Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0158200
Transcript ID	LotjaGi1g1v0158200.2
Related isoforms 2	LotjaGi1g1v0158200.1 LotjaGi1g1v0158200.3
Lotus japonicus genome version	Gifu v1.2
Description	Aldehyde dehydrogenase; TAIR: AT1G44170.1 aldehyde dehydrogenase 3H1; Swiss-Prot: sp\|Q70DU8\|AL3H1_ARATH Aldehyde dehydrogenase family 3 member H1; TrEMBL-Plants: tr\|A0A072VGG1\|A0A072VGG1_MEDTR Aldehyde dehydrogenase; Found in the gene: LotjaGi1g1v0158200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:29352944..29363326) extracted from Lotus japonicus Gifu genome v1.2.

ATCTATCTAATAAACAGATCATTGCTTGTATGCACACTTCTGTACATGACTTTCAGAGTTTCTTCTCACAAATAGAAGAG TTCTGATCTGTGCTCCAAATTCATGGCGTCTATCGCAAAAAAGCAGGTAGTGTTTGATTTAGAAGAAGCTTCAGCCATGG TTAAGGATCTGAGAGTAACCTTTGATTCTGGAAAGACTCGGAGCTATGAGTGGAGAGTTTCCCAGTTGAAAGCCCTTGTC CAGTTGTGTGAACAGCACGAGCAAGAGGTTGTGCGAGCTCTCTACTCTGATTTATCAAAACCTGAAACTGAATCTGTCAT CGAGGTACTCAATTTCTCTCTCTCTCTAGAACTAAAATTCTACCTCACACACCTCAAAAGAGAGGTGAGAGGTGTGTGAG TAACATTATTCCTACCTCAATTCATGTGTTTATCTTTTTCAGTTTCTATTTTTATTTTTAAATCAACCTTTGAGTTTTGC TTGTTTTATTTGACTTTTTTTTTTTAAACTCAAGTACGCATGCTTTCATTTAATCATAGAAATCATACTTGTTTTATTTG ACTTTAATTTCTAGATTGGATTTTAAGCTTTTTTAGACTATGTTTGGATTGATGGTAGGGAGTAGAATAGGATGAGAATT GAGATGAGATGAAAAAGAGTGAGTTAAATACATCTAATTTCATTGAATCTCTTCATTTTAGTTTGGAAGTGAAGTTATGA GATGGAATCAAAACACCAGTCACTTAAAATATTATAAATTTACAATTTAATTAAGGCATTCCACCTTGCCGTAGATAAAA CGTAAGATTCAAATTCCTCACCATAAAACTTGTCACTCCTTCCTGGGCATCCCACCTCCACACTACTTTCTCATTCTTCC AACGTTATGTAGTGAGTGTGTTTGTTGTGTGGGAAAAGAAAACAAATAAATCCAACTATGTCAGTTCTCTCTATCCCATG TTTAAAAATATATCCATTCCTTTCAATGTGGCTGTTCTTCCTGTAACTTCTTTTTCGACTACGGGTCCTTTTTTCTTGTT ACAAGGGTAATATAGTAATATTTTTTTTAACTCATTCGGCTTGTCTACTATTCAAATATTGAAGCGGTAACTTTCTACCG CTCCATCATAAAATACTCAAATAATAAAATGGAAATTTTATTCTATTCTATTCCGCTCCTTTATATTCTGTTATATTCCA TTCTGCTTCGTTCCATTATGCTCCATCAATCCAAAGTACAAACATACCCTAACACGTTTTAATTTCTGTATAATGAGTTT TGATTTTCGTAAGAGTAGTCACTGGTCAATATATGTTTCTTTCGTTGGTTGTGACATTCGAACTACTACTATTGGAGTAC TATTTAACAGTGCTAGGGGTGCACATGGGTTGAGTTGGATGGATTTTGATCAAAATAAAATCCGAACCGATCAAAATTGT CTGGGTTGGGTTGGGTTGGATTTCACGAATTTCTTCTTCGGACCCGATCCGAACCAACCCGACGAAGTTTGGATTGGGTT GGATGGATTTATTGGGTCACTATATTAAAAAATCTTGTAAAAATTATTATAAATTCAGAAAAAGTTATAAAAAATACTAA ATATGTTATAATACTAAATAGCATGAAAAAGACAAAAAAAGTTATAGAAATAATACCACATAAATGACATATAGCCAAAT GTCATGAAAATATAAAACTTCATTACCAAATGACATGAAACAATCTAATATAAATAGTATCTAAAAAGTGAAAAACAACC CTAAATGTCATGTCATGACACTTAGGACTTAAATGTCTCCAACATGCCAAATAACTATATATAAACATGTAACAAATAAC TACGAACAAATACTCTAAGTTCAAATATGACAAATAACTACAAATACTTAAGTCTCAAAGTTTCAAAAAGTCATCACTCC GACACTAGCACTCCAAGTATGAGTAAAATTATAAAAATTATTATTATATGTATGGATTCTGCGTTGGGTTGGATGGATTT GAACTGAACTCGAAATCCGATCTGAACTTGGTTGGGTTGTATTAAAATCCATCCGACTAATCCGATTGTCCGATCAAACC CGCATTTTTTCTATTTGATCGGATTGGGTTGGGCGGGTTCATTGGATTTACCCGTCCCATGTTCACCCCTAAACAGTGCT ATATACTAATTCTAATTGAAGCACAGCTGAACCTGCTAATCAATGAATGGTGATAAATCTTGTATTCTGTTTAGATCTAA AATGTGAATCATGAGCCAATTAAGTGATAGACTAAATTTTTTAATTCACCTAATCTTGCGGCCAGTCAATAGGTTGGTGG CTAAACTTGTCCAAAATTTGAAAAAAAATAAAAGAGGCTGACTTGTTAAGTAAGTTTACCTTGTCAAAAAATTTTAATAG CAAAAATGAATTAAGCGAACCAATTATGAATTATCAACTTAAAGCTTCAAAGAAAAAAATTAAACAAACATTTCATGGGA AAATACCAAAAAAAAAAAAGGAGAGAATGAGAAAAACAAACAAATTCGTTTTAATTTACTATCTATTAATGTGTAAATAG TTATTTTGTTCGCTTATAATTATTATAAGGTTAATGGGTCAATCACCTTACATATAGAAATAATAATTTTTATCATTGAA AGATAAATGATGATCAATTCAATTCACAAACATTTCATTAAAAAAAAAATCAATTCACAAAAGTAAAAATATGTGATCAA ATTCAATTCTAAAAAGTTTATGTAGGATAGCTCCAAGTGGTAGAAGCTGGGGGACATATGTGTTGGGTAGGGGGTGCAAT GATCGATTCCTTGCGGATGCAATTTTTCTTTCCGATGTAAAAAAAAAATTCAATCCTAAAAAAATAAAGGTAATAAGTAA ATTTAATCTTTTTATGTTACATGAATAAAATGACAATTTCAGGGATTAGACTAAAATAACTACCCCTCAATTTCTGTTAA GCTATCATTAATTTAGGAAAGTTTTTTATTGTTATTCATTGGTGAACATTAAAGTTCAAGATAATGTTAATCATTTTGTA ATCATATCATTAACTTTTTCGACAAATCAATCATATCATTACCTTACAAGAGTAACAAATAAGCCAACACTCATTTAATA AAGAAAAAGAAAGAGTAACGAATAAGAAAGAAATAAATTAAATTAATGCAATTTGATTATTTCGGATATTATTCCGGTAT CTTCTTAATGCAATCCAAATATTCGGTAAAAAGAAGTAATTTGTTTTTTGAACTCGGTAAAAAGAAGGAACAAAGAAGAA AGAAATAAATTAAATTAATGGAAAACTTAAATATGTAAATGATAACTTTCATAAAAATGAAAATATGTGTTAATTTTTTT AATATCTGGTCAAAACTCTTAAATGAATTGGGAGTAGTCATCTCTTAATAGCCAATAATGAAATGCTGCCAAAGAAGAGA CCACCGAAGTCTATGATGATCATCCCTTAATACTTTATATCTTTTTTTTATCTTCTAAGAGGGATCCATTTTTGAACTTT TCTTATTCAATTTATATGTCTTATAATTCTACTACTTAAGCTATTATTTGGGGACTTAATATTTTTACTTTAATTAATTA TATTTTTACTTTTAATTTTTTAGTGCTGAAACTTAAACTACAAACAAAATGAATTCTACGTGTAGTTCTTTAATTTTCGC CTGAAACGTTTGAATGAAGAGAAAAACATCTACATACATTAGACAGAACATCAATGACATATTGTCGAGATAAGTAAAAG CTCACTATTAAGTTAGAGCGCTAGAGTAACTCTTTGAAGAGAGTTGTCTACTAATTGAAATTTTACTGGACGCATATGAT TAGAAACATCCGCCTAAGAAGATGTGAGAGCTAAACTCAAAATCTGTGTCCTCGAGGCTCGAATGATAGCTCAAATGAGG TAAGAACTAGGAGACATATGAGTTAGAAATGAGATGTTAACAGATCGATCCCTGAATAATGCAATTTATCTAAATTTATC TTTCCGATGTAAAAAAAAAAAATTCAAAATATTTTGCCGGTTTTTTTTTTATTTTTTTTTCACATCGGAAAGTTAAATTG CACCTGTTAGAGAATCGATTCTTGAACCTCTCCATATCCATCTCATATGTTCCTCAGTTTCTACCACTTGAGTTATCTCG TGACAACAAAATCTGTTGCTCCTTATGCCAACCTAAAGATAACTGAATGTAGTTTTTACAAAGGTTCTATATATGTAAAC ATTTTATGATCTTTATTCTTTAAGGCATAACCTATTTGGCTCACCAATGAAAAAGAAAGATATGTAGTCAAAAAAGTCAA TCACATACAGGTAATAATGAAATGAAATGCCGCGAAAGCAGGGACCGCCACGACCTATAATAGAGCAATACACGACACTG CACGCAGCACTGTTCAGTTCATGTTCACCCACTCTCACCTTCTTTCTTCTCGTTTCCTTTCACTTCACTCAATCCAATTC AATATATAAACCTCATCAATCAATCAACCCCTTCCTCAATCTTCCACCACCCTGATTCTTCGTACAATGTCAGAGAACAC GAAGAACGAAACTACCAAACCACCGTTTGACGCCGTAGCGGCGACGCTCCTCACGACGGAGCTCAGAGAAACCTTCGCCT CCGGCAAAACGCGGAGCTACGAGTGGCGAGCCTCGCAGCTCCACGCGCTCTCGCGGCTCGTCGCTGATCACGAGAAGCAG ATCGTCGACGCTCTCCGAAATGATCTCGATAAGCCGCCGCTCGAAACCGTCGCGTACGAGGTTAGCCGCCTCTGTTCTGA TTCGTGTCGTTTATTTCATTCTATCGCCGTCACTAGTTGCGTTTTGATTTTTGTTTATTGATTTTTTATTAATTAGGCGC TTTTTCTAGATTTATTATTTTATTTTTTATAGCGGCGCTGTTTCTAGATGAGTTTGTGTTATTGATTTTTACGAGATGCA TGTCGTCGCAGTGATAACAAGTGGTTGTTCGAACTCCTAGGTCGCCGAGTGTTTGATTCTTAGGAGTCTCAGACTGGGAG ATCTTTAGCTTTCACTACACTCGAATGTACCCGGGTACACCTGAGTGGGGTGAAAATAATGAGAGCAAATTAATATATCA AAAAAGATAAGATGAGTTTATTTTTTTTGGTTTGTGTGTGTGAAGATAAGATGAATTTTTTTTTGGTTTGTGTGTGCAGT TCATTTATTAGAGGTTCCAATTTTATGGGGACAAAGGGTAAAAGTGCTGATGATAGAGGGTGCTTGTTTGGGTTTTATTG TGTGTGTACGCTGTCCTATGAAAATCAAAGTGAATCAGCATTGACATGTGTTCTGTTTTCTCAGGACACCATTTAGGGGT GTTGAGTATTAATGGTGCTACCTTCAACTCCCACATTTAGGGGTGGGCCAATCTTGTTGTGGCTCTCTCAGTCTCAGCTA TTGTCTGTGAACCTTGTTTTGAAATTTATTGCTTGATGTGTACTATGCTTCAATTAATGTGAAGGGGATGGAATAACTGA AATGGTAGGGACTGGTAGTAAATTATTGTTTCATGTAGAATGAAATATATTTCATGATGTAAACTACCCATCTTTTCGTT TTTCTTTACTATATATATGATAGAAATGTCAAATTCACTGAATGATAACATTCCAAAGATTGAATTCCTAAATATTGCCA AAATATGGAGTTTGAAAGTTGTCCTTAGTCCCTTCTAGTTTCTTGGGTTTCTGTTTTTATAATTTTGGGTGTTTGTGGCA TGTTGGTTGGGGTCCTTGTGCATTAAGTGTGTGTTTCTGGTGGATCATAAGCCGTTACATTTTTCCATGAGGTTGATAGC TCCTTTGGTAGTACTACTTATCAAGGACATACTTATCAGTTCATGCATTGTGTGCTTTTTTGAACAAGAAATTCTGTGCC ACATTAAAGGTTGGCCTAACTGGTAGGTGGTGATTATTTCAATTCCTACTTGTGGTTTAAATACCTCTATAAGCCGTTGC TACCAATTGTGACATGCCTAGACCTTAAAAATAGTCCATCCTTGCCTTGCCTCCACCATGAACATTCTCAAACCCAAAAA ACAAATGAAAATCTTTGCTGTGAAAAGTCCAGTTTTATTGCTCTACTAGACCCTTATGTTTTTTAGTAATGCCAAGTGTG TACCAGGCAACTCATAGTTAAAGGTTTCAATAATCATTTTCATTAGGGTTATGCAGATTAAATATCCTATTCCTTATTTT AATTTGTATCTTAGGCTGCTCTTGCTTTACAGTCTTGCCTAACTTGTATCTCCAAACTTTTCCACTATTTTTATTGAAAT TTATAAGATTTCATTAGGTTGGTTGGTCTGTGTATGGATTGGATATATTTGATGATGTGAAATTAGTGGTCCTGTACATT CGGTCATTAATACCTGATCAAGTGTGAACCAGTTATAGTATAAGAATTACTAGCAGCACACACTTTTAATGACACACTCA ACACACTCTTTGTGCTTGGTTTATTTTTTGAAAAGACAATACATCTCTTAAGAAGTAAGAGAAATGTCAATTACAATGAG TGTGTTGGAGTGTGTCCTTAAAAAAGTGTGTTGCTAGCACTCCTCGTTGTAGTATTTATCATCTAGGTAGTCTCGGAATT TGTTTTCCCCTTGAATTGGAACTTATCCCACTCTTCTTCCTTTTGATAGTAAACTAATTTGGAAAAGAACCTAAATACTT TTAAGTCAAGATACTGACAAGTTTTACATATTAACTTAAGATATATTGCTTGCAACTAAAGAAAACATTCTTTTGGACCT TCTAATAAGGACATGAAACTGAAAATGTGGAATGAAAACCTGATTTCCCGGCTATTGCTTATTAGATTGTTGAACGGTTA GTTAATCAACAAAACAGTGTTAAATATGATATTTTCTACCTTCTTGTAACTGGTGTAATTTGTATTGCAGGTTGCCATGT TAAAAAACTCATGTAATGTTGCACTCAAGGAATTGAAAAATTGGATGACTCCTGAAAAGGTATATTTTATTTGAATTTAT TTGATTACATTATTTGACATGATTCTTTTGATTGATCACATAAGTTTATCTTTAGTGCAGGTCAAAACTTCGATCACAAC TTTTCCTTCTTCAGCTGAAATAGTATCTGAACCACTTGGGGTTGTGTTGGTTATCTCTGCCTGGAACTATCCCTTTCGTA TGTTAATATTTACTTGACTTTGTTTCTTATGCTCTTGAGCTGATATCTCACTTTCTTCTCTCGAATCTTTGTCTTCAAAA TCTATAACGAAAGAATTGCATGCTCTTTCCAGTCTTGTCACTTGATCCAGTCATTGGAGCTATTGCAGCCGGTAACGCTG TGGTTCTAAAACCATCAGAAATTTCTCCAGCCACATCGTCACTGCTGGCGAAACTGCTTGGGGAATACATGGATAACTCA TCTATAAGAGTTGTTGAGGGTGCAGTTGATGAAACATCTGCATTACTGCAGCAGAAGTGGGACAAAATTTTCTACACAGG TATTCCTTGTGGAAATAATTAACTCAAAAATGAAATTTTGAGCAGAGTTTCTTCTTCTTGAATTATCTTTAGAGGCATAC ACATTATTGAATCACAACATTTCGGTAATGTGATATTTACTTGGGAAAGCAGGATAGGATTTTCTCCTCCAATATGTTGA AGTTGTCTCAGTGAATGATAGGATATATTTAAGTAAAGTAACCAAGTTCCTCTGTTCTTGTTTCATATTTTCAATTGTGC TCACTATGCTTGTTGGAATCCGTGTCGTATTGCTAAGACACTTGGTGTCACTGTGTCAGTACAGTCTTATAAGAATTTCA ATAAGTACACATAAATCTAATGCTTGCTGGTCTTGAATGTTTGCTTGGAAGTTTTAGTACAATGATTCTTGGCTCTGGGC CTGGAGATATTTGGTACTTAAATAGTTGCTGGATATTTAGGGAATGGAAGAGTGGGACGCATTGTGATGGCTGCTGCTGC AAAGCACCTTACACCAGTCGTGCTGGAGCTTGGAGGAAAATCTCCGGTTGTTGTCGATTCAAATATAAACTTAAAGGTAT AGCTTAGCTCTCTTTTATTTATATCAATTAATTTCTGTTGCCTGAACCTCCTTGCATCTCATTTATTACTTAATTTGAAT TTGAACCGGCAAGGTAGCAGCTAGGCGGATAATTGCTGGAAAGTGGGGTGGTAACAATGGACAAGCTTGCGTTTCTCCAG ATTATATCATAACAACAAAAGACTATGCCCCCAAGTTGGTAATAAGTTTTTCCTAAATAAAGTTAGAATTCTTAATGTTT CTGTCTGTTTAGTGTTTGGTGCCTTTTAATTCTAGGTGGATGCCCTAAAGTCTGAGTTGGAGAAATTTTACGGAAAGAAC CCATTAGAATCGAAAGATATATCCCGAATAGTGAATTCCAACCACTTTGCTCGCTTGATAAAGCTCTTGGATGATGATAA GGTTTCTGGTAAGATTGTTTATGGAGGTGAAAAGGACGAAAGCAAATTGTAAGCTCTCTGTCTGCTTTTTGCGGTACTTT GTTATGAAGTTTTATTTTAGTGAAATAAAAATATAGTTGACACTTGGATTTCTCTTTTTCCTCAAATTACAGGAGGATTA GCCCCACTATTCTGTTGGATGTCCCGCGAGATTCTTTGATAATGAGTGAGGAGATATTTGGTCCCTTACTTCCCATCCTC GTGGTACGAATTTTGACAACAAAGTAACCTTTTCTGTGAGTCTTTGTTCAAATTCCATTGTTTTCTTTGGCTCTTTACTT GCTTTTACAGTAGTCTCATGAAAAGAAATATACAGTTTTTCAATTGGTTTGCAAGCTGCATGAGTAATTGATATGTTCCT TTTTATGTAGGATATAACATCTTTCTTAGTGTAAAATAACTACTAGATATAACATCTTTCTGGCAAGACCATGGTGGGGG GATTTCAATTATCATGTCCAAATATCAACAAAACCAATAGCTTGTAATACTTTCTAGACATTTGAAGAATTTAAAGCCAA TTGTTATCTTATCTAACCTGGAACTAGGAGATTGTAAATTTTGAAGTGTACAACTGTACATTAGTAAATATAGCCACAGC TAATAAATTACTTTTTTTTATTCCCCATGCTTGGAACAGGTTGATAAGCTGGAAGAAAGCTTTGATGTGATCAATACATG GCCAAAGCCTCTCGCTGCGTATATTTTTACATCCAACAAAAAGCTCAAGGAGCAGTTTGTTATGACTGTTTCTGCTGGCG GTTTGGTTGTCAATGATACTACTGTTCATGTAATTTTTCTTTTCCTTTACTGTCTATCTTCGAATCCCTGAGTTTTGATT TGAGTATGCCTCTCTATGTGATTCTTATATGAAAACAGGACATAGGTAAATATGCTCAGTAATAACCTTTCAAGTCGTAT GATAATTACCAACAATTCCTTGTTTTAAAAGTACCTATAGATCTAAACAATTTTCATAATTAATGTGCAGAACTGCAGAT TGCTTTACATTTTCAGCTTTCATTTGCTTAAATGAAGAGGCATATCTTGTTTCCTGTTTTGAATCATTTGAAATATGAGC ACTTTTCATCTGTGTTTCTGTTTTCCATTTGGCCTTTCCACCTGATGCAGCTTGCAGTTCACACTTTGCCATTTGGAGGA GTTGGTGAGAGTGGATTAGGTGCATATCATGGGAAATTCTCATTTGATGCTTTCAGCCACAAGAAATCAGTTCTTTATCG TGGTTTTTTTGGTGACGCGGCAATAAGATACCCACCGTACACGAATACAAAAATGAGATTACTGAAGGCTCTCATTGGTG GTGGCATAATTGGGGTCATCCGTGCCCTGTTTGGATCGTCTTAGAATTCGTCTTGGAATCTCGCAAATATTGATACATCT GATATCATGGTTTCATTGTATTTTAACGTCCAATTCAGTTTTTTACTCATCTCATTAAACCACAACTATACATGATAGTA AATCATGTATTGATGCCCTGTGGTTGTTCTGCCATATGAGAGGCAATGCTAGAACTGACATTACATGTACTCATAAGTTT ATTTCTAGCATGTTATTTAAGGAAGTAAACTCATCATAAATGGAAATCCTGGTTTTGATTAGTTATGTTGATCTATCGTG CCAGTTAAGACGTCTTCCTAAGAGCTGTCTAATAAGATTTTGAAATTGGAATTGAAATATGATTTCGTGTTTACTCAAAG GGCATAACTTCTTTTGTAAACAATGATAAATCTAATAGCCAGCCAAGCAGTAATAATTGTATTAAAGAAAAACACCAAAT AGAGCGATTTGCAACGCTACACTGAGTACACTTTGTGGTGGATTTCTAAGAAAATATTTGAAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0158200.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGTCTATCGCAAAAAAGCAGGTAGTGTTTGATTTAGAAGAAGCTTCAGCCATGGTTAAGGATCTGAGAGTAACCTT TGATTCTGGAAAGACTCGGAGCTATGAGTGGAGAGTTTCCCAGTTGAAAGCCCTTGTCCAGTTGTGTGAACAGCACGAGC AAGAGGTTGTGCGAGCTCTCTACTCTGATTTATCAAAACCTGAAACTGAATCTGTCATCGAGGTTGCCATGTTAAAAAAC TCATGTAATGTTGCACTCAAGGAATTGAAAAATTGGATGACTCCTGAAAAGGTCAAAACTTCGATCACAACTTTTCCTTC TTCAGCTGAAATAGTATCTGAACCACTTGGGGTTGTGTTGGTTATCTCTGCCTGGAACTATCCCTTTCTCTTGTCACTTG ATCCAGTCATTGGAGCTATTGCAGCCGGTAACGCTGTGGTTCTAAAACCATCAGAAATTTCTCCAGCCACATCGTCACTG CTGGCGAAACTGCTTGGGGAATACATGGATAACTCATCTATAAGAGTTGTTGAGGGTGCAGTTGATGAAACATCTGCATT ACTGCAGCAGAAGTGGGACAAAATTTTCTACACAGGGAATGGAAGAGTGGGACGCATTGTGATGGCTGCTGCTGCAAAGC ACCTTACACCAGTCGTGCTGGAGCTTGGAGGAAAATCTCCGGTTGTTGTCGATTCAAATATAAACTTAAAGGTAGCAGCT AGGCGGATAATTGCTGGAAAGTGGGGTGGTAACAATGGACAAGCTTGCGTTTCTCCAGATTATATCATAACAACAAAAGA CTATGCCCCCAAGTTGGTGGATGCCCTAAAGTCTGAGTTGGAGAAATTTTACGGAAAGAACCCATTAGAATCGAAAGATA TATCCCGAATAGTGAATTCCAACCACTTTGCTCGCTTGATAAAGCTCTTGGATGATGATAAGGTTTCTGGTAAGATTGTT TATGGAGGTGAAAAGGACGAAAGCAAATTGAGGATTAGCCCCACTATTCTGTTGGATGTCCCGCGAGATTCTTTGATAAT GAGTGAGGAGATATTTGGTCCCTTACTTCCCATCCTCGTGGTTGATAAGCTGGAAGAAAGCTTTGATGTGATCAATACAT GGCCAAAGCCTCTCGCTGCGTATATTTTTACATCCAACAAAAAGCTCAAGGAGCAGTTTGTTATGACTGTTTCTGCTGGC GGTTTGGTTGTCAATGATACTACTGTTCATCTTGCAGTTCACACTTTGCCATTTGGAGGAGTTGGTGAGAGTGGATTAGG TGCATATCATGGGAAATTCTCATTTGATGCTTTCAGCCACAAGAAATCAGTTCTTTATCGTGGTTTTTTTGGTGACGCGG CAATAAGATACCCACCGTACACGAATACAAAAATGAGATTACTGAAGGCTCTCATTGGTGGTGGCATAATTGGGGTCATC CGTGCCCTGTTTGGATCGTCTTAG

Download CDS Sequence

Protein sequence (LotjaGi1g1v0158200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASIAKKQVVFDLEEASAMVKDLRVTFDSGKTRSYEWRVSQLKALVQLCEQHEQEVVRALYSDLSKPETESVIEVAMLKN SCNVALKELKNWMTPEKVKTSITTFPSSAEIVSEPLGVVLVISAWNYPFLLSLDPVIGAIAAGNAVVLKPSEISPATSSL LAKLLGEYMDNSSIRVVEGAVDETSALLQQKWDKIFYTGNGRVGRIVMAAAAKHLTPVVLELGGKSPVVVDSNINLKVAA RRIIAGKWGGNNGQACVSPDYIITTKDYAPKLVDALKSELEKFYGKNPLESKDISRIVNSNHFARLIKLLDDDKVSGKIV YGGEKDESKLRISPTILLDVPRDSLIMSEEIFGPLLPILVVDKLEESFDVINTWPKPLAAYIFTSNKKLKEQFVMTVSAG GLVVNDTTVHLAVHTLPFGGVGESGLGAYHGKFSFDAFSHKKSVLYRGFFGDAAIRYPPYTNTKMRLLKALIGGGIIGVI RALFGSS

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
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	466	466	-	–
PIRSF	PIRSF036492 View details on PIRSF036492 Search for proteins/transripts with this domain View external data on PIRSF036492	3	477	475	1.1E-187	IPR012394 Show description in modal box View details on IPR012394 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR43570:SF23 View details on PTHR43570:SF23 Search for proteins/transripts with this domain View external data on PTHR43570:SF23	5	487	483	2.6E-283	–
PANTHER	PTHR43570 View details on PTHR43570 Search for proteins/transripts with this domain View external data on PTHR43570	5	487	483	2.6E-283	–
Pfam	PF00171 View details on PF00171 Search for proteins/transripts with this domain View external data on PF00171	14	444	431	1.5E-85	IPR015590 Show description in modal box View details on IPR015590 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53720 View details on SSF53720 Search for proteins/transripts with this domain View external data on SSF53720	15	460	446	9.56E-119	IPR016161 Show description in modal box View details on IPR016161 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd07137 View details on cd07137 Search for proteins/transripts with this domain View external data on cd07137	16	446	431	0.0	–
Gene3D	G3DSA:3.40.605.10 View details on G3DSA:3.40.605.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.605.10	25	444	420	1.7E-167	IPR016162 Show description in modal box View details on IPR016162 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00687 View details on PS00687 Search for proteins/transripts with this domain View external data on PS00687	220	227	8	-	IPR029510 Show description in modal box View details on IPR029510 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.309.10 View details on G3DSA:3.40.309.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.309.10	224	424	201	1.7E-167	IPR016163 Show description in modal box View details on IPR016163 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	467	484	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	485	487	3	-	–

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:0006081 View details of GO:0006081 AmiGO InterPro QuickGO	Biological process	Cellular aldehyde metabolic process	The chemical reactions and pathways involving aldehydes, any organic compound with the formula R-CH=O, as carried out by individual cells.	Subterm of View details of GO:0044237 View details of GO:0071704
GO:0016491 View details of GO:0016491 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity	Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced.	Subterm of View details of GO:0003824
GO:0016620 View details of GO:0016620 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity, acting on the aldehyde or oxo group of donors, NAD or NADP as acceptor	Catalysis of an oxidation-reduction (redox) reaction in which an aldehyde or ketone (oxo) group acts as a hydrogen or electron donor and reduces NAD or NADP.	Subterm of View details of GO:0016903
GO:0055114 View details of GO:0055114 AmiGO InterPro QuickGO	Biological process	Oxidation-reduction process	A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons.	Subterm of View details of GO:0008152

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0158200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0158200.2