Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0175000
Transcript ID	LotjaGi1g1v0175000.1
Lotus japonicus genome version	Gifu v1.2
Description	Alpha/beta-hydrolase; TAIR: AT5G53050.2 alpha/beta-Hydrolases superfamily protein; Swiss-Prot: sp\|B7KWT4\|RUTD_METC4 Putative aminoacrylate hydrolase RutD; TrEMBL-Plants: tr\|K7MWZ7\|K7MWZ7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0175000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:33522339..33532716) extracted from Lotus japonicus Gifu genome v1.2.

ATTTTAGAGATTATGTTAACAGTTTGTATTGTCTTGATTTCCATTAACTGAATTTTATTTAAAAGTGAATATTGTCTAGA TTTCCATTAACTGGGTTTCATTTAAAAGTGAACCACAATGATGCCTTTTTAAGAGTCCTGCATAAGCCAAAATCTTAGAC AACCCATTAATTGAGATAAACACATGTCTAGAACTTTAGTTAGCACCTGTACATAAAAATAGCCACACAAAAAGAACGTG CCATTATCATATCATGGAATTGGTGGTGTATAGTAAATCAGAAATAGTAGAATAGAGGCCACCACCCACCACCACGCCCA TTCTCTTTCTGCTTTCTGTTGAGTTGAATTCAATTTTGGAGTTGTCATTTTGACTTTGACACTATCCGCGTCCCTCCAGA AAAGCCGAACCGACCGTCCTACGTGGCATCACCCACTTCTTATCTGCCACGTGTTCCCGCCCAACCTCCCCCTCCAGCCT CCCCACACTATAATTACCTCCACCATTTTCTCTCTCCCGTCCTCTCTCTCTCTCTCTCCCCCTTCAATCCATTTCCCACA CACTCCGTCTCACGCGCCGCCGCTAAAATGCCGTATTGCGACGTCGGAACAACGCAGCACCACTCATCACCTCCTTCCTC CTCCGCCGCCGTCGCACCCGCCGACGCCGTCAACCTCTACAATGACCTGAAGATATATTATAGAACTTACGGTCGTGGTC CCACCAAAGTGCTCCTCATCATTGGTACTCTTTCCTCCACCACCGCCTCCTCCTCCTCCTCCTTTATCTTTTCATAGCTC ATTTTTTTTTCCTGATTCTATGTGGACTGTTTCAACGGTCAGGATTGGCAGCCACGCTTGAAGCATGGGGCCCACAAATC GAGGGGCTAACTGGCACCACCGTCCACAATGACGACAACGACGACGCCGTTTCGAGCGGAAATGACAATGATTCCGATGG TGGTGGAATCGAGGTTTGCGCGTTTGATAATCGGGGCGTGGGTCGGAGCTCCGTGCCGGCCGGAAAGTCCAATTACTCGT GAGTTTCGTTGTTTTTTTCCGAATTCTCCATTTCTATTTTGCTTGATTTTGATTCATTTTTCTATTGCCGAAGTGAAATT GTGATGTTGCTGAATGGATTTTAACGATTGATTGATGCTCGGTGATTGCTGGTTGCAGAACCAAGATCATGGCCAAGGAT GCGGTTGCTTTGTTAGATCATCTGGGTTGGAAAAAAGCCCATGTTTTTGGGCACTCAATGGGTGAGTTCATCTGTCTTAT TGCTATGATATCAAATAAATTTGTAGTTTTTTTATTCATCGGAAAAGGTTCGAATTTGAATAAATTTGGTTGTGGTTTGG TTGTTTTGTAGAGCTGGGAAAATAAATGAACTTATTTTTATAACTGCTATAGATTTATGTTAGGTTAGGTTGATTTATTT GTATATGTTTTAATTATATTTTCACTATCAAAACAGGAGCTATGATAGCTTGTAAAGTAGCAGCAATGGTTCCTGATAGA GTCCTCTCATTGGCATTGCTCAATGTAACAGGTGGAGGTTTTCAATGTTTTCCAAAGGTATTATTTAATATCTTTAGGCA TGAATACAATACATTTGTACAGAATGTTCTTCTTTTTTTACTGCACTGGGCAGATGGTGCTTCTGTAATATACTTACAAC TATGCGATTAGAACATCAATGCTGCATTGTGCCGCGTTTAGAATACTACATTGCATTGCCAACTCTGTCGTTTTCCCTGA CCATCCCAAGTTGCTTACTCTATCCCCTGCCCTATAACTCTCTCATAATGTAACAGTTTTTTCCCTTTAATTCGTAGAAA ATTTTAAGAAGAGGAAACTAACTATGAAAGGAGTGACATTGTTATAAGAGGTATACTTCAAGTGTTAAAAATAAAATCCC CAGTGCGATTTATCTCAAATCAAGACTGATTTATTACCTAATTGAGGAGTGATGCAAGGGGATCAAATTTTGAGTTCATG TACAATAGCGGCAAATAGCGGCGCTATAGCGGCGTAGCGGAGCGGAGCGGCTCCCTGCCGCTATTGAGATGAAATAGCGG CCAACTTCACAATAGCGGTCGTAGCGGCGCGAATAGCGGCCAAAATAGCGGCAGATCGCGGCCAATAGCGGGAAATAGCG GCGCTATATGAACGAAGGAGAAAATGACTCAAGCCCCTTCGTTTTAAATTGTTGGGGAACCTTTTTATGGGCATGTTAGG ACTTCTCAGGGCCATTATAGGTCAAAATTGATAGAATTAAGCTTCATTCTTCATTCAGATTTGCAAACTCGACTTCTTTA CCTTGCTTTTGAGAAGTTATTAGTTGTGTGTTATTGTTCAAGACTCATGATTTTTATTTCTATTATGAATGTTATGAATT TTAGGCAATATTTGACATTGTTTGCTATTTATATGTATATAGTATTAAACTATTAATGATATAAAATTACATAAAAAAAT TCAGAATAGCGGCCATCCCTCTATGCGCTATCACGCTATCCCACTTTTGGGGCCGGCCGCTACGCGCCGCTATCCGGGAT TGACTACTATGGGCACCCGGCAGTTCCAGCAGAAATGGTGAAAAAATAGACCTCAAGAAAAAAGGAGATGGGTAACATCG ACCTGGCTCTTTTCACTGTGAAACCCATGGACTATGAAATCCTAACTCATAAAACACTAATCACACAGTTGTGAAACCCT AAACAAAGTAACAAACCATCATAGTTGCTGCTATTTTCACTTGACCTCCCATCTTACCTTTCTCATTCCATCTCAGGCAA CCATCCATTTGTAGTAAAGGAACCTGTATTTGTTGTTCCCCTGTCAAATTCTGTCACTTTATCCTCCCTGGTTCAAGAAG ACATTGTCCTATCTGATAATGACAAGTGAAGAGCATGTGAATTTTATTTACTGCAATATGATTTTGTTTTGTTGTTCAGA ACATATAATATATATATATATATATATATATATATATATATTTTGTTATATTTTGCAGTCTTTTGGTTATACTTTGTGTG TCTGCGTGTTATATTTTCATTATAGCCACCATACTCCCCCCATAGGCTGCAGATCTGCAACATCATCTGCCTTCATGTTT TATGGCAGTATTTTTTCATGCTACCATGGACCACCATCAGGCATTAATAACATTGCAAATGTTTCTACTCGACTTTTAGG TTGTCCTCTCTTAGTCACATATGCTTTCATTTAGGCGTGTGGTACATTGGAAAGAAAATGTTTGATGCTATAAATATTCA GTGCTAATTTGTTTAAATGACACTTAGTTTGGAACTTTATGCTATTACGTAGCTTTTGAATTAGTATGGGTTGATAATTT GCTGAGTAATAAGTTTGAAGGTATTTGATACTCAGAATATGCTGCATCAAACAACTTATAAAGTTGGTTAGATTAGGTTT TGGCAGTTATGACCCTCCATCACGGTAAACTTACCTGATATCTGGTTGAATCTTTTATTAATTGTATGCTAAATATCTCT TGTTAATCCCTAGTCATCTATAATAAATTTTGTTGACCAATACATAACAGTAAGAAAAGAAATTGTAACTAAAATTCAAT ATTAGCCATAAAATATTCCTATGTAGTATGTATAATATTATGGATGCCCCATGCTTGATTCATAAGCTGAAATATATTTG GGTTAGATATATGTTGTTATACTTTGAATTATGATCTGTCTGATTCATGATTGCCTGTAAATTATGAGGCCTTTATGTTG GTTTAGAATTTTCCTGAAGCCCTTCTAAGATTGTTCACATAAATTATTTTTTCCAGTTTGACCGGCGAACATTCTCCGTT GCTTACCGTTTCTTGAAAGCAAAGACTCCTGAACAAAGGGCAGAAGTTGACTTGGACACCCACTACTCACAGGTAGATCA TATTCATGGTTTTGTTCAGTATTTCGCCCCCCTTAATTCCACACAATGTTTTAAATCATGGTTCACATCACATTGAGACC AAAATTGTGGCTATATGAACCACATTTATTTATAATTTTTTGCAACATCAAGAATCCTGGCATAATCAAACGTGATCGCA ATTTAAAATCTTGATTCCACATAATAGTGAACGCAGACTAATATATAAGTAAGAGAGGAATTTGGAAAGTTGAATCACTA TAGTTCCAAATCATGTCAAGATAGTCTGGGTTCTGCAGTCAATAAGCTGAAGGAGGTTATCTTGTTCTTCCTGTCTTGTA TTGTTTCTAATCTGCAATTACTAGCAGCTAAAAATAATTTTCACTGTCCTTAGGATGGAAATTTTATGTAAGTTTTATAT CTGACATGCAGGAATATCTTGAGGAATATGTTGGAACTGTTAAGAGGAGAACGATATTATATCAGGTACAGTATATTAAA TAAGCTTAATTAAGTTAAGCAGCAGATGCTGTTTACTTTGCTTGGAGTTTATTACTGTTATGCTGTAGTTCTGTGTGTGT TACCTTGGCTAAATAGCAATATACCAGAAGCATATTAAAATATATAGAGAAAAGTGCAACTTATGCAGGAAGTTGCAGCT ACTTGTAATCAAAGTATCCAAATCTTAAAGGTGTACATCATGACCAAAAATGCTTATAAATAAATGTATGTCCTCCCAGA ATTCTACCATCTAAAATATCTCTTTACTTGTTTGTAATGGTTCCTGAGAATTTCACAAATTAATAATAGGACTGTTAAAT TCAGTGAACTCTTCAAAATCCTCCGACATTCATCTTAGTTTTCTCAATTTGGGGAATTTTCATTGAGAAATCATCTCAGT TACTATTATAGCAATATTACTATTTTCAAACTTATCAGCCTTTGTTTGGAAGATCTTATTTGGCTTATCTTATTGCCTAA AAGCTTATGCAAGTAGCTCTTATGACCTACCTAAAAGTTGTTTTAAGCTTATTTTCATAAGCTGTTCAGGATAGCTTATG ATTATTTGTATCCTATTCTTAACTTATTTTAATAAATTTCTCAAATTAGCTTATGAACAAATGCTTATGCGATAAGTGCT TATGGCCATAAGCGCTTAAATAAGCTGTTTTCCCAAAACGCACCCTAAATCCATATCTATGTAGAAATATTGACGTGAGT TAATAAATATCATTAAGTCTTCTTTAATTAATAAATATCTTAAAGCTCCTGCCATGGCGTAGTCTAGGGAAGGATTCGAT CCCCCTTGCCGATCTTTTGTAGGAAGATTTCCCTGCCTTGGCACACTAGAGGCTGACTCCACCACTCAAACAAGTGACCT CTCATTCACATAGAAGCAACTCCAACTACTTTGCCTAGGCTCCCTTTGCAGATAATTCACACTGAATGATAATTCACACT GAATTATTGAACACTAAGCCCAAAATATGTAATATATTGATAAACACATCAACTAGTAACTTCCCTCATATGGAACCCTT TGCATCTATGAGATGAAAACAACTTTCTTTTTCTAAATTTTATTTCTGAACTAGAATTTTAATATTGTAGTCCATTTGAG AAGGTTAACAACATTACTAATATGTATTATAATGAATAATCAGATTTTATTATTTGAATTTCCATTTCTTTGCCCTTTTT CATTTTTGACATCCAAATAAGGGGAACGAAAGTCACCACCATTTAGTTATTCCCTTTTCTGTTATTTTCCTCTGAACTCC TAATTCCTAAACACCTTATACCAGATTTCCAATCAATATGAATGGTCATTCCGTGTTGATTAGTATAAGATATCCTAATT CAATGTCCCTTTCTCTTTCAGCAATATGTTAAAGGTATATCAAATTCTGGGATGCAATCTAATTATGGTTTTGACGGTCA ACTCAACGCATGTTGGACACATAAAGTGACTCAAACAGAGATTGAGAGGATCAAATCAGCAGGTTTTCTTGTTTCAGTCA TTCATGGCAGGTGTGTACTGTGTTCGGCTTAATAGGAACCCTATGTAATGCTGCTTAGTATGAACTATGAAGTATGAACC CTCAGTTTAAAAATATAAATAAAACGTCACACAAGGTGATGCACAAATTATTCACACAGAAAGGAAATTATGTGCATGAA AGAAAATGCAGTACACAGACACAATTTATTTACTTCATAGTCTTATTGTTTAAACATTTCCTGCACTTTCAGGTATGATA TAATTGCTCAGATGTACTATGCACAAAGACTTGCTCAGAGGCTTTATCCAGCAGCTCGACTGGTAGATCTTCATGGAGGC CACTTAGTGAGTCATGAGCGGCCTGAAGAGGTATAATTTGCATGTAATGAATGTATACCTGGAAATTTGAGCTATAGAAC ACTGGCTGTAGAATTTGCACGTTGTTCTTTGCCTCTTATGATTCACTTGAAGTGAACTAAAATATCTTAAAATTCAGGTT AATCAAGCACTGTTCGACTTGCTCAAGGCATCAAAAGGGAAGTCGGATCCACATGATTGGACTAATTTGTCAAATGCAGA GTCTTGTAAGTTTTCCATTTTTTTAAGGAATTAGTATTTCTTGCACTATTCAATTCTGCATGACCGCACATATGACACCT GCAATGACTGTTTTCTGTAGCTTGGTGGGTTAACGTGTGGTAGTAATGTCTAAGCTTCAAGCAGAGACAGACCCAGTTGG TGGGTCAGGGTAGCAATTTGAATTTCTACTACTATACACGGTTTACCGTTTTAGTCCCCACAACCTTAGAAGGTTTGCCC TAAATTCAAATTTTAATGAACCACATCCAATTCCTTCTCCCCAGCAAACCCCAATTTCGTTCACGGAGTGTTAAACTAGA CTATTCAATTAGAGCACCCAACAGCCCAAATCCCCCAGACACAGAGCATAGAGCCATGTTTCATCAGTGCATACCCGGTC CCAGATGGATTTACAGGTGAATGCCTATAAGATGTTCTAGCTTTCATATACACCAAAAGAAAAATGATACTCACATTTAC ATGTGTTATGATTCATAGACATTTAAATAGTATAGACATCGACAAATACCTTATTTTCTCTCTATCTCTCGCTTCTTATC ACCTCACATCAAATATCACATTCCTTACTTTTCTCTCTTTTCCTCCTTTCTCTCTTTGGTGTCTACACCCAATAGATGTC TCTGAATCTTAACTCCAGTAACATTACTTGCCATATAAAAATACTGACAGATATCACAGCTTGTGAAATAATAATAATAA TAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATCAAGCTTGGCTAAAAAGGTTTGCCTCTGCTTGGT CACAACCCAGAATTTCTGGGTCTGCCACTAGCTCTAAGTGAGCTGAAACATATGTTCTGATATCATATGGATCCTTATTT GAAATGAATTTTATCTATTGATTCTATTCATTTTTACTGTATGGCCTTCCAATGAATTCAGTCTTATCTTTTGGAGGCCA AAATTGAGAGTCCCTTTTTGACATATTAACTGTTAAAAAACTATTAAAATGTATCTATGCTTATGGGGCTGAAGTTGGAA TAAAGTCAATAGTTTGCTTAGGTTCACTCCTTTTTTCTGATTAAGTCTACAATATGCGTGTGCAGGGTGGAGAGGCAAAA GGTTGTCTTTTGTCAGAAACATCCAGGGGGGAAGCAACGTCTCCCTTAACTGCAGATTAGAAAACCTGCATCTCTTCCTA TTATACTTATTTGGTCTCATTGTTATGGCATTTGAATATGGAAGAAAGCTTCTAGGAAGCTTCAAACCAGTTCGAGTTGG AAGTTCCTCCTCGTACATTGAAAGTCAATAACTCCCTCCCAAGTTATTTCCTACACACTTATTGCAGGTGGGTGATATGT AACCTTGTAAACCCTAATGGGAGAGATCACAGCACTTCTTCAGCAATATGAGGCTCACGTATACGGCAATTTTGATTCAT TTCTCTCATGAGAAGGAGGGTTTCTCTCAAGCGGGCGAAAAGCAAGAGAGGATCCTTCATTTGTGCTCACGCACGACCCT AACATATCCCTTCATTGACAACATGAATTCCATGTGCTTTGTGTAGTCAATAATTTATACAAGCAAAAAAGACTAAGAGG ATTGCGGACTACAATGTACATTTAATATTGGAAAATGATACGTGAACATCATCTGCATTCTGCATAGTGCAAATACTTAC ATACACAAAAGAAAATGAAAAGGTAATATATGATGTAACGTGATAAGAAACAAAGATATAAGAGAAAAATTGACTATATG TGGGGTGTTTAACTATTTGGGTGTCATGATTACTGATTTTTGTTACAACTCTGAAAATTCTGCTCCATAATACACGATTA CCTCAATAGAATATATATTCCATTTTTGTAAAAAGTTTTGAAGTAATCGTGTTGGAAGAATCCTTTCTAGACATACTTTT TATGAATATTGAGGAAAAAAGCTGAATCACACGGGAAAAGCAATTAACTTGATGATGCCTAAATATGTATGATATCTACC CTTGTGGATGAGAACTAAAACAACCCCACCAATAAAGTGAATTGATTAAATATATTAAATAAAAGATTGAAAGATATCAA ACCTTTTCTTTGTTAGATACTGGATCAACGACCAATATTTATAATTTCCCACTAAAACACCATTAGAGAAATGTTAGTGC TATGCTTTTCAACACTAATCAATCAACATCAGGTTATATTCATAAACCTAGTATTACCTAATCAGATTAATAATAATTGA CAGAAATGTTACAAATATATATATATATATATATTATATATATATATATTAAAATAAAATAATTATTTATTATCTGGAAA AACTTAGAAACCCAATCAAGAGACAGGAATGAGAGGCAACCCGACAAAAAGACAAAAAAAAAGGGACCAAAATCATTCAA GAACTATATTGTTTTTTTTGAGGGTCCAAGAACTATATTGTTAGTAATATTTTTTCCAACACTTCATTTTGTTATTGAAT GTTTACTAATTATCACCTCCTTAATAACTAGTAGATTTTTTTTTGAAACTAACTATTAGATTTATTCATTAGTATCATAA ACATGAGATTCATTATAACAATAAAAAGTTTCAAAGAGTGTATAACAATGTTTGAGGACTTAGGATTCATCGTAGTACTA GTACCTCATGTAGTCATATTCAAAGTAACTGCAACTTTCAAGTTCAAATTATGTAAAGTGAGGTTATGTTGCACCGGTAC GGCGGTACCAGATACGAATGCAACAGGAATAAAAGCTGATTAAAAAAATTAAGTTTTGGTTAAAATATATTCAACAAGTA TCCAAATAATTGACAAAAATTAAGTGCCTAAGTAGTACCTAATATTTAGAAGTACCGAACAAGACAACCAAAACAGAGTC ATAAGTCATAGGTGGTAGACAACCAAAACCTAGTATTTCGCTACATATATCTAGTAAATATTTAGAAGTACCGAACAAGA CAACCAAAACGGAGTCATAAGTCATAGGTGGTAGACAAATTAAAAGTTAAAACCTATAATAGGGTGATGACATAAGTTTG AACCTCTTCAAAATCATTTAATGAACGAGCTTACACCCGTCAAAGAAGAAAAAAGTGTGCGATTTGATTTCAATAAAAAC AGAAGGAACCTAAAAAAAACAGAACATAGCTAGCTGTTTCATGGGATGTCAATTTGGGATTGCAAAAAGTTAGCTGATAG CAATTTTGAAAGGTGGCAGAATTAGAGAGAAAGAAAACAAGACCAAACAATGAAATTTCTTGACAATCAATGCCAGAAAA TTAACCATGTTCATTTTGATTAATTGAACTTGACATAAACATAGTAAACAACTCAAACATGGAATGAAAAACACTTGAAT CATGGAAAATTGGGTAGATAAAGGTTGAAAAAAACATAGGGTGTGAATTAATCAAGGGCTCAATTGTAAAAGAAACATGA TCATGTCAAATTTCATCATATAACTATTGAGTATGTGTGTGCATGAATGAGAGAGAGAGAGAGGGAGAGAACGTACCTTG GCACATGGCACTTGGTTGGTAGTAGAGACTCATCATGGGTTGGGGAGGTTTGGAAAAGGGGAATAAGTTGATGAACACAC ACAACACTTATACGAGGAAGGAGGGAGATAGAGAGAAAGAGACGCCGAGAATCACCTGTGTTATGCTCAATAATATTCTT TCTCATCTATTTGGAAGGAAATTGAAAGCAAATATTCCACTAGAATATACTAATATGCTACCTCACATGAATGGAAATCT TAATATTAGCTAAGGGCCCCAGCGGCACCCAACTGTCCAAGATCAATTCGATCGTCTTATCAATTAGTTTGTTACTTATA TACTAGATTGATGATCACCATGGGAGAATCCTATAGTTTTATTTTTGAAACTAGTTTG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0175000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCCGTATTGCGACGTCGGAACAACGCAGCACCACTCATCACCTCCTTCCTCCTCCGCCGCCGTCGCACCCGCCGACGC CGTCAACCTCTACAATGACCTGAAGATATATTATAGAACTTACGGTCGTGGTCCCACCAAAGTGCTCCTCATCATTGGAT TGGCAGCCACGCTTGAAGCATGGGGCCCACAAATCGAGGGGCTAACTGGCACCACCGTCCACAATGACGACAACGACGAC GCCGTTTCGAGCGGAAATGACAATGATTCCGATGGTGGTGGAATCGAGGTTTGCGCGTTTGATAATCGGGGCGTGGGTCG GAGCTCCGTGCCGGCCGGAAAGTCCAATTACTCAACCAAGATCATGGCCAAGGATGCGGTTGCTTTGTTAGATCATCTGG GTTGGAAAAAAGCCCATGTTTTTGGGCACTCAATGGGAGCTATGATAGCTTGTAAAGTAGCAGCAATGGTTCCTGATAGA GTCCTCTCATTGGCATTGCTCAATGTAACAGGTGGAGGTTTTCAATGTTTTCCAAAGTTTGACCGGCGAACATTCTCCGT TGCTTACCGTTTCTTGAAAGCAAAGACTCCTGAACAAAGGGCAGAAGTTGACTTGGACACCCACTACTCACAGGAATATC TTGAGGAATATGTTGGAACTGTTAAGAGGAGAACGATATTATATCAGCAATATGTTAAAGGTATATCAAATTCTGGGATG CAATCTAATTATGGTTTTGACGGTCAACTCAACGCATGTTGGACACATAAAGTGACTCAAACAGAGATTGAGAGGATCAA ATCAGCAGGTTTTCTTGTTTCAGTCATTCATGGCAGGTATGATATAATTGCTCAGATGTACTATGCACAAAGACTTGCTC AGAGGCTTTATCCAGCAGCTCGACTGGTAGATCTTCATGGAGGCCACTTAGTGAGTCATGAGCGGCCTGAAGAGGTTAAT CAAGCACTGTTCGACTTGCTCAAGGCATCAAAAGGGAAGTCGGATCCACATGATTGGACTAATTTGTCAAATGCAGAGTC TTGGTGGAGAGGCAAAAGGTTGTCTTTTGTCAGAAACATCCAGGGGGGAAGCAACGTCTCCCTTAACTGCAGATTAGAAA ACCTGCATCTCTTCCTATTATACTTATTTGGTCTCATTGTTATGGCATTTGAATATGGAAGAAAGCTTCTAGGAAGCTTC AAACCAGTTCGAGTTGGAAGTTCCTCCTCGTACATTGAAAGTCAATAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0175000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MPYCDVGTTQHHSSPPSSSAAVAPADAVNLYNDLKIYYRTYGRGPTKVLLIIGLAATLEAWGPQIEGLTGTTVHNDDNDD AVSSGNDNDSDGGGIEVCAFDNRGVGRSSVPAGKSNYSTKIMAKDAVALLDHLGWKKAHVFGHSMGAMIACKVAAMVPDR VLSLALLNVTGGGFQCFPKFDRRTFSVAYRFLKAKTPEQRAEVDLDTHYSQEYLEEYVGTVKRRTILYQQYVKGISNSGM QSNYGFDGQLNACWTHKVTQTEIERIKSAGFLVSVIHGRYDIIAQMYYAQRLAQRLYPAARLVDLHGGHLVSHERPEEVN QALFDLLKASKGKSDPHDWTNLSNAESWWRGKRLSFVRNIQGGSNVSLNCRLENLHLFLLYLFGLIVMAFEYGRKLLGSF KPVRVGSSSSYIESQ

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	374	374	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	21	21	-	–
Gene3D	G3DSA:3.40.50.1820 View details on G3DSA:3.40.50.1820 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.1820	19	328	310	8.5E-50	IPR029058 Show description in modal box View details on IPR029058 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR43329:SF69 View details on PTHR43329:SF69 Search for proteins/transripts with this domain View external data on PTHR43329:SF69	22	361	340	1.6E-138	–
PANTHER	PTHR43329 View details on PTHR43329 Search for proteins/transripts with this domain View external data on PTHR43329	22	361	340	1.6E-138	–
SUPERFAMILY	SSF53474 View details on SSF53474 Search for proteins/transripts with this domain View external data on SSF53474	32	327	296	4.36E-44	IPR029058 Show description in modal box View details on IPR029058 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	71	93	23	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	71	90	20	-	–
Pfam	PF00561 View details on PF00561 Search for proteins/transripts with this domain View external data on PF00561	85	314	230	2.9E-20	IPR000073 Show description in modal box View details on IPR000073 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00412 View details on PR00412 Search for proteins/transripts with this domain View external data on PR00412	94	109	16	4.1E-7	IPR000639 Show description in modal box View details on IPR000639 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00412 View details on PR00412 Search for proteins/transripts with this domain View external data on PR00412	140	153	14	4.1E-7	IPR000639 Show description in modal box View details on IPR000639 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00412 View details on PR00412 Search for proteins/transripts with this domain View external data on PR00412	154	167	14	4.1E-7	IPR000639 Show description in modal box View details on IPR000639 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00412 View details on PR00412 Search for proteins/transripts with this domain View external data on PR00412	304	326	23	4.1E-7	IPR000639 Show description in modal box View details on IPR000639 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	375	393	19	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	394	415	22	-	–

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: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

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0175000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0175000.1