Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0255600
Transcript ID	LotjaGi3g1v0255600.3
Related isoforms 3	LotjaGi3g1v0255600.1 LotjaGi3g1v0255600.2 LotjaGi3g1v0255600.4
Lotus japonicus genome version	Gifu v1.2
Description	Mitochondrial inner membrane protease subunit 1; TAIR: AT1G53530.1 Peptidase S24/S26A/S26B/S26C family protein; Swiss-Prot: sp\|Q9CQU8\|IMP1L_MOUSE Mitochondrial inner membrane protease subunit 1; TrEMBL-Plants: tr\|A0A1J7HFV5\|A0A1J7HFV5_LUPAN Uncharacterized protein; Found in the gene: LotjaGi3g1v0255600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:43825898..43837385) extracted from Lotus japonicus Gifu genome v1.2.

TCTAGGTATGATTACGTATAGCCTTCAAAACCAATAGCGCTGTCAATCAGTAACAGACACAACACAGAGAGAGATAGAGA TTGAGAAAGAGAGAGATGAGGTTTATGAATTACATTACACAATGGAGAAGTGCCGCGAAGGAAGCATTAGATCGCACTGC AATAACAGTCAAGTTCCTATGCTGGCTTCACTTCACCGATAACTACCTCTTCTCCGCAACTCACGTAATTCCCATTCAAG ATTTCACCTTTCTTTCTCGTCTTCATGTTTTTTCGATACCCTTTTGACTCAATTGTAGAATCCCCCATTGTTGCAGGTGT ATGGACCTAGCATGCTTCCCACCCTAAACCTCGCCGGCGACGTCGTTCTCACCGAACGCCTCTCTCATCGCGTCGGGAAC CTCGCCCATGGTGACTTGGTGCTCGTTAGGTCCCCTGTGAACCCTAATCGGTGCTTGACCAAGCGAATTGTCGCCATGGA AGGGGACACTGTTTCTTACTTTGATCCCTTGCGTGCTGATGCTGCTCAAGTTGCAGTGGTGTGTGCCTAATGGTTTGTTC TTCGTTTTCTCTTTTTCTGAATTTGATGTCTGTTTTTAAGTATTGAACTTCTTTTCATGAATTTAGAATTTTGCTTTGGT AATGAGATTTCAACTTTGCAAGCCATTGATTAATGCGTTTAATTTTATTTATGTCTTATCAAAGGTTTACTTATTTTTTA TGTCCCACTTAGATGAGTCTTTTGTGTGTTCAACTGATTTTGGTGCCCAGGTGATGTTTTCCATGAATGAATATGCAGAA CAAAAAATGCTTGGGGAAATTTCCTAGTTCTTCTATTTTAGAAATATAACTATTCATGTGTCATTTGCCCAATAGCTTAA GCTTTTGGGATAATTGGTTCATGACATTCCACATATACAAATTAGAAAGTGTAGTTTGTTAATTGATACCAGATTTCTTC ATATTAGATGATTTATAAGGTGCTGCATAGCTGCTCTGCATATTGTTTCAAATATGTCTTTATGGAATGTATTTATCTGT TTTTGCTCACTTTGTCAATAGCATCATATTTTGATGACAGTTGTGGTAAAAGATTAATTAATTGCTTATGTTATGAAGAC TGGGTCAAGTTACTTGAAATTTCACTAATGTTTTTGGCTGATATGATTATTTATTATTTTGTTAAACGTTATAATGTGAT CTTTTGTAAAAATGAATTACTAATTTACTCATGCTTATAACACTATCATTCCAATCCTCTTGCTGAGTCTTAACACACTA CACTGAATTATTTTACAAATTTTTTAACTTAAAGATCAGCTATCTATGTTATTTGTTTTCCCCTCTCTGCTTGGAACTTA TATTTTATTACTATTTTCTTTTTAACTTTTCATTTATAAGTTTGATTTATTGCTTAATTTATTTATCTCTTTTGCATAGG TACCAAAGGGACATGTTTGGATTCAAGGGGATAACGTCTATGCCTCCCATGATTCACGTCATTTTGGTCCTGTTCCATAT GGTCTTATACAAGGAAAAGTCTTTTTTCGGGTAAGAGTTATTCCTCATGCTATTTTTAAGAATTGTTTCCTTGGATTCTT TTCCTTTATTATGAGCTTTTAGATATTTATAATGCAATTTTTCTCAATCTTAGTTTCGTGTGGTTCAATAGTATTTTGCT GAAGAACTGTAGAGTGTATTACTACTTATAAGTTTTTAACTTTCTTTCTCGTCCATGTACTTGGAAACATCTACTAATTC TATAATTCACGATTGTAAGTTTAATGTGTAAAGCAATTTTAGATATTATTTACTGATGTAGAAGTCATGTACTAGAATAA TTTGGTCTATCATTGTAGTGAAGACATTATTTTCTGAATGGAATTTTGTTCTTTTGATCAAGTAGTTTCACCTTGTAATG CTTTACTACTATGATTTTACTTGATATAAAAATATATCATGTTAGTTGAACACTTGTTAGCTAGTGCAATATTGTTCTAT TTGATGACTTCAAATATTATGTTTAAGATATTTCAAATACTATATTATTAGGTTTGGCCACTTGATAGCTTTGGACTACT AGATCAATGAAGATATTTTAAAGACGGTACTGGTCTTTCAATTCTACTGTTTTTGATGTCTGCTTTTATCTTTTGCGTTT TTTATCTAACAAAAAAATACTTATCCCATTCTTTATGACCAAACTATGGAAAATGAAGCCCTTTATATGGATTTTCTACT TATTTTTTAGGGTTATAATTTGCAGGTATCATGCATATGATAGTGGATATTGACCTGTTTAAATTTTCCTTATCTTTTCT CTTTCAAAACATCATCTTATGTCAGTTTTTCCTTCACTATTGGGAAGTGTAGGAGCTTGACTTTACAAGCTTGATTCAGA TATGTTGATAGGGATTGACCTCCTATTAGAAAAGTATACGAGAGGAGGTCTACGAGAGAGGCAAGGGATTATTCCCCTAT ATAACTCTTTCACTGTCTTGAGTAGAGCTTTTTAACTAACTGATTCTCAGCAAACTGTCACTTAGGCTGTGTTTATACAT AAGACAGTGGGGAGATTGAGAGGGCTGTTTTTTAGTTGGGCATTTGAATAGGCTGGGCTACATGAATTCTCTCAGCAGTT CCACAATTTTTTGTAATTCTCTTTCTTATCCTGGGTTTGTCCTACATTAGGAAGACTTTGTGATTTAGGGTTCTTGAATA AAATTTCAGTTCGTGTGTTAGAAACCAGAAAATTAGCAGTATTTTTATTGATAGAACCATTAGGGAGAGATACAATAGAA AGGGATACCAAACACCCTTTCCAAGCCTAAAGAGAGAACCACTTCTCTCTCTAACCCAATTCCTAAACTGAATAACAAGA TACCCCTAACTCTCTAATGTCTGTTATTTATAGGCTACATGCCTCAATAACATTCTAATTAACTCACTAAGTATAACTAA CTAACTAACCCCTAACCTTGCGTTCCTTTCAATAGAAATCTACAAAAGAAAACCTCTCCAAACTAATATTTTCGCAATCA ATTTGATACCCAATGGAGTCCAAACACAATTAAGTTTTTCTCCTTTGATTTCCAAAATCCATGTCAAGCTGGTCTTGGCC CCATGAGCCCAAGTAGTGATAATTCTCTCCTGCTATCAAACTTTCAACATTGACCTGGGTTGCTACCAAACCATTTTGAC ACATCAGAAGGAACTCACATAGCTCACCCATCTCCTTCAAGCTTGCTTTGATACACCAGATACAGAATCCCATTACATTC AGAACAGCACCCTGACACACTGAAAAATCTGGAACTTGGTAAGACTCCCAGCTATTAGGAACAAACAGTAATTGGGAAAA CAATTCCAGGTTTGAATAAAACCCTCTTTGCAGCTGTTTCTTGATTTCCCAATTGAAACATGCAAGGCCTATTATTCTCA GAAATTTGTCTTCCACAATGTTCCCCAATCCAGTAAGAAGTTGGATAGGAACCCATTTAACAATACAATCAACAGACCCT CTTTTTATCCTAAGTTGTGCTTGGCCCAATCTACCAAAAACATGTGCATACCTTTTTCCCATTTCATAAACGTTGCTGCT GTTGTAGAATATCACTCCAGTGGGACACTTGTCTTTGCTTGTGTCATGTGTGGCCGGCACGACTTTTTCTTCCTGCCTCG TGTCTACCTTCAGTGGCCCCTGCATAAGGTTTTTGGCACTTGGGAGCCAATGCAATGTCACTATCACACCACCTCCTTCA CAGCACGACTGAGCTAGCAGCGCCAAGTAGGAACTGGCACCACCCATTAAGTCCGGCGGCTTCGCCGGTGGCGGAAGGGG CCGCGCCACCCTCTTACCACTCCGAATAAAACTCTTCACTGCTTCTTCCAGCACTGCGATACTCGACACACCTGTGCTCT GTGGCTTCGCCAGCGGATGATTTGCCACTTCCGATCCACTGAGAACTACGTCCGGCGGCTTCCATGGTGGCCGCATGGTG GTTCCCATCGTTGTGGCTTTTGCACCTGGTCGAGACACCTCACCGATCTCCCCACTGTTCTGGAAATGCAGATTTTTGCC TCTCTTCACCCCCAATTTCGGAACCATTCTGTCGAACCCTAAAGGTATGGTTTGGGGCCAAACGGCGAATCCCTCCTCCG TTTCCCATGGAAGGTTCTGTTCGTGAATTTCTTCCATTGACGGAACGAGGACCACCACCCCTGTTCCATCTTCCACTTGT TTCTCCGTCATCTCTGTTTTAACCTCTGTTTCAAGATTGAGGTTCTGAATCGCCTCCGTCACCGCTGAATCTGTCTCTTC TTCCGCTGCGGTCTCTGAATCCTTTCGCCACGCCGACGCCGCTACATCAGGTTCTCGTGATGTCGCCGCCGCTGTTCGCT CGATTGTAATCTCAGATTCTCTCTTTTCTCGTTCAACAAGAATGGCTTTGTGAATAACCTCAGGAAGAGAGAAAGATTCA ATCAATCGTACCTCCATTCGGATCTCTTCGCTCAATCCTTTCAAGAAGATGTCTTTGACAAATTCTGGATCAATTCCTCT CAGAGCTCCGACGTACTTCTTGCTTCAGAGAAAGAAGCAACTCAAATGGATTCTGAATCTTGAGGGCTGAAACCTCCTCA CCACTGCAATCTTGAACCCTTCCCATGATGGATTCGGATTACAACGTTTCCACCATTGAAACCAGGTAAGAGCTCTTCCT TCTAAAGTCTCCATTGAAGCCTGCAACTTCTCTTCTTCTGAAACTCCTCGCAGCACAACCTCCAAACGCTGTATCCATTC CAGAGCTTCATCTCCACCAAAAATTGGAATTTCCTCTGAAATTCTCAGCTTGCTCTTTGTCCCTTCCATGCGCAGATTTG TGGTTCAGGCACCAAGATCGGTGCTCTGATACCAATGTTAGAAACCAGAAAATTAGCAGTAGTTTATTGATAGAAAACCC TAATTCCCAATTGGAAACTAGGGAGAGATACAATAGAAAGGGATACCAAACACCCTTTCCAAGCCTAAAGAGAGAACCAC TTCTCTCTCTAACCCAATTCCTAAACTGAATAACAAGATACCCCTAACTCTCTAATGTCTGTTATTTATAGGCTACATGC CTCAATAACATTCTAACTAACTCACTAAGTATAACTAACTAACTAACTAACCCCTAACCTTGAGTTCCTATCATATGGTC TTATCATTTGGTGCCATTTTTATCACTGGTATTAGAGCACTGTCCGGGTGCTGTGGGCTGATCGAAGTAGTTTGTCGGCG AGAAAATGTAAGACTCAAGTCCTTGGAGAAGTCATTGGGATCCCCTATATTGGAACATGGATGGGGATTTGCAATTGCAA ACTGATGGGCATAAGAACCCAAGTCAGTTCAAGAAGGAGAAAGGATTGCAAGTTTATACCCATAGGTCCAAAGTTAACAC AACTTAGTGATATACTGGTTGGCGGGAGAGTTGATTATACAAAGAGAAGGTAATGGAAAGAGAATAAGATGCCTATGACT TTTTATTGTTAATTAAGAATATTGTGCATTTTGAATATTTTTCATCATTGCTGGTTTGAACTCAGTGTCTTCTATGATTT CTCCACGTTCTTCATTCTTCACTCCCTCTCCAAATGGAGCTGTGATACCAGTTTGTATTTGAATCAAAGGTGTGGTATTC CTAGCATAATCTCGGGTTCCCATCACATCCCAGGCATGCCCTGGGATGAATTTTCCCATCCTAGCTCAGTTCATTGTTCT GGGAAAAATCCCAGCCATCCCGGCAGGAAAGTGAAGTCCCAAGTTTTCCAAAAATCACCCCCTCCCCCCAATGTGAACTT TGGGGGCTTGCGATGGAAAAAAACCCTAGCACTTTTCTTTATCATTATCAATGGTATGCTGCTTTAATAATTTGGGATAT GTATATAAACTCTGAAGTGGGAACTAGAGACTGATTACTGTTATATCCTCAGTAGTGATTAATTATATCACTTAACGACT TGATGGATATTGCGATTCAGGTTTTCTTATGAATGACTTGTGATGGGTTGTGTTATTCACTTATACTCCGTTGAGAGGTC CTTGCCCTCATCTGATCAGTTATAAAAGTGTTGCCCTATTAGGTACTTTGCAACACTATACATACGCTTATTAGAAAAGA GGGTAGTTTACTCTCACAGGTTTTCTCTGGTTCTCTCTCCACAAGATCCTTGTTCGTGGTTGCTCTTCATAATTGGTAAA GAGTCTGCTTCTTCATCCTTAAGAAAAAAGAAAGGTACACACTACACACACTATTTATCTCTAATTCGCTATTAGTTGCG ATTTAGGATATGCTATTTTGTATATTTACATTCTTGATCTTGATCTAGGCCATCCTTATAAATTTGGCTGGAAATTTATA TATATAGATAGTCTATATCAAGAATGTAATACACATTATAGCATGTTCTATCACAAGCAATAAATAATTGTAGATAAATA CTATGGGTTCCTTCTTCGTTGTAATGATGAAGAATGAGATCTTCTACCAATCCTGAACAACAATCACGAACGAGAACCTT GTGGAAAGAACCAAAGAAATCCTAGTGTGAGAGTAAACTGCCATCTTTTCTGATAAGTGTAGTGTGTTAAAGTGCCTAAT GTGCAGCACTTTTATAACTTATCAGATGAGGCCACGGACCTCTCAACGGGCTATAAGTGAATGATCCAACCCATCACAAG TCATTCATAAGAAAAGCCTAATTGCAATATCCAAAACCGGCCGCGACCACCACGACATGACCTCCGATTTTTCTCTGGCG AGCGTCACCTCTGTTCTACCCATTTACACCTTTTTCTCCTGTGTTGTATCTTGTATTTATCATTGATTTAGTACATATAT TTATGGCATAAATTATATAAAAGATAGACAAAAATTCACTATCCCGGAATCCCGCTATCTCAATTTTGAGGCTGGTCGTG ACGAGCTGTGAACTGGGATTGACAACATAGCATCTGAGTATTTGAGAGACTGAACAACTCTTCCAATATTAACTCATAAA CCAGATATTTCCCTCCCTCTAGTTTCCCAGTGTTGTTAATGGCGGATTGCGTCCCGTAGCGGCAAGCCCAAAAAACGCTA TAGTGTGTAGCGCTATGGCCGCTACGCTGAAGAAGGAGGAGGAAGGAGGAGGCTGGAAGGAGGAGGAAGAAGGAAGGAGG CTGGAAATCGCAAGTTTCATCGTGATAAAAAAAGGAGGATATTGCAGAGGCTGAAGGTTGAAGAAAGACAAAATGCACCG TTTCAATTAAAATTTCGGTGCAAAAACCACCAAAATGCCCTTAAAATTTTGAAGGAATGTTTAGATCTGGGGGTAATTCT GGTTTCTCCTATTTATTCTCAACATGCTACTGGAAATTACAGCTCAGTCTAATTGAAAGTGACATGTAACTTTTCTTGAC AGTTATAAAGTACTCTAACTAACTTCGTAGGTTATTATTCTTGATAGAACACCAGAAATAACTGAGGAAATATGTATTAC TGAACACAAATTACACACATACATCCATTCAATTTCTGTCTACATTTTTCCTACTCCTCCTCTGGCACACCCTTGTAATT GAAGGTCACGGATCATACAACCTTGGATACTTTGAGCTTCCTCCAGCGCTCACAGATGTTCAACCCATGTTCTCTCCCTC TGGCTCAATCCGTATCTCCTATGTGATTTGCAAATTCTTCAATCTATCACTTGGGATTGGGTTCACACCTATTCTCTGAA GCATAGTCTCCATCATTGGCTTTTAGGCGCCTAAACCTTGCCTCCCGTGTCTCTTCTGCATGGCAAGCCCTGTTCTGAGA CTTTAAGGTCTTTTCTAAGAATTTCAACCTTCTATCCATCTCTTTGTCTGCCATGTGCTCCAATTTGTGACCTTGGAGCA GAGCTGATATACCAATTAATAGAAACTGGTATGAAAGAAGATCAAAGAATGATTTTTTTTTTTGACTAATTCCTAATCTC AGCCTTGTCTCTAAGGAGGCGACTGAACCTAAGCTGGGTAAAGAATGAATTTCTGCAGTAAGAGACTTAGTTCTCTCCTC AAGGGTCCCTATAATCCAACCTAATTAACTCATTAACCCTTCACACTTCAGTCAGTTGGTTTTATTGCAATAAGGATAGG GTTACATCTAGGTTCAGTCTTGAGTCCGTACCTGTTTATTCTGGTTTTGGTCTTTGCTTATCTTGGATACACAAAAAGGC ATTCCTAACTGCATGTTGTTTGTGAATGGCAGTTCTAATTGAAGAATCAAGGGAAGTGGTTAATTCTAAATTTAAGATTT GGGTAAAGACTTTGGAATCTAAGGGTTTCCACTTAAGCACGAGTAAGACAGGGTTATATACATTGCAGTTTTAGTAAGAC AGATGGTGGAAATAATTTGGAAGTAAAAATTGGAAACAATATCATGCCACATGTTTCATAGTTTAAGTACCTGGGATATA TTGTACAGAATAATGGGGAAATTGACAAAGATCTTGTTACATGCGGAATTCAAGCTCCGTGGTTTAAGTGGAGAAAAGCA TCCTGAGTTATTTGTGACCTTAAAGTACCTACCAAACTCAAAGGAAAGTTTTACCAAACCGCAATAAGACTTGCTATCCT CTATGGTAGCGAACACTGGGCTTTAACTTAACCACATCTGAAAATAGTAGGAGTAGTAGAAATGGAAATGTTAAGATGAT GAATGACCACACTAAAAAGGAAAAGATACACAATAGTCGTATAAGAGAAGATAATGGCGTGACCCTTGTTGAGGAGAAGA TTATAATCGGTTAAGATGGTAAATACATGATGTATTCTTGCCTCTTAAGGGAGCTCCTTGGATGATATCACTCATGGAAA GTTTGTGGGAGTCTTCTTTCAATACTTGACTTCCAACATTGCTCTTATAGCTAGTATTTTCCCTATTTTCAATATAATTG CCTAATTTTTATTGTGTTTTGTTTTAGGCTTTCATATGGGGGGCCTATATATGGATTTACGTTTGGATGATATCACTCAT GGAGTGATGGAGAGTTTGTTGGAGTCTTTTTTCAAGACTTGACTTCCAGCACTGCTCTTATAGTGTATTTTCCCTATTTT CAATATAATTTTTTGTATTTTGTTTTAGGCTTTCATATGGGTCTATATATTTAGGTTTGGACCTGGGTTTGTAGGGCTTG CATATCAGCCCATATAGGATGGAAGCCTAAAGTGTTGGGTTGCATTTGTGGCCCAATAGGTTGGAGTATATGAGAGTGTG AGAGAGGGGTAGTTTAGGTACGTACCCTGATGCATTTTCAAACAAAAAAAGGGTACTCTTCGGGTACTGTGTGTACTTCT TTGTCAAAACTACGTCGTTTTATCTCGCTTATTTGACAGTGCAATCAAATAGCGGCTATTGCGGTGCCAGCGGAAATTCA CCCTGCCACAACTACTACACCTCGACATTGCGGAAAACGTGATATACACGATTGCGGCCGCGAGTGGTTGCGGAAGTAGC AGAACCATGTATTTTTTAAAATTTTTAAATTAGAAACGTGAGTTGGGGAGTAACTGCTTCAAATTATTTACTGCAAGTGA GTGCTTCATTCTATATAACTTCATGAGCGTGGAATACAGAACCACCTCCTCAGTTACGCACAACTCAATGTCTCGTCTTC CCTCGTCTTTCTTCCTCCTTCTACATCGACCTGAATATTTCTTCTGCCCATCATCTCCGGCGACTTTGAGTTGCTTCTCT GACGAGTTTCCGGTTAGTTTCAGCCACACCGTTACCTAGTTCTGTCATGCTCTGTTTTTTTTTTTAAATTTCTTTCTTCT TCATTTACCTTTTCTTCTTTTTTCTATTTTGTTTTTCATCTCTTTCACTATTCTTACTTCTCTTACTCTTTATTGACATG TTTCTTCTTTTTTCCCTCTCTTTCATTCACGTTTTCAAACTCCATTTTGCTGCTTTCATACAGAACCACTTCTTCAGTTA CACTTTCTTTTTTATTCTTATGAAGCTAATTTTTATTTGAACAAACACCTTGTGACAAGCTGTTTTTTTATATAAATTTT CTTATTTTAACCGTTATGCGTCTTTCGCTATTTGCCTGCGACACTATCCGCTATTTAAATTAGCGGATTTTTGGCTTTTC ACGATCTGCGATTAACAACAGTTATTTAATCAGCTAAACTAAACCCTAAAGTAAAGACACACCATGTAAAGGCTTCTCGC AATTGCTACTGCCCAGACTTCTCACATTGCATCTCTCGCCGCCTTCAGCTGGTCTTCCACCACTGTCCAGGGCTGCTGTG CGTTGCCAGTCGTTGTTTGCACTCTTCATTATGGTGCAGACCCCTGTTTGCCACTGTTCCTCTCGCCCCTGCAGCATGTT ACTGGCTGCTGTCCGTTGCCAGTACGCCGCCATCCTCCGCGCACGGTGCCACACCCCTGTTTCTGTTTTCTTTTTCGTGT ACTGAGATTTAATGGCTGTTGTTTTTGTGTGCGGTACTGTGGTTTAATGTGCTGCTTTTCTATTTAAGTTTTGTGATCAT TCTTTTATATTATTTAATCACGTTTATATATTATTTCATATCTCCAGCCAGCCCTCTCTCCAGCAACTATCCTGCAAAAT ATTCGCAATAGATTTTGAAATCAAGGGATAAGATTGAAAAAGCAATTGGTAATGTAAAAAGGTGAAATTGTTCACTGAAA GGCTGGAGGGCTGGAGAGGATCCTAATATGTCTGCACAAGATGAATGAAAAATTTCAATATCCTTAATTGATAGCATGCT GTTCGCAATAATTGCTTGTCCTGCAAATTATTGTTTGCTAAGGCTAGTTAACTTAAACTGCACATATCACATAAGCATTG ATTCTGTTGCATAGATGGGATTGCAATAACTTTTTTGATTTTTTTTCTCTCTATTTGTGTGTTACAGGTTAAAGGTTTAT ATATTTCGTTTACCAGAGTGCTCATGATCATTTATTCTGTAAAAGGCATTGAACTTGGATGGAGATTCGGGGATCTCCAT GAAGGTGGCTGTTAGCAAGGGAATGCTTAAAGCTCACGCTTCCTTTTGGCAACGCGGGATACATGTTCTGGTCTATTTGA GTTCTGTGTAATGTGTATTTTTAATAGAGATCAATATATGGAAAACAATTGATTAGGAATCATGCATTACTCCTTATTTT TGATTATATTCAGGGTAGGTTTTCTGTCTTTCTTTTACCCGGTGTCAATTTATATCTGAAACTAACAGTTATTCAATGTA ATAATCTGTTTTGCCTTTCAATGCGATTATTTCATTCGTGAAGCTGAATGTTATTTTTATGCCTGAAAATTATTCATTTG TAGTCGGGAGAATAAACTCTGGCTTTTAAGAGGGTTGTTGTCTAATCTGTAAGGAAGATTAGGGGTTGTTGTAAAAGAAT CATAGAAGTTTTTTCTTTTGTACTTTGCTTTATAAATTTTTATCAGTG

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0255600.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGGTTTATGAATTACATTACACAATGGAGAAGTGCCGCGAAGGAAGCATTAGATCGCACTGCAATAACAGTCAAGTT CCTATGCTGGCTTCACTTCACCGATAACTACCTCTTCTCCGCAACTCACGTGTATGGACCTAGCATGCTTCCCACCCTAA ACCTCGCCGGCGACGTCGTTCTCACCGAACGCCTCTCTCATCGCGTCGGGAACCTCGCCCATGGTGACTTGGTGCTCGTT AGGTCCCCTGTGAACCCTAATCGGTGCTTGACCAAGCGAATTGTCGCCATGGAAGGGGACACTGTTTCTTACTTTGATCC CTTGCGTGCTGATGCTGCTCAAGTTGCAGTGGTACCAAAGGGACATGTTTGGATTCAAGGGGATAACGTCTATGCCTCCC ATGATTCACGTCATTTTGGTCCTGTTCCATATGGTCTTATACAAGGAAAAGTCTTTTTTCGGGTTTGGCCACTTGATAGC TTTGGACTACTAGATCAATGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0255600.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MRFMNYITQWRSAAKEALDRTAITVKFLCWLHFTDNYLFSATHVYGPSMLPTLNLAGDVVLTERLSHRVGNLAHGDLVLV RSPVNPNRCLTKRIVAMEGDTVSYFDPLRADAAQVAVVPKGHVWIQGDNVYASHDSRHFGPVPYGLIQGKVFFRVWPLDS FGLLDQ

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
PANTHER	PTHR12383 View details on PTHR12383 Search for proteins/transripts with this domain View external data on PTHR12383	8	163	156	8.6E-65	–
PANTHER	PTHR12383:SF30 View details on PTHR12383:SF30 Search for proteins/transripts with this domain View external data on PTHR12383:SF30	8	163	156	8.6E-65	–
Gene3D	G3DSA:2.10.109.10 View details on G3DSA:2.10.109.10 Search for proteins/transripts with this domain View external data on G3DSA:2.10.109.10	34	162	129	2.7E-24	–
SUPERFAMILY	SSF51306 View details on SSF51306 Search for proteins/transripts with this domain View external data on SSF51306	37	164	128	1.71E-40	IPR036286 Show description in modal box View details on IPR036286 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00727 View details on PR00727 Search for proteins/transripts with this domain View external data on PR00727	37	53	17	1.0E-13	IPR000223 Show description in modal box View details on IPR000223 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd06530 View details on cd06530 Search for proteins/transripts with this domain View external data on cd06530	40	151	112	6.94873E-24	–
Pfam	PF00717 View details on PF00717 Search for proteins/transripts with this domain View external data on PF00717	43	105	63	9.1E-7	IPR015927 Show description in modal box View details on IPR015927 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00727 View details on PR00727 Search for proteins/transripts with this domain View external data on PR00727	90	102	13	1.0E-13	IPR000223 Show description in modal box View details on IPR000223 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF10502 View details on PF10502 Search for proteins/transripts with this domain View external data on PF10502	113	150	38	3.3E-5	IPR019533 Show description in modal box View details on IPR019533 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00727 View details on PR00727 Search for proteins/transripts with this domain View external data on PR00727	118	137	20	1.0E-13	IPR000223 Show description in modal box View details on IPR000223 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00761 View details on PS00761 Search for proteins/transripts with this domain View external data on PS00761	123	136	14	-	IPR019758 Show description in modal box View details on IPR019758 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:0006508 View details of GO:0006508 AmiGO InterPro QuickGO	Biological process	Proteolysis	The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.	Subterm of View details of GO:0019538
GO:0008236 View details of GO:0008236 AmiGO InterPro QuickGO	Molecular function	Serine-type peptidase activity	Catalysis of the hydrolysis of peptide bonds in a polypeptide chain by a catalytic mechanism that involves a catalytic triad consisting of a serine nucleophile that is activated by a proton relay involving an acidic residue (e.g. aspartate or glutamate) and a basic residue (usually histidine).	Subterm of View details of GO:0017171 View details of GO:0070011
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575
GO:0016021 View details of GO:0016021 AmiGO InterPro QuickGO	Cellular component	Integral component of membrane	The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane.	Subterm of View details of GO:0031224

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0255600.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0255600.3