Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0298400
Transcript ID	LotjaGi4g1v0298400.1
Related isoforms 6	LotjaGi4g1v0298400.2 LotjaGi4g1v0298400.3 LotjaGi4g1v0298400.4 LotjaGi4g1v0298400.5 LotjaGi4g1v0298400.6 LotjaGi4g1v0298400.7
Lotus japonicus genome version	Gifu v1.2
Description	Aminotransferase; TAIR: AT5G57590.1 adenosylmethionine-8-amino-7-oxononanoate transaminase; Swiss-Prot: sp\|B0F481\|BIODA_ARATH Bifunctional dethiobiotin synthetase/7,8-diamino-pelargonic acid aminotransferase, mitochondrial; TrEMBL-Plants: tr\|I1LVT1\|I1LVT1_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0298400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:67241841..67251468) extracted from Lotus japonicus Gifu genome v1.2.

ATTAAAAGAAAAAAATATACTCTTTGAATTTTTTGGCACATCGAATTAAATATCATAAGATACATCTAATTGTTTGTTAG CTTGAGTTGAATTGTAGAGTGACGTTTCATTTCTGATTTCCCTCCTTAAACTTCGTCCTCTACACCAAACTCTAATACAA CCACTCTTCCGCCATGTTCCGCTTCCCCTCCGTCCTTCTCTCCCGCCGTCACTGCCGCCGAAAACTATCCACCACCACCA CCTCGCAACCACTCGAGCTCCCTCTATCCCACCCTATCTACCTCATTTGGGGCTCCAACACCGGCGTCGGCAAAACCCTA GTCTCCGCCGGCATCGCCGCCTCCTCCCTCCTCTCTTCCCCCTCCCCCGTCAAATTCCACTACCTCAAGCCCCTCCAAAC CGGCTTCCCTTCCGACTCCGACTCCCGCTTCGTCTTCAACAAGCTCTTCCACCTCCGCAACCGCACCACCCCCCGCATTG CTCTCTCCGCCTCTCTCCGCGTCCTCAATGCCTCCCGCGCCGCTGCGACGGAGAATGACCAGACTTCTTTTTCAGCTGAC GGAGAACGTTCCGCCTCCTCGGAGCTGGTTTGCAAGACGCTGTACGCGTGGGAGGAGGCCGTGTCGCCGCATTTGGCCGC CGAGAGGGAAGGTTTCGTCGTCAAGGACTCGGTGGTGCTGGAAACGTTGCGGAGGTGCTTTCGAGACGTGGTAGAAAGTG GCGTAGGGAAGGAGAGGTCGGAAGTTATGTGTATTGTGGAGACCGCTGGTGGAGTTGCTAGCCCAGGTCCTTCTGGGTCA CTTCAATGTGACTTGTATAGGTGTGAATTTCAACCTTTCTTGTCATTTTGTTCAAACACTTGCAGATTCAGCTTTGATGA AACGATTTTTAGGTCTATGTATTTAGTTAGGTGCCTCAAATTTTGTTGAGATGCTTGCCCCTTTGTTTAAATTTGATTAT CTTTTGCTAACAATTCATGGACTGTTTGATATTTGCTACCCTTTGTCAGAGTGTAGCCATGAGAACTCATAGACATGTAG GCTAAGGAAGCAAACATATAATATGTGGTAGAATAGTGGTCTATATGGCATAGTTCAAATCTTATTCTTTTGTTGAATCT GTTTCTTCTGCCATTTTTGGTCAGGCCGTTTCGTATTCCTGCAATTCTTGTTGGAGATGGGCGGCTGGGAGGAATTTCGG GAACAATATCAGCGTACGAGACCTTGACGCTTCGGGGTTATGATGTTGCTGCTGTTATTTTTGAAGATCACGGCCTTCTC AATGAGGGTCCCCTATTGTCTTATATGCGAAACAAGTAGGCTTGATTACACCAGTTATTTTGTTCTCTTTCTGCTTGTGA CATGAAAGAATTTTTGTAGTAAAGAAAAGTTAAGTTTAAGTGACAAGCTTTAAAATTAATGTTCGAAATTGTTTTTATTT TAAGCACTGGATGTTTTAATTTCAGGCATGGTGAATGGTTTCAGCAATATTTTTATTTTTTTTCTAAAGTTTTTATTTAA ATTCATTTATTTTATAGGTAACAAACGAGCAACACTAAAATCTTGTTGGACAGTCTGCATAACTTCATTTTGAGCTAAAT GTATGATAGAAGAATTAATTTTGTCTGTTTTGCTTCTGGAAGACTGAGTTTTCTGTTTGGGAAGATTTATCCTATTTGGC TTATAAAAAAACTTGTAAAAATGAATTTTGCTTGAATAATGTTATACAATTACTTGTGCTAAATCACCAAGAAAAAATAT TTTTTGTGTTCAAAATTGCATTTGTAAAGTGTGACTAAACGTCATGCATGTCAATGTGGGTTTGAGGTTTCAACTCATAA GAATTCTTGCTAATGGGTTGCCAAGTGTTGGTTTGAAAATTTTAGGGTCGGTTTAATTTCCATTTGTATTTCCTTCCTTT AGTTTTATTCGCAACAATGTCCCATTGTTTTAATTGTTTCCTGTTTTCAAAGTCTTGTATAGGAAACAACAAGAACTGCA TTTTATTTTTCTCACTGTTTCCTAGCCAAAACTATGAAAATAAAAAATGAAGTGAAAACAAGGGGGCATTGTTGCAATTA AAACTAAAAACTGGAAATAGAAAGTAAACAGGCGCTTCATTTTCAGCACTGAATTGAGTTTTACAAACACACCAGTGTCT CTCTCTCTTTCTCTCGCTTTCTGACACTTACATATTCATATATACATCTAGAGGTCTTTTTATCTGCATTTACATTTCAG CTAATCAACTATCTTTATGGTTTTGACTTTTCTTCTGTTTTGCGGTATGATTACTATGTGATTATATACTATTGTTGCCA TCTTAATGCAGGGTTCCTGTTCTAGTGCTACCACCTGTTCCAAAAGATCCATCAAATGACTTAATGGAATGGTTTGATGG TTCCCATGGTGTATTTAATAATTTAAAGGAAATAATGCTATCTGCTTATTTTGAGAGAATTAAAAAATTGCATGACATGC CAAGAAAAGCAAGGGATATCATCTGGTGGCCTTTCACACAACACAAACTTGTACCTGATGGAGGGGTCACAGTAATTGAT TCACGCTGTGGTGAGAACTTTGCAGTCTTCAAGGTTTGTTTCAAGAAAAATCCTTATTTGTTCTTTTTTTTTTGATTTTT TTAGGTGTTGCAATACAAATCTTAGTGAACTGCCCTATGTGTACAATGTTGAGCTTACTACATTAGTGTTTACGTTGGAA TTAGATTCAGGAGTTCTATAGAATCTTCATTCATGCTTTTTCATGTGCGGACACTTAGATGACACATCACCATTTTTTTA TAGGCTCAGAAGACAGAAGTCATAGCACCATTATTTGATGCATGTGCAAGTTGGTGGACTCAAGGACCTGATGCTATTTT GCAGGTCATCCTCATTTTTTGAAGCTTTTAATTTTGTTATTCAAACTTTTAATATTCATATTGGCTATTTGATTACCAAC AAGGTGTTGGTCTAGTGGTTGGCAAGCTAGATCCCCGGGAAAGTCATTTGTTGGGAGGGACTACCACCGTTTCCCGAACA GGTTAACATCTGCAAAAACAAAAAATATTGGTTATTTGATTGAGGGACATGTTCTGAAATATGACATTCTTCCTTTCTTA AACTGTTGGATATGCTTGTAAAAATATTCTGTCTATGTTTTTAATTTATAATGCTTAACCATATCATTTAACTCATCAAA TGTCCTGCTTTAATTAGGCAGTCAAATATCCAATGTAACATTTAGTGAATCTTTATACTTGGATCGATGATAACATATAA GTCGAACATGTTTGCCTGCTTATATAGACCTGGATGCCCCTTTATGATAGCATCTCTGAAGTTTTCCTTTAATGCTATCA TTCGATTTAGGTAATTTCAGGCTGAGCTTGCTAGGGAGATGGGATATACTGCTGCACGATTTGGGCATGTAATGTTCCCA GAGAATGTTCATGAACCAGCCTTAAATTGTGCTGAGCTTTTGCTTCAAGGCGTGGGGAAAGGTTAGTGTGCTGTTTGAAT ATTCTTCCATATTCAAATCAATTTTGTTTTTGTTTTATCTAATAGGATTTTACCAAGGTGTTCCTAAAAGTTTGTATCTA ATGTATGATCTGCGTTCTGGTCTTAGGGCTATTTGATCCATGAATACAATTACGTTGGTTAAACACGTGCTTTTCAGTTT ATTCCTAGTTTCCTACTGCTACTTAGGGATGTTTGCCACTGGCCAGTGTTATCCCCTGAATGATAAAATATGTTATATTG TGAACAATTTGCAGTTTTTGTTAGTTATTCATGTTAATTTCCATTTCAGCTGGGTGACCGAACTAGGGTTTATGCAGGTT GGGCTTCTCGTGCATATTTTTCAGACAATGGATCTACAGCAATTGAAATTGCTCTCAAGATGGCATTTCGTAAATTTTCT GTTGATCATGGACTCATTCAGGATTCTGATGAGGATACCATAACTGAAAGATCTCCTGAGCTAATGGTTGGTTCCTTCAG TCCATTTGTCTTTTCAGTTTGCAGTTATTTATTTTGATTAGTTTTTGAGCAATGCATGGGAGTGAAGGCTTTGGCGCTGT GCTGTTTTGTGGTGAATTTGGCTTGAGGAAAATTTCTGTGTTTTCAATAAGTCTTATCTCATTCCCTAATTTGTTATTGG GTGGGAATGTTTTCATGGCGCACCCCCTTCTTTAATTTGTTATTTGCTTTTCTTTATTTTAGGAGGATTTTTTTTTGGTC AAGGAGGAAGGTTTTTTCACAAGAATTTTTCTAGTTTCGACACTAATTTTCACTCAAGTGGTTGGTCTTTTCATCAAGTG GTTACTTATTAGCCTGTCTTCGAACTTTGTGAACTGGTTGACAGTTGAGTGGTTAGTTATTCCTAAACTAGAATAATTTT ACAAGGAATTCTTTTTTCCCTTTAAAATGAAGCCTCTGGTTTTATGCTGGCTGATAATGATCTGGAAGTATCTTTCAAAT ATTGTTGTGATTTGAATGGCCTCCCATGTCTTTTTACTTTAAGTGAATAATGTTGTGTATCTTTCTCAGTTGAATTCATT GATTCATGCTGTTCAAATGACAGCAACATAGACTTCACATATTCCTCCTTGCATATACTCTATATAGCAGTATAACCTTG TCTTTTAAAAAAGTAGTTTCATTCAATGAAGTACACCTCTCTTAATGCTTGTGGATTTAATTATTTCAGGTCCTCGCTCT TCAGAGATCTTATCATGGTGACACATTAGGTGCTATGGAAGCACAGGCACCATCATCTTATACAGGCTTCCTGCAGCAAC CATGGTATACATGTTTCCTTCTACTGCATACTTGAGAAATATGAAATTGGGTCTTCTGAAAACATGAGAGGATTACTATT CTCATTTTTCACTGTCTTGCTAACAAAGTTACATTTGATAGATATTGACGGAAAATGCCCATGGTCAATTGGTGGTTTTG GAATTTGGTATCCAGTTAGCATGGGCATTTATAATTCTTCATGTAAAACATTATAAAAGGTGTTGCTGGATATGCCAAAA ATAGACATAAGCAGTTTTGGTTTGTTACTTCTGTTTAGCATAAGTCAGCTTGTCTATTTTATTTTAAAATCTATTGTTCA TGCTTAGTATAATTTTGTCTAAAAACCTTGTGCGAAGTTATGTTGTTATATTTTGTTTGTGAATTCTGATATTGAAAGTT GAAACTAGAGATCATCATTATTTTGGAGCATGTTTTCCTTATATTTTCTGGACATCTGTTTGTAAATGGATACTCGTGTG AAAACCTTCTGTCCGGGAATGGATTCTATTTTTCTACACCTAACTAATTCTCATGAAACCCTTCTAAGTTTCAATTCTCA ATTTCATAGGTACACTGGAAGAGGTCTTTTTCTGGACCCTCCTTCTGTCTCTATGCAGAACAATGCATGGAATATTTCCT TACCTAAAGGATTTCAATTGGAGAATCTGAAACTTGAAAATCTCAGTAAGTTCAAATTTCCAACTTTATTTCGTTTCTTG GTTACTGTTTGGAATATCATCATTTTGATTTGCTGACACTCTCACAGCTTTTGCTTCTCGTGATGAAATATTTTGCAAGG GCAGGGACAAGTCTGAGCTTGCTACAGTTTATTCATCTTACATATCTAAAGTGTTATCTGGATTTAGTGGGTCGAATACT ATTGGAGCATTGATTATGGAGCCAGGCAAGATATTTTATGCTGCCTTTATTTTGCATATTTTTAAGTGTCATTTTAGTTT CACTATCTCCTCTCTAATGCTGTTGATTTTATATTTTTCCAATGCATGCATGAAGCTGAATAAGAAAAAAATAAAAGAAA GAAAGAATCATTTGCTTACTTAACACTCTTCGACATGACAATGCATTAGATTCCTCTATGTCAGCAGTAACACAATTACC TGTGTGAAATGTGATTAAAATACTGCATTTGGGCCGTTCTAGGTCTTCCACATAGCAAAACTGTCGTGTTTGTTTTTCTT GGTTCCTGTAAGATTACTTGTTTCTGAAGTTGGTTCAGTGGCCTTCTAGATATTCTAATTTATTTTGATTTGATTGCACC TTTTCCTGAGACTGATGATCCCATCTGATTCCTGAACTGTTCTGTAGTTATACAAGGTTCTGGTGGAATGCATATGGTTG ATCCACTTTTTCAGCGTGTACTTGTTAATGAGTGTCGGAGTAGGAAAGTTCCAGTTATCTTTGATGAGGTTTTTACTGGT TTTTGGCGTTTGGGAGTAGAGGTGAATCCCTTAATAACTATTCTATTTTCTCATTTTCGATAAAATGTATTTTATATTCT TCAATTATTTGATTTTTTTTGTTTATGTTTCTTCTCAGACTGCAGTGGAGCTAATCCATTGTGTACCAGATATAGCCTGC TTTGGGAAACTAATGACTGGTGGGATTATACCACTGGCAGCCACCTTGGCAACAAATGATGTTTTTGATTCATTTATTGG AGACTCGAAGGTACAACTTTTTCTTGAAAGACTCTGGAGTTGGACACGGAAACTGTTGTATTTTAGATTTTGATGCTTTG ATGGAATGGGTTGCTTATTATGCTGACATTATAGTTGTGTATTTTTGTTTCTTTCATCAACCTATTAGACTGTTGAACAA CTTCAAATAGTTGTTTATTCTTCGTCGTTGATTTTCTGATTGCTCTCATATAAGTATAACAGATATAAACTAATCATGCT TGAAAATATACTGCAATATTACTTGTGACAAATAGTGTGATTTTATTTTACCTCCGTGCAATGCACATGGGTCTTTATTT TTATTTATATTTATATTTTGATTTGCTGGCCTCTACTTTTTACCTTTTGGTGTTACTTGTATTTTGTGCCTATGCAAAGC AAAGTTCCTAGACAGTGTTTTGATTGCATTCTAAAGTGATGTATACTTTTGTTCTGGTTAGCTCAAAGCCCTTTTACATG GCCATTCTTACTCTGCACATGCTATGGGCTGCATGGCTGCTGTTAAATCAATCCAATGGTTTAAGGACCCTTGTTCCAAC ACTAACATCACTTCTGAAGGAAGATTACTTCGGGAGGTATGCTTACCGCAATCTTTTGTTTTCTCTGAACTTATTAGCTT CTTACTTCATCATATGTAAAATTCCATAAGAGAATAAATTTATCTATATTTTGCTATAATATATTTAAAGGGAATGTCAT TCTATGCTATATAAATTATGGGTGACTACTGACTACACCGGCCATTTTTGTCAGTGTAATTCTTGTCATGCAATGAAGTA TTTGTTGTTCACCTGTTCTTGCCATATATCTTGCATTTCTGGATGCATGTTTTTGCTTATATAGATTGCACCAATGTTTC ATGCATTCCTTCTAAACACTTCACCTTACTTTTGTTTGGCCTTATAAGGTGAACATAGATGTTTTGTATACAGTATAAAA TAAAGTTCTAGGAATTAATAAAAGTAAATGTCTTAGGAATTAGATGATGAATGTCTTTTGTGCAAATTATTGATTATGAA TAAACTTTCATTGTGATACTAAAGAAAAGAAACAACACATTTTCTGCTGTTAACGATGAAAAATATCTTCTTATCTTCCA GGAACAAATGATGCTTAATTAACGTGTTCTTGTTTTGATAAGCATTTGATATACAATGATGAGATCTGACAAAATTATCC TGGGGAGCTTTTCATGTTAAACTCTACATGGCTGCTGGCCTGCTGCAATATAGTTTACTATTGTTCACTTTACCGTAACG TTCCTTTATTTAATTTTCATTATGCATTTGCAGTTATGGGATGATAAAATGGTTCATCAGATTTCGTCACACCCTGTAGT TCAAAGAGTAGTTACATTAGGGACTCTTTTTGCCTTGGAATTAAAAGCAGAAGGCGATAATGCTGGGTATATCGTTCTCT CTTTCCCCTACTTTTCAATAATCTTCTGCACCTCATTCTAGAATTCCTGTTAGATTGCATAATTTGAGGAATGTTAGTAA CATACTATTTTTAACACATTTTGTGATATGTTTTTATTGTTGATTCATTATCTAAGAAAAAAATTGATCACTTTGTGATG TTGAATCCCAAAAGAAAATAGCCATAAGAGGTAAAAGGAAGCTCTTGATTACAAGATGATTCTCTGGATTTTAGTTACTT GTAGATTGACCGTATCTCTTGGATACTAATATGCAGACATGCCAGAATATTCATAACGAGGGCTATGAACTAAAATAATA GTGTTTTTTTGGATAATTTGTCATGCATGCTTATTTATCTTTAGTTTTTTATTTTCAAACCCTGAACTTTATGTTTTCAT TTGTAAAATGTGTAAATAAACCTTTAATTTCGATCATTTTGTTGATGTACCTCTTTGGTACGTGGGGGGAAACCCTGTGG GTAAGGGGTATTAAAGTTGAATAAGTTGTGCATTTTACCCTTTACAAGGTTTTCTTCTAACTTAAGTTTTGCTCAGGTAT GGATCATTGTTTGCAAGACCAATTCTTCAGAAACTTCGGGAAGATGGTGTATACATGAGGCCTCTTGGTAACGTTATTTA TCTCTTGAGTGGACCCTGTACATCTCCAGAAACTTGCAATGAACTACTCGTTAAACTCTATTACAGGCTTAAAGAGTTTA GTGGATGAGGAGTGTAATCTTTTATTAATTGAGAATCCTGTAGATTACCAAGTGGGACTAGTGTAATCTTTCAGCTACTG ATTGAAGCTTAGTTTTTATTTTCTAGGGTTGAGGAGAGTGAAAATCTAAGCTCGAGTTTAGTTTAATCATTGTTTTAATT TTCAGTTGATATTTTTCTGTAGATCATCATAAATGTGCTGTTTTATTTTTATAATGCTTATTGCCTTCAAGATGTGATAA CGAAAAAAAATGAATTTTAATGTTTTCTCTCATTTTCTGGAGAAAGAATCTTGTTCCTTGGTTGCTGCTAAGTGCTAAAG CTTAAAGGGATATGAATATTATTGGAGGTAATACTAGGAAGTTATTATTATGAGAAAATCCATATATAACTATTATCTAA TATTATAAAACTTGGTTTGACTTACTTAGTTAGGACTTAGGAGTATAACCTGATTTAACAATCAACAAAAAAAACATGGC GACTTCGCTATATTAAATCAGTAAATTCTGTTGGATAGAAATTAGAAAAGGTTATACATCAAATTTCAAACCCAAAAAAT CAAATTCAAAACGTGGTAAGAGCTTGAGACAAACCAAGTGGTAAGAGCTTGAGACATAAGGGTTGAGTATGATGAAGGAT GAAGGGTCCGAGATTCAAACCCTGAGGATGGACTAATTTACTAGTTCTTCTGTTCAAAAACTATTGTAGTTTAAGGTTAT GCACAAAGTTTAAGAGTTCATAAATTGATGTTAAAATTGATTGAAACACCCTTATGTAATATGAATTATATGAAAGAGAG AAAATGAAAATGATTGGTCAACTAATTGGTGAGAATTGTGATTGGTGGAAATAAGAAGTGGTATTTGGGAGATACAATAT TAAATAAGGACATGAATACAACAATGATTTTGAAATAAAACAAAAAAACTAAAACTACAATAGTTTTGAAACAGAGAGAG TAACAACTAACATTTACCTCTAACAAAA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0298400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTCCGCTTCCCCTCCGTCCTTCTCTCCCGCCGTCACTGCCGCCGAAAACTATCCACCACCACCACCTCGCAACCACT CGAGCTCCCTCTATCCCACCCTATCTACCTCATTTGGGGCTCCAACACCGGCGTCGGCAAAACCCTAGTCTCCGCCGGCA TCGCCGCCTCCTCCCTCCTCTCTTCCCCCTCCCCCGTCAAATTCCACTACCTCAAGCCCCTCCAAACCGGCTTCCCTTCC GACTCCGACTCCCGCTTCGTCTTCAACAAGCTCTTCCACCTCCGCAACCGCACCACCCCCCGCATTGCTCTCTCCGCCTC TCTCCGCGTCCTCAATGCCTCCCGCGCCGCTGCGACGGAGAATGACCAGACTTCTTTTTCAGCTGACGGAGAACGTTCCG CCTCCTCGGAGCTGGTTTGCAAGACGCTGTACGCGTGGGAGGAGGCCGTGTCGCCGCATTTGGCCGCCGAGAGGGAAGGT TTCGTCGTCAAGGACTCGGTGGTGCTGGAAACGTTGCGGAGGTGCTTTCGAGACGTGGTAGAAAGTGGCGTAGGGAAGGA GAGGTCGGAAGTTATGTGTATTGTGGAGACCGCTGGTGGAGTTGCTAGCCCAGGTCCTTCTGGGTCACTTCAATGTGACT TGTATAGGCCGTTTCGTATTCCTGCAATTCTTGTTGGAGATGGGCGGCTGGGAGGAATTTCGGGAACAATATCAGCGTAC GAGACCTTGACGCTTCGGGGTTATGATGTTGCTGCTGTTATTTTTGAAGATCACGGCCTTCTCAATGAGGGTCCCCTATT GTCTTATATGCGAAACAAGGTTCCTGTTCTAGTGCTACCACCTGTTCCAAAAGATCCATCAAATGACTTAATGGAATGGT TTGATGGTTCCCATGGTGTATTTAATAATTTAAAGGAAATAATGCTATCTGCTTATTTTGAGAGAATTAAAAAATTGCAT GACATGCCAAGAAAAGCAAGGGATATCATCTGGTGGCCTTTCACACAACACAAACTTGTACCTGATGGAGGGGTCACAGT AATTGATTCACGCTGTGGTGAGAACTTTGCAGTCTTCAAGGCTCAGAAGACAGAAGTCATAGCACCATTATTTGATGCAT GTGCAAGTTGGTGGACTCAAGGACCTGATGCTATTTTGCAGGCTGAGCTTGCTAGGGAGATGGGATATACTGCTGCACGA TTTGGGCATGTAATGTTCCCAGAGAATGTTCATGAACCAGCCTTAAATTGTGCTGAGCTTTTGCTTCAAGGCGTGGGGAA AGGTTGGGCTTCTCGTGCATATTTTTCAGACAATGGATCTACAGCAATTGAAATTGCTCTCAAGATGGCATTTCGTAAAT TTTCTGTTGATCATGGACTCATTCAGGATTCTGATGAGGATACCATAACTGAAAGATCTCCTGAGCTAATGGTCCTCGCT CTTCAGAGATCTTATCATGGTGACACATTAGGTGCTATGGAAGCACAGGCACCATCATCTTATACAGGCTTCCTGCAGCA ACCATGGTACACTGGAAGAGGTCTTTTTCTGGACCCTCCTTCTGTCTCTATGCAGAACAATGCATGGAATATTTCCTTAC CTAAAGGATTTCAATTGGAGAATCTGAAACTTGAAAATCTCACTTTTGCTTCTCGTGATGAAATATTTTGCAAGGGCAGG GACAAGTCTGAGCTTGCTACAGTTTATTCATCTTACATATCTAAAGTGTTATCTGGATTTAGTGGGTCGAATACTATTGG AGCATTGATTATGGAGCCAGTTATACAAGGTTCTGGTGGAATGCATATGGTTGATCCACTTTTTCAGCGTGTACTTGTTA ATGAGTGTCGGAGTAGGAAAGTTCCAGTTATCTTTGATGAGGTTTTTACTGGTTTTTGGCGTTTGGGAGTAGAGACTGCA GTGGAGCTAATCCATTGTGTACCAGATATAGCCTGCTTTGGGAAACTAATGACTGGTGGGATTATACCACTGGCAGCCAC CTTGGCAACAAATGATGTTTTTGATTCATTTATTGGAGACTCGAAGCTCAAAGCCCTTTTACATGGCCATTCTTACTCTG CACATGCTATGGGCTGCATGGCTGCTGTTAAATCAATCCAATGGTTTAAGGACCCTTGTTCCAACACTAACATCACTTCT GAAGGAAGATTACTTCGGGAGTTATGGGATGATAAAATGGTTCATCAGATTTCGTCACACCCTGTAGTTCAAAGAGTAGT TACATTAGGGACTCTTTTTGCCTTGGAATTAAAAGCAGAAGGCGATAATGCTGGGTATGGATCATTGTTTGCAAGACCAA TTCTTCAGAAACTTCGGGAAGATGGTGTATACATGAGGCCTCTTGGTAACGTTATTTATCTCTTGAGTGGACCCTGTACA TCTCCAGAAACTTGCAATGAACTACTCGTTAAACTCTATTACAGGCTTAAAGAGTTTAGTGGATGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0298400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MFRFPSVLLSRRHCRRKLSTTTTSQPLELPLSHPIYLIWGSNTGVGKTLVSAGIAASSLLSSPSPVKFHYLKPLQTGFPS DSDSRFVFNKLFHLRNRTTPRIALSASLRVLNASRAAATENDQTSFSADGERSASSELVCKTLYAWEEAVSPHLAAEREG FVVKDSVVLETLRRCFRDVVESGVGKERSEVMCIVETAGGVASPGPSGSLQCDLYRPFRIPAILVGDGRLGGISGTISAY ETLTLRGYDVAAVIFEDHGLLNEGPLLSYMRNKVPVLVLPPVPKDPSNDLMEWFDGSHGVFNNLKEIMLSAYFERIKKLH DMPRKARDIIWWPFTQHKLVPDGGVTVIDSRCGENFAVFKAQKTEVIAPLFDACASWWTQGPDAILQAELAREMGYTAAR FGHVMFPENVHEPALNCAELLLQGVGKGWASRAYFSDNGSTAIEIALKMAFRKFSVDHGLIQDSDEDTITERSPELMVLA LQRSYHGDTLGAMEAQAPSSYTGFLQQPWYTGRGLFLDPPSVSMQNNAWNISLPKGFQLENLKLENLTFASRDEIFCKGR DKSELATVYSSYISKVLSGFSGSNTIGALIMEPVIQGSGGMHMVDPLFQRVLVNECRSRKVPVIFDEVFTGFWRLGVETA VELIHCVPDIACFGKLMTGGIIPLAATLATNDVFDSFIGDSKLKALLHGHSYSAHAMGCMAAVKSIQWFKDPCSNTNITS EGRLLRELWDDKMVHQISSHPVVQRVVTLGTLFALELKAEGDNAGYGSLFARPILQKLREDGVYMRPLGNVIYLLSGPCT SPETCNELLVKLYYRLKEFSG

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
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	14	14	-	–
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	26	309	284	1.1E-109	–
PANTHER	PTHR42684:SF3 View details on PTHR42684:SF3 Search for proteins/transripts with this domain View external data on PTHR42684:SF3	30	815	786	9.1E-221	–
PANTHER	PTHR42684 View details on PTHR42684 Search for proteins/transripts with this domain View external data on PTHR42684	30	815	786	9.1E-221	–
Hamap	MF_00336 View details on MF_00336 Search for proteins/transripts with this domain View external data on MF_00336	33	285	253	17.044	IPR004472 Show description in modal box View details on IPR004472 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd03109 View details on cd03109 Search for proteins/transripts with this domain View external data on cd03109	34	255	222	1.47836E-44	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	35	294	260	1.29E-21	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF13500 View details on PF13500 Search for proteins/transripts with this domain View external data on PF13500	37	120	84	6.3E-7	–
SUPERFAMILY	SSF53383 View details on SSF53383 Search for proteins/transripts with this domain View external data on SSF53383	330	816	487	1.68E-63	IPR015424 Show description in modal box View details on IPR015424 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.640.10 View details on G3DSA:3.40.640.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.640.10	384	714	331	9.6E-136	IPR015421 Show description in modal box View details on IPR015421 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00202 View details on PF00202 Search for proteins/transripts with this domain View external data on PF00202	397	809	413	6.2E-48	IPR005814 Show description in modal box View details on IPR005814 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00600 View details on PS00600 Search for proteins/transripts with this domain View external data on PS00600	623	660	38	-	IPR005814 Show description in modal box View details on IPR005814 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.1150.10 View details on G3DSA:3.90.1150.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.1150.10	719	819	101	3.8E-10	IPR015422 Show description in modal box View details on IPR015422 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:0000287 View details of GO:0000287 AmiGO InterPro QuickGO	Molecular function	Magnesium ion binding	Interacting selectively and non-covalently with magnesium (Mg) ions.	Subterm of View details of GO:0046872
GO:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0004141 View details of GO:0004141 AmiGO InterPro QuickGO	Molecular function	Dethiobiotin synthase activity	Catalysis of the reaction: 7,8-diaminononanoate + ATP + CO(2) = ADP + dethiobiotin + 4 H(+) + phosphate.	Subterm of View details of GO:0016882
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0008483 View details of GO:0008483 AmiGO InterPro QuickGO	Molecular function	Transaminase activity	Catalysis of the transfer of an amino group to an acceptor, usually a 2-oxo acid.	Subterm of View details of GO:0016769
GO:0009102 View details of GO:0009102 AmiGO InterPro QuickGO	Biological process	Biotin biosynthetic process	The chemical reactions and pathways resulting in the formation of biotin, cis-tetrahydro-2-oxothieno(3,4-d)imidazoline-4-valeric acid.	Subterm of View details of GO:0006768 View details of GO:0009108 View details of GO:0018130 View details of GO:0042364 View details of GO:0043604 View details of GO:0044272 View details of GO:0072330 View details of GO:1901362 View details of GO:1901566
GO:0030170 View details of GO:0030170 AmiGO InterPro QuickGO	Molecular function	Pyridoxal phosphate binding	Interacting selectively and non-covalently with pyridoxal 5' phosphate, 3-hydroxy-5-(hydroxymethyl)-2-methyl4-pyridine carboxaldehyde 5' phosphate, the biologically active form of vitamin B6.	Subterm of View details of GO:0043168 View details of GO:0050662 View details of GO:0070279

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0298400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi4g1v0298400.1