTTGGCCTTCAAGGTGAGTAGCATGGTTAACACTCAAAT AACCAATCTTAATAATGAGACTTGAGTAAATAATTGGTTATAAGTTGGTCTTAAACATGCTGATATGATGCCAAAATCAA GTGTAAACCTAAAGAATATGTAAAAGCTTAGGAACAATATTGTGTACATAGCCATGTTTGATTAAATTTGTGACCATTTT ATGCATTGTTACATATAAAAATGGATTTAGCTTTATTACAATTGATCTTGAAATTTGATTGATTTATTGGCATGTTATTT GCAGTTTGATTATTAAGTGATCTAAACTTTGAATATATGAGGTTTTGTTATTCCAGTTTGGTACACTGGACCAACACTAT ACCCCTGCCTTCACAGTTTGGATAAAGTTCGGGTTCCATGGTTCTCTGGCTAGACAGCTTCTGAGAGAATAAGGAGTTTT GAGAAACTCTACAGGAAATGGAATTCAAAAAACAAAAAATAAATAACTGTGACTTCAGTTTTTTATGGTTACAATTAGCT TATATTGGTGATTATGTAAAGTGGTAATAGAAAAAAAAATCTGCAATTGATGAAATTATAAGTGTTGACTTTGGAGGTTT TTGATCCGTATGTATTATTGCTTACATCTGCATGTGATTGACAACTAAGTATAATTTTTTTTATAACAGAGACGGCAAAA GCACTGTAGAATCTTAATTAGACTGTGTCTGTGTTTGGATCAATTTATTTTTACTTTTAAATAACTTCTGAAAAAATATC AATTGCCATAAGAAAAAAAGAATAGAATTTTGATTAATTATTTAACCTTGTTTAAGTCTGTAAGTGCTCTAAGATAGCTA AACCAGTGAAAACCAGATCAGACTGACAGGGTATGTAAGTTCATGTTTCATGGGGTAGTCTAACAACTTACCTCATGAGA TTATAAGTACATTGAAGGCGAACCAAAAGTATGTTTAAAAGGTAAATGATGATTAGACATACAGCTCACTAACATGTATG TGAATTGGATGTCAACAACAATCATATGTTTATAGAATCACTTCTTCAAAAAATTCTGGTGAAAATTTGGTGTAGTACCC AATTCACTTTTTCTATAAATGATATTTGATTATGTGGTTAATAGGATAAGTTAGATAATCATATCTTTTATATATTGTAA AATTTGTGCAACCACTTTTCATAAACTTATTATATAAGTGCAAATATTTTATAATATAAACTTTGTGCAACCACTTTTTC AACCGTTCTAACTTTAAGTTAATAAAAGTTAGGAGAGACTTCCTCATTTAATGTGATCTACAAACCTCGAAAAATTAGTT TCATGGTTGTCGTCTGTCTATCGGTTGTGAGATACCTTGCGAAACAAAAAAAAATCTTTTAAATTAATAAATAAATTTTT TATATTGTTAAATATATTATCATCTAATTTGATTTTAAATACATATTAACATATCATTTTATTTCTTTGTCTTGGTTTGA GTTTTCTAATTTTGATTGATAGTAGTATAAAAAAAAACTCCTGTAAAAGTGACTTGTATCAAGGATAAAAATATCATTAA TGGAGGATGAAAATATTTGTCGAAATAATATTCTAATGATGTTCTAAAAAAAATTGACCAGCTATTGAATCCGCAAAGAT ATTGGTTCATGATTGATAGTTTAATTAAGATCGAACTAGTAATATTAAGTATTTATTTTAATATTATATAATATATCAAT TTTTTTTAAACTAATATATCAAATAATTAATTAAAATGAAATGTTAGAAAATTAAGTCAAATTAAATTTTAAATTAGGCT TTTATTTGAATAAAATACATTTTATCAAATTAAAAATATATAGTAATGTTTTTTTTTGCAATATACTCGTTCAAAAATAT GTCTTCGCCTGTTACGGTCCGATTCTATTGGTTCTCATCTATTTTGAAATTTACCGTAGTTTTTTCATCAAATGAATTGA TCACTTGACTGAATTTCTATTCAACGATCGGATCAACATGACCGGTTTGGTTTTCCTAATAATAATGTTTTCAGGTGGTG TAGCTTTTTTTCGCACTTGCAACAGGATCTATAGCTCACGTGAACCCCTTTTTAAAGTACTTATATTGAGCCAAAAAAAT TAATCTGACTCATTTCTTTTAATCGGTGTAATCTCGATCGAGAAACGGTGACAGTCTCTCGAGACATATGACTTTCCTGA TGTTTGAAATTGTACCCTCACTCGTACATATGTCTAGTTTGTAAACCCACACTATAAAAATAACAAGTTAGATATGGTTA TCAAGTGAAAGCAAATTTAATGCATAACAAAACATTGTGGGTTAGGTGAGGAAGTTCCAAGCCAATGAACTTGATAAGAT TTATGTAAAAGAAATTTAAAAATAGTAAATATAATTAGTAAAATGATAATGCAAACTTAGGGAGGGGAATGCAGGTGCAA ATTTCTTGACCGAAGTGGAAGCTCAGCAGGCGAGAGATTTTCTTCTCGCCTTGGATCCCCGTGACAACCATTACTCCGCT TCCATTGGCGAATGCGATAAGAACTAGTTTCGCTTGACCTTTGTTTCGTCTCGGGTGTTTTCTCTTCTTTTTCTAGTTTT GTTTCTTAGCCTCTTCTAAAAAACATAGCCTGATTTGATCCAAACCAAACATTTATTTGAATTAGATTTTATTATTATAG AAATGGAGTGACAAAATTTATTTTAGTACGAGTAATACTTTTTTCGAAATGTAGTACGAGTAATACTATATCTTGTTCAT ATATTTATTGATGAAATTATTGACACATACAAAATGATAAATGTAACTACTTCATTTGTATTTCACACCGTAGAGCATGC ATGACATACCAATATGTTTTCCCTTGACACTACGTGGCACAACATAAGTTGCCTAGGATATTAGATTAAACTATATTTTT AGATTGGCAACGGGTAGGATCGGGCACGGGTTTTACAATTACCAAACCCAAACTCAAATCCTAGAACCCAAACCCAAATC CAAATACAAACCCTCTTGGGCGATAAAATGAAATTCATGCCCAAATCCATTGGGTTTCGAATTTACCCGAAACCCAAACT CAAACCTATTAGTTACATAAAATAGCAACCCGATCCAGAACCTACTTTCATTGAAAGAAAGAAAAAACAAATACTATTCA TCATCTTCATCTATCACAAAAGTGAGACAACAATAGTTTAGAGTTTACTTTCTCAAACATACAAAAGTACAAATAATCAT CAAACATTAAGAACAAAGTTTATAAATATATATATGTATGAGGGTTTTTTTGTAATTTTATGTTTCGGGTATCTTTGGGT TCGGGTTTGGGCGGGTATGGGCACGGATTTAACTATTACCAAACCCAAACCCAAATCCAGTCAACTCGGATTTTACCATT TAAATCGGATCGGGTTCGGGCGGATACCCATGGGTTTGGGCAAAATTGTCATCCCTAAGTGCACACATGACAAGGATGTG AGGAAATATTCTTATGGCATGAGTAATGATATATCTTTTTCATACATTTTCTTAATAGTTTCATTAATGACACATCATGA GAAGGACAAAAATATCTATTTCACTGTTTTGTTTAATCTCTATTTCAATTAGTACATAAAAAATTAATTTAGCTAATCAA ACACAAATGCATCTTAAATCTATAAAAACGCACAACATGAAATAGTTCTAGCTCAATTTGCAAAAGAAATGCGAGCCAAC TAGTTCTCAATACGTGCTATTTCATACTAATGCATTTTATTTGAGACACATTTTTTCATCGTATCTCTGCCACATAATTT AATTGAAGCCATTCCACTGTGAACTTACGTTTCTTGAAATGGAGGGAACATAAATTAGTTCAATTTAGACCCATTTTACA AGGTTAACATGCCCAGATTTATATAATACGGAGTATATTTATCATGCTTAATTAGTTCACTTAGTTCAAATGATACATAC CTGATTTCCTTTAAGTAAGATCTCAAATAAACCATTTTTTTCTTGGATCGACCAAGATTATCTCCCATTAAGATATCTGT GTTAGACCAGAAAAATATACAGTTATAAACCTATCAAATTAAGTATTTGCACTTGCAAATTTCAATGTTCATGTAAATAG TTTTGTCCATTTTTCTGGGCTTATGATTCTCATATATCTATTTCGTTCCAATATCAATTTTATTCTCAGGGTGTGAGCAA GGAGGAGGAAGAATCATTGCTTGGACAAGTTGAAATATGGAGGTACATGTGTGCATTCACAGACTCTGTTGCTCTGAAAA GTATTATAGAGCTGCGCGTAGCTGACATCATAGACCGTTTTGGCAAACCACTTTCCCTGTCCCAAATTGCTGCCAACATT GAAGATGCACCCTCCCCAGATGTCAAATTGCTAGAAAGATTGATGAGAGTGATGGTGAGAAGAAAGATCTTCAGTGCAGA GAAGTCAGAGAGTGGAGAGACGCTCTATGGCTTAACACGGGCTTCAAAATGGATCCTAAGGGACACAAAATTGACCTTAG CACCCATGTTGCTGCTAGAGAACCACCCTATTCACTTGAACCCTGCTCACTACATTAGTGACACTGTCAGGGAAGGCAAG GAAAATGGCACTCCCTTTTTTAGGTGCCATGGCCATGATCAATTTGAGATGACAGGTTTAGATGAAGAGTACAACAGGTT ATTCAATGAGGGTATGGTCTGCACGGCTAGGATTGTGTCCAGGGCTGTTATCTCTGGGTACAAGGATGGGTTCAACCAGA TTGAATCATTGGTTGATGTTGGAGGTGGTATTGGAGGATCTCTCTCTGAGATTGTCAGAGCCTACCCTCACATCAAAGCC ATTAACTTTGACTTGCCTCATGTGGTCGCCACAGCACCACCCTACGATGGAATCACCCATGTTGGAGGAGACATGTTCGT CTCTGTTCCTAATGCTGATGCTATTTACATGAAGGTATCCAAAACTATTTCATTGCTGGTACTTAAGATTCTGGGATATT GGCTGATAACATTTTGCTTGTAAACATTATGAAAATGATCTTTGATAAATTTAGAATATCGGTGGGCATCTAACACTTTC AAATATTTCTTTTGGTGAATTGCAGTGGATTCTTCATGACTGGAGCGATGAGCATTGCATCAAGATTTTGAAGAACTGCA GAGAGGCAATACCAGAGAAGACTGGAAAGGTCATCATTGTGGATCATGTTTTGCAGCCTGAAGGGAATGAACCATTTTCT GACACTGGCCATGCATTTGACATGATGCTGCTCGCACACAACTCTGGTGGGAAAGAAAGGACTGAAGAGAACTGGCAATA TCTATTTAAAGAAACAGGATTCCCTCGTTACAACATCATCAAGATCAATGCCCTGCCATCCATCATTGAGGCATTTCCAA TCTGAATAACTAATTGTGGCTTTGTGTGATTAATGATTAACAGCGATATGGTCTCTGGTGTTCTGTGTGGCTTTCCTGGG AGTTTTGTTAGCCAAGGCAAACTGCTCCTTTTCTGGTTTCTGTATCATAATTTGAATAAAACACCCACCACCTACAGCTA TGATCCATGGGCTACCTATGGTTCCATCATATTGTTACATAGGGTGTATGAAGGATCTATTGCTGTTAATGGATTTGAAT TGGTGTGTCACATTTTTCTTCCTTTCTCTCTCATTGTTAAACACTAATGGTCAAAAACCTACCTGTTAAAGCAATCAAGT TCAAACTTAAGCTAACCTGAACATGCATGCTACACAAATGAAAGTGAAAAACTTAAACATGTAAAGAGGAAAGAATTGAT AGATGCAACTGTTCTTCTACATATAGGATGTAAGAACCCTTTTCCATTGTTTAAGTACATCCTGAGTTCCTGACCATTCT TAATCAAACAGTCTGAAAAAATCATCCCAGGCAAATCAATCATTATGCAACCATTAAGTATACCCATTGGAATCAATCAA AAACTTTTTTTAGTAAAACCATATAGTGCCAATTCTTTTCAATGATTTATTTAATGTTTTGGTAAGTCTTCCTGCACCTC TTTTAATTGCATTATCTTCCATTTGACTCATCACTTGCCTCACTCAAGCCTCCAATTTATTCATTTATCTCATTCTGCAT ATTCAGTAACTTGGTAGCTCTGACAAGTGTCCCAAGATTCCCAGTTTTCGAAATAGGTTTCTAGTTCTAAACTAAATTAT GGAAATTATCTAATAAGAAATAAATGCCTTATTAGAAAACGAATGGAAAATATTATTAAGATCAGGTAGCAATAGAGAGA AGGAGTAAAGCTCACTAGCTCAATTATGGGGCCTGTCGAAAGCATATTTTGCCATTGCATAAAATACAGCTCCAGCAGTC AGCTTATTGTATTTGTATGACAACCTAACACATAAATAAATGCAATGCTTCTATCAGTTAAATCCCATTAAAAAGTGCTA TCATATAAAACAATGAAAACATATGTTGAGAACACCGAAGGCGCACTGCTGCTCACTATTTCCCCTTGGCCGATACCCTT GAAGACAGAATATTCAAAGTTCAAGCAGAAAAGTAATCTCATAAACCACTAGAAATGACAGTGGCATCCAGCAATGATAT ACATCAACATCAAATACTAGTTCCCTTAAATTTGGTTCACAAAGAGATAGAGGCTCCAACAATTATTGGCTTGAATGAAA GTGCCGGTGAGTGGCGACAACAACCCCAATTCCCAGCCTCAATCAATATTATAATCATCCCCACCTAAGCGGCCTCGACT AGTCAATCTCGTGGCAGGATGCATCATTCATCTTACTTAATAAAACCTTAACCTTACGCTAAAAACAGGGTTATGCACGA GTTAGTAATTTTATCAAACACCTAGCGTGCAGTTCATGAACACACATTTGGTTCACACAATTTACTCAACAACCAAGAGA TGCATGAAAATGAAAGTCACACACTAAGGGATCAAAACACCAAAGTAAGGGCAAGTAAGAGATTGAAAGTTTGAAACCAA AGATGCAAAGAAATGGAATGTGCTTTACGACTCACACTCTCATAGCTTGAGACCAAAGGGTTCATGCTGTGTTGTTCCTG CTTCGTTCGCAGACGCAGATTGAGACTTATGAGTTTCAAGGGTGTATTAAAATCACTTATTTTGATTAATGATTATAATC ACTTATTTCAATTTCTCTAAATTATACTATCTCTTTTTAGAGGAGATGGACCCTAGAAGAGAAAAGCGGAATTGGAGTGA AAG

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0457700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAGACTGTTCTTTCCAAACACTCCCCCCCTTTGGCCTTCAAGGGTGTGAGCAAGGAGGAGGAAGAATCATTGCTTGG ACAAGTTGAAATATGGAGGTACATGTGTGCATTCACAGACTCTGTTGCTCTGAAAAGTATTATAGAGCTGCGCGTAGCTG ACATCATAGACCGTTTTGGCAAACCACTTTCCCTGTCCCAAATTGCTGCCAACATTGAAGATGCACCCTCCCCAGATGTC AAATTGCTAGAAAGATTGATGAGAGTGATGGTGAGAAGAAAGATCTTCAGTGCAGAGAAGTCAGAGAGTGGAGAGACGCT CTATGGCTTAACACGGGCTTCAAAATGGATCCTAAGGGACACAAAATTGACCTTAGCACCCATGTTGCTGCTAGAGAACC ACCCTATTCACTTGAACCCTGCTCACTACATTAGTGACACTGTCAGGGAAGGCAAGGAAAATGGCACTCCCTTTTTTAGG TGCCATGGCCATGATCAATTTGAGATGACAGGTTTAGATGAAGAGTACAACAGGTTATTCAATGAGGGTATGGTCTGCAC GGCTAGGATTGTGTCCAGGGCTGTTATCTCTGGGTACAAGGATGGGTTCAACCAGATTGAATCATTGGTTGATGTTGGAG GTGGTATTGGAGGATCTCTCTCTGAGATTGTCAGAGCCTACCCTCACATCAAAGCCATTAACTTTGACTTGCCTCATGTG GTCGCCACAGCACCACCCTACGATGGAATCACCCATGTTGGAGGAGACATGTTCGTCTCTGTTCCTAATGCTGATGCTAT TTACATGAAGTGGATTCTTCATGACTGGAGCGATGAGCATTGCATCAAGATTTTGAAGAACTGCAGAGAGGCAATACCAG AGAAGACTGGAAAGGTCATCATTGTGGATCATGTTTTGCAGCCTGAAGGGAATGAACCATTTTCTGACACTGGCCATGCA TTTGACATGATGCTGCTCGCACACAACTCTGGTGGGAAAGAAAGGACTGAAGAGAACTGGCAATATCTATTTAAAGAAAC AGGATTCCCTCGTTACAACATCATCAAGATCAATGCCCTGCCATCCATCATTGAGGCATTTCCAATCTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0457700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

METVLSKHSPPLAFKGVSKEEEESLLGQVEIWRYMCAFTDSVALKSIIELRVADIIDRFGKPLSLSQIAANIEDAPSPDV KLLERLMRVMVRRKIFSAEKSESGETLYGLTRASKWILRDTKLTLAPMLLLENHPIHLNPAHYISDTVREGKENGTPFFR CHGHDQFEMTGLDEEYNRLFNEGMVCTARIVSRAVISGYKDGFNQIESLVDVGGGIGGSLSEIVRAYPHIKAINFDLPHV VATAPPYDGITHVGGDMFVSVPNADAIYMKWILHDWSDEHCIKILKNCREAIPEKTGKVIIVDHVLQPEGNEPFSDTGHA FDMMLLAHNSGGKERTEENWQYLFKETGFPRYNIIKINALPSIIEAFPI

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
PIRSF	PIRSF005739 View details on PIRSF005739 Search for proteins/transripts with this domain View external data on PIRSF005739	12	369	358	4.2E-122	IPR016461 Show description in modal box View details on IPR016461 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.10 View details on G3DSA:1.10.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.10	13	117	105	1.5E-27	IPR036388 Show description in modal box View details on IPR036388 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11746:SF196 View details on PTHR11746:SF196 Search for proteins/transripts with this domain View external data on PTHR11746:SF196	18	367	350	9.1E-141	–
PANTHER	PTHR11746 View details on PTHR11746 Search for proteins/transripts with this domain View external data on PTHR11746	18	367	350	9.1E-141	–
SUPERFAMILY	SSF46785 View details on SSF46785 Search for proteins/transripts with this domain View external data on SSF46785	21	120	100	1.47E-19	IPR036390 Show description in modal box View details on IPR036390 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51683 View details on PS51683 Search for proteins/transripts with this domain View external data on PS51683	32	368	337	77.479	IPR016461 Show description in modal box View details on IPR016461 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08100 View details on PF08100 Search for proteins/transripts with this domain View external data on PF08100	43	91	49	9.7E-10	IPR012967 Show description in modal box View details on IPR012967 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.150 View details on G3DSA:3.40.50.150 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.150	119	369	251	1.5E-76	–
SUPERFAMILY	SSF53335 View details on SSF53335 Search for proteins/transripts with this domain View external data on SSF53335	124	366	243	6.92E-57	IPR029063 Show description in modal box View details on IPR029063 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00891 View details on PF00891 Search for proteins/transripts with this domain View external data on PF00891	143	349	207	3.5E-64	IPR001077 Show description in modal box View details on IPR001077 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02440 View details on cd02440 Search for proteins/transripts with this domain View external data on cd02440	209	306	98	0.00152107	–

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:0008171 View details of GO:0008171 AmiGO InterPro QuickGO	Molecular function	O-methyltransferase activity	Catalysis of the transfer of a methyl group to the oxygen atom of an acceptor molecule.	Subterm of View details of GO:0008168
GO:0046983 View details of GO:0046983 AmiGO InterPro QuickGO	Molecular function	Protein dimerization activity	The formation of a protein dimer, a macromolecular structure consists of two noncovalently associated identical or nonidentical subunits.	Subterm of View details of GO:0005515

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0457700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0457700.1