Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0273900
Transcript ID	LotjaGi3g1v0273900.4
Related isoforms 3	LotjaGi3g1v0273900.1 LotjaGi3g1v0273900.2 LotjaGi3g1v0273900.3
Lotus japonicus genome version	Gifu v1.2
Description	V-type proton ATPase subunit a; TAIR: AT2G28520.1 vacuolar proton ATPase A1; Swiss-Prot: sp\|Q8RWZ7\|VHAA1_ARATH V-type proton ATPase subunit a1; TrEMBL-Plants: tr\|V7BYX1\|V7BYX1_PHAVU V-type proton ATPase subunit a; Found in the gene: LotjaGi3g1v0273900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:53502625..53512190) extracted from Lotus japonicus Gifu genome v1.2.

CTACGATTCTTCAAGGATCAAATCAATAAAGCTGGTCTAATCTCTTCTACTCGTATTGTATTGCAACGGGACATTGACTT AGAGGATTTGGAGGTCTCTTTCTATTTTTGAGTTTCTCCATCAGATATGATAATTGTCTTAGGGTTTGCATTCAAGTTAC TGTTTTCTTGCTTCCAACAATTATATGAGACTGTAACTTAAATTGGTGGCCGACACGCTTTAGCTTTCCTGTTTGCTTCA GGGTTTTCACCCTTGAATCTGACTTTATATGTTCTATTGGGTTGTCTTATACCAGGTACAACTTGCTGAGCATGAACATG AGCTGATTGAAATGAACTCTAATAGTGACAAACTTCGACAATCATATAATGAACTTCTGGAATTCAAGATTGTATTGCAG AAGGTATTTTTTGCCACTAGGATATTTTATTCTTAGCATACTCTCAGGTTAATATTAAATTACTGAAGGTGTATCTACAT GTTCCCTGTCGTTTTGGTTACATTAGTTATTTCCTGTTCAAGTTCAGTTAGCCAATGATGCTCATTCTGATCGTAATTTA TCATCAGATACTATTTTTTAATATTATTTGATCTTCTTTTTTAATATATTCTTTGAAATTCTATTATGTTGTTCTCTACT CATGAATTCATCTGTTAATTTGATGATTAAAATGTTTCCTCTATGCTTTCTGTCTTTTAATGTGGTATAATTTTGTCGGT AAAATTCAGGCATGCGGTTTTCTTGTTTCAAGTAATGGCCATGCTGTCTCGGACGAGAGAGAATTACAGGAGAATATATA CTCAAATGATGACTATGTTGAGACAGCATCTTTGCTTGAACAGGTTCCTTGTAAACATCCTTTATCGTCCTTGATATAGC TTTTTTTAGCTTTAAAAGTACAAATATTTCATTAGTTTTTACATTAATTTTATGCTGATAAATTACTTATTTTACAGGAT ATGGTGCCTCAACCATCAAATCCATCTGGTTTAAGATTTATCTGCGGGATAATCTGTAAATCCAAGGTTCTTAGGTTTGA GAGAATGTTGTTTCGAGCTACAAGGGGAAATATGCTTTTTAATCAAGCACCAGCTGGTGAACAAATCATGGATCCTGTTT CAACTGAGATGGTTCTCTTCCTTCTTATTATTTTTAAGAAGATTGATAATTGGACTCTTTTCTTCCCCTTTTCAATCTGT ATTTATCATTTTATCTATCGTGTTCCCAGTTTGTATATATTTCCGTTGATGTCTGTCCTTTCAATGACAGTCCTGTAATT TTCTTTTCAGATTGAGAAAACAGTGTTCGTTGTGTTTTTCTCTGGGGATCAGGCAAGAACAAAGATTCTGAAGATTTGTG AGGCATTTGGTGCCAATTGTTATCCTGTTCCAGAAGATATAAGTAAGCAGAGGCAAATAACTAGGGAGGTAAGTGTGCTC AGTTAGGATGGTGTTAATTTTTTGCCTCCTCAGTTATGTATATTTTTCCATTATGACATTTGGATAAAGTGTGCCCTGGA TAAAATTGGGATATTTTCTATTAAAGTATAAGTGAGATAATATTTTTGTAGTTTTTTAAGCTAACTACTAGAGAATTTCG CATATCTTTGCTGTTGGACCGCGTCCTTATTTATTATGAACCTATACCAAAGTATACAGGGATCTGGTTTTGTAATCCAA AATGGGGGTTGTTTTGATGCTCTTCAAGTTTTTCTGTATGTAATGTGAACAGTTTTCAGCGGTCTTTTGTGGCAGTACCA TTCAGGGTTATCAAGTAGTATGTCTTGGGAAAATTAGTTCTTACATTCAATTGAAAAGTTAGAAATGTGTGGTTTATGGT TTAAATTTTTATTTTTGGGTACAGGTTTCTTCACGTCTTACTGACTTAGAGGCAACTTTGGATGCTGGGATTAGGCACCG GAACAAAGCTCTAGCTTCTATCACCGACCATCTAGCAAACTGGATGAACATGGTAAGAGTTGGCTTCTGCATGTCTTATT GCCTGAGATATTTTGATTCTTTGTTTTAACTGCAAAGCAATTCTAATATCCAATGAATTGTGCAAGTAATGGCTGTCAGT ATTCAATCAATAAATCTCATCCTTATCACCTTGTCCTAGGTAAGAAGAGAGAAGGCCGTGTATGATACACTGAACATGTT AAATTTTGATGTCACAAAAAAATGCCTTGTTGGAGAGGGCTGGTGCCCTATGTTTGCTAAAACACAGGTATTTTTTATTT CCTAATATTTATTTGCAAATTTTGAAAACATCTTTGATATATATTTTCTGATAAAAAGAACTTACGTCTAATGATTTTCC AGATGCAGGAGGCGCTGCAACGTGCAACTTTTGATAGTAATTCTCAAGTTGGCATAATCTTCCATCCGATGGATGCAGTG GAATCACCTCCTACATACTTTAGGACCAACACTTTCACAAGCCCATATCAGGAAATTGTTGATGCATATGGGTGAGCCTA ATTAATATTGGTTGAATTCAGTAGCAACAACATGAGTAGTTGAATGTGAAGTAACTTTTCTGGAGTGTTTTTATAGCGCA TTTTTTCCCTTGAAGTTAGAGAATCAAGTGCCAATATGCTAAACCTCTGTCAATAGATTAAGGGATGTGTTAGGATCAAT TATATTAGGATTTAATATAGGATTCTATCTTTTGTTTTAGGAACTAATATTGTATTTTAGGATGTTATCTTTTATTTTGG TTAGGATATCTTCTTTATTTCTTAGAGGGTAAGTCATCTTATTAGGATTAGGTTATTATAAATAGGAGTACCCTCCTTAG GTTAGAATCGTGGATTAAGTATTTGATTTTGTAAAGGGAACCAGCCCTTGAAGAGGAACCAGCCTCTTGGTTCTAAGAGG AACCAGCCTCTTAGTTCTAATCTTTCTTTTATTTTCCAGTTTAATATAATAAAATACCAAAAATATTATCATTTATCTTA CTTTCTCTTTCGTTTCTCCACGTTAGGATTTTCAGATCCTAACAAGTAACAATTGGTCCGACCTACTGGATCCGTCAAAA CCCAGTGCCCCTAACACCCTCACGGTCCTCTTTCCTCTACCATCTCCTTTCTCTTCCAAAAAAAACAGCCGTCACAGTAC TTCGCTACAGTAATCCGCACAGTAATCGCGTACAGTACTTCGCTACAGTACTGCGCACAGTGGCGTACAGTTCCACACAC CCTGTTTTGAACAGCACCTTGGTTCTGGGGTTTTGCTTTCCTTGTTTTTTTTTCAGGAACTTGTCATCATGGTCCTTTCT ATGGAAGAATGGAATACTATTGTGGAGGAGTTTCCCAAGTTTGATGGAGTGGATCCGGTGTCTTGGATCATTCGGGCCCA AAAAATCTTCCGGATACACCGTTTGAGGGACCAAGATAAGGTGCAACTGACATTTGTTAGCATAGATGGGGCAGCCGCTC ATTGGTTCTATTTTTGTTGTTATCACAATCTCAACCTTACTTGGAATTCATTTCTCTCCCTCTTGCTTCAACGTTTTGGA ACCGTCTCCGAGAGGCTGCAATTTCATAGACAGAGTGGCAATGTTGACACTTACATGCGAGAATTTGAAGCTCTAGTGGT TCGAATTCATAATCTTTCTGAATTACAGTTGTTAAGATATTTTCTGAGTGGCCTCGAACTCGAGATTAGTTCTCGGGTGC GTTCTTTACGCCCTGCCAATGTGTCGCACGCCATAGAGCTTGCACGAGATGTCGAATTCCGCCTTGCTCATGGACAACTT CTGGATCTCATGGTTTATTTTCCTCCTCCTTCTCACAGCGCAGGGGAAAGCGTTGCTGGTATTCCAGTGGAAGAAGACAT ACTCAAGGAGGACTCAAGCAGCCAACATGCTACGCTCACTTCTGAGATTTATAATGAATCCAAGCAGGACACTACCTTGC CGTTGGAAGGTCTCACAGAAGATGCGCCAATATGCCCCACATCTCTAGTATTCAACTTTTGGGAAGCACAATCTCTATGG TAGATGTTCCATTGTCATTGATTGTGAATGCTGTTATGATCGAAAAGTTTGGCAATGTAGGCGTTCCTAAACATCCGGGT ACACAATTAACTATGGGCTCTGTGGACAATGTTGACCACTCGACGCGGAGGGGCGAGCCGGCGAGCCCTCAATTCAGATG CAACTATGGGTCCTCAATGTGTTGTCCAAGCAACCTCCTCCAATGCCGCCAGATATGGACACTTGGATAGTTGCTATTTT GGCGCTTCACTCAATTTGCCCCCTACAATGGGACCGGGGGGAGAAGATTGGATCTACTAATATTGTATTTTAGGATGTTA TCTTTTATTCGGTTAGGATATCTTCTTTATTTCTTAGAGGCTAAGTTATCTTATTAGGATTAGGTTATTATCATAGTAGT CAATCCCGGATCGCGGCGCGTAGCGGCCGACCCCAAAAGTGGGATAGCGGGATAGCGGATAGCGGGATGACCGCTATTTT GATTTTTCACATATAATATTATATAATTAATATATACATATAATTACTAAAAAGTGATAAATATAACTTCAAAATTAAAA TTCATAACATGATGAAGTGATAGAGAAGAGAGGAATACTAAAGGAGAAGAACTGGAGAAGTATTTTTGAGAACAGAATAA TAAATAAGAAGGAAAAGAAAGGAAAGAAAAATAGAGGAATAGAAGATAAAAATCAGAGCAACTCAGAACAGAACAAAGGC CCAAGAGAAACAGGGGTGGTGGTCGCCGGAGCCTGGAAGGTGCTTGTCAGATTGCGCCGTGGCCATGGGTTCTGGACTTC TGGTCGAAGGGGCTGAGCTGAAGGAACGACACCGGAGATTGCAGAGGAAACGCGTATGAAGAAGAAGAAACGCGTTGAAG AAGAAGAAGAAGAAACGCGTTGAAGAAGACGAGTGAAACGCACCGTTTCACTTATAAGAGCGAAATCCCAAAAGTACCCT CAAATTTTAACCTAATTTTGAAATTTTGAGGGCAATTTGGGGATTTTCCTTGGACCCGACCCATCTTCAACCTGGAGCAC CGCGATTTGCTGCGATTGAACGCAATTTGAACGCGATTTGGCCGCGATTCGCGGCGCGACAGCCGCGACGGCGTTCCGCG ACGCGATCGATTCAGAATCGCGGGGAAGGGCCGCGACGCGACGCGACGGCGCGATAGCGCCGCTATTTGCCGCGATTGAC TACTATGGTTATTATAAATAGAAGTACCCTCCTTAGGTTAGAATCATGGATTAAGTATTTGATTTTGTAAAGGGAACCAG CCCTTGAAGAGAAACCAACCTCTTGGTTCTAAGAGGAACTAGCCTCTTAGTTCTAATCTATCTTTTATTTTCCAGTTTAA TATAATAAAATACCAAAAATATTATTATTTATCTTCCTTTCTCTTTCGTTTCTCCACATTAGGATTTTCAGATCCTAACA GGATGTCTGATTAGTGTATGTAGAATTGGATAAATTTAATTGATTATACACTTTTTACCTTGCAAATGGTATAGCCAATT TTCTAAATAGTGTATATTCTACGTTTAACGTGCAGAGCTTATATTTTGAATAGATTACTTTTCAATAAAGTGAAACTAAA TTTATACATTCTTGATAAAATATTTTACACTTAGTTTCCTACTTATCTCCTGATGAAGTCAACAACTGGAATTGTCTTGT GGTGTATTTGACTAATTAGATAATTGAAGGATACTAAATGTTGGTATACTGGGGATTAGAGGGGACAATTTTAAAATTTT AACTGCAACGGTACTTTAAAAATGTATCTAAACTTGCATGAATAAACCTTTCCCACCCCTTTTCTATTCCTAAACTTGTT TGTTGATATGAATGCCTTCCAAAAGGTTGTAAAATTTCCTGAGTAATGAGATCATTTGATATGGTATTACTAGCATATGT CATCTTTTTTTGAGGATTTTATTTCTGGATTGATTCTAGGTATGTACTGTGGCAGATACAAACTATCTAGCTTACTAGCC ACTACTTCCTAGGTTTATAATCCATGATAACTGATTAGATTCCTAATAAGACCTTTTACTTGGCAGTGTTGCTAGATACC AAGAAGCAAATCCTGCAGTTTACACGACTGTTATATTCCCCTTCCTATTTGCTTTGATGTTTGGGGACTGGGGACATGGA ATTTGCCTGTTACTGGGAGCGTTAGTTCTTATAGTACGTGAAAACAAGCTCAGCACGCAGGTAAACATTCTATGTTATAC ATGTAAACCATCTCTCATGAATACAAAAATGGTTTGAGATATATCGAACTTGCACATCCTTCCTTTTCCTTCTTACTTGA ACTTCATCATGGTTGATAATTATGCCAACTAAGCTTTTAATCATTAGCTACCGATCATTCAGTGTTTAGCAGAATTTGTC TATGAAGTGTCATTTTTTCCCACAAAATTATGTTTTCTTTTTGTCCATAAATATCTTGAAATTCTAAATGTCATTTTAAA TTAATATATTGTAGTATATCCAAGTGCAAGCAGAGAATCAACACTTTACTTTTTGTTTTGCTACTTGCATTACAATTAAT ACCTAACAGTTCTATTTAAATTCTTCCAGAAACTTGGAAGTTTTATGGAGATGCTATTTGGTGGGCGCTATATTCTTCTT ATGATGGCACTATTTTCAATCTATTGTGGGTTAATCTACAATGAATTCTTTTCTGTTCCTTTTCACATATTTGGTGCATC AGCCTATCAATGCCGTGATAGTTCATGCAGGTGTGTATTATTATGTCTCTTAGAGCCTCTGATTTATGTACCGGTTAAAT GTCTTTTTGTTTTATTCTGTAGAAATGTGATGCCTTACTTGTTGCTGCAGAATGTTCCCCTTTCCCCGTTTAGTATTTTT CTGAGTTACCTTGTGCATTCAACATTTTTCAACTAATGTTACAATTTTTTTCCTTTTCGTTTTAAAATTAAATGGTTAGA ACAATTTTCGAACTTAAATGGCTGCTCTTATGTATCCTATTTGGTGTTGACATGACCTAAGCATCTCCACTTGCATCTGT GCATTTTGAGCAGCATTGGGGTTGGGAAACGAGTTAAGTTATTTGCTTAAATATGTCATCTAGGCTTTAGATCATGTGGA GTTTTGGGGTTTTTTTTTGGTTTATTTAAATTTTTTTCTCATTTGAATTGTTCTATTTTTTATTTATTTATGTTAGCTGA GAATGTGGTCAACTTAGAACTTATTTTGCAAGGCCATACTTTTTGGTTAGCACCAATCCTTTGACTTTGATTCTGAGTGA TTTTTTTTATCATTCTTCGTCTTTTATCAGGGATGCACATACTGTTGGCTTAATCAAATACCGAGATCCATACCCGTTTG GTGTGGATCCCAGCTGGCGTGGAAGTCGTTCGGAATTGTCTTTTCTTAACTCTCTGAAGATGAAGATGTCCATTCTGTTT GGTGTGACCCATATGAACTTAGGAATTTTATTAAGTTATTTCAATGCTCGTTTCTTTGGATGCTCACTGGATATAAGGTG TCTCACTCTTCTGTCTGGTCCGTGCAGTTATTATGTTATCTTTTAGTAGAATGTTTTAACCTACTCTATATGTGGTCCCC AGGTACCAGTTTGTGCCACAGATGATTTTCCTTAACAGTCTATTTGGGTATCTTTCCCTTCTCATTATTGTTAAGTGGTG TACTGGCTCTCAAGCGGACCTTTATCATGTAATGATATATATGTTTTTAAGCCCCACAGACGATCTTGGTGAGAATCAGT TGTTCTGGGGCCAAAGACCACTTCAAGTATGAATCTAGTTCCTTGTTTATTTTTACTTTATACAATTGTGTTCTGTTTCC TGGTCTCATCCTGTATTACTGGTCTTGATGTGCAGATTGTATTATTGCTTTTGGCCATAGTTGCAGTTCCGTGGATGCTC TTTCCAAAACCTTTTATACTAAAGAAGCGGCACACTGAGGTGCCACTTTTACCTGCCTTGTATATGATTTAGCAAGTTTA TTTTATTCAACCAAGCTCTGTTTACGTTAGCATTTGTGTACATATGCTTCCTTTTTTGACTCCGAATTTCTGCTAAAGGT TGATCACCATCGATTGTCTTTAAGAAGTCAGAACAGTTACAATGATACATTTTCTTTGGAATGAATATTCTTAGAGTTTG GGTTAAGCCTAACTCTACCACAAAAGCTAGCTTAGGATGATGAATACTCTACCCTTTATAAGGACTATCTTAGCCATATC TCTAGTCAATGTGGCACCTCTAATACCATCTTAGGATTTGGGTTAAGCCTAACTCTACCCTAAAAGCTAGCTCAGGGATA AGAATTTTTATACCCTTTATAAGAACTGTTTTCGCCGTGTCTCTAGTTAATGTGGGACTTTAGCAAATATGTTGAAGTAG TAATATACTTATGACTCCTGCGGGCAATGCAAACACATTTTCTGGCTTTAGTTTTCTTTATTCTTTACTTCTGTTGCACT AGAAATTAAACTGATGTGAAGGCCAAGATTATTAATCTTTTATTCTTCTGACATTATACAGAGATTTCAAGGTCGTAGTT ATGGTCTTTTGAATACTTCTGAGATGGATCTTGAGGTAGAACCAGATTCTGCCAGGCAACATCATGAAGAATTCAATTTT AGTGAAGTTTTTGTTCACCAAATGATCCACTCCATTGAGTTTATTCTAGGTTCAGTTTCGAATACAGCATCATATCTTCG ACTTTGGGCATTAAGGTTTGCTCTGCCATTATCCTCCATCTCCATGAATTTCTATTTTATAGATTCTTGTTCCTTGGTTG ACTTTTCTTACCACTTGCAGTTTGGCTCACTCAGAACTTTCTACTGTTTTCTATGAGAAAGTCCTGCTTCTTGCTTGGGG GTGAGTTTGATATATAACCTGTCTTTTATACTCTCAACATTTCAATCTTCTACGTGCCTCCCTCAATAGACGAAACAAAA ATTCATAGCTGAACTTGGATGAAATGAGACTCTTTATGATTGATGTGAATAACAGTAATCTGTGAACCACAAAATCACAT AATTCTAAAGGATTGTTTTCATAGTCCACAGTGTGCACTTAAACTTTTGGATATGTATAGTGTCAGAATGTTGGGATATT TCACTAATGTTAACATTAATAGGAAGGGCCAATTTTACACCATTGACATGCCAGTTTATCAATCAAATTTCCTCACTTCT CTGTTATTTTAAACTATTGTTTTGATATGCTTGGATTTGTGACTATAACAAACCTTTATAAGATTCAAAGAATTAAGGAG AAGCCTCCATTGTTGCATTCATAGTTTTTTTGATCTTTATTCTTTTATTATTAATGCCATTCCTGGTTCCAATTAAAATA GGTATGACAACCTTGTCATTCGGTTGGTGGGGCTAGCTGTTTTTACCTTCGCAACTGCCTTTATACTACTTATGATGGAG AGTCTTAGTGCTTTTCTTCATGCTCTGCGGCTTCACTGGGTTGAATTTCAAAATAAATTCTACCATGGTGATGGCTTCAA GTTCAAGCCCTTTTCATTTGCCGCCTTAACAGAGGAAGACGATTGA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0273900.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAACTCTAATAGTGACAAACTTCGACAATCATATAATGAACTTCTGGAATTCAAGATTGTATTGCAGAAGGCATGCGG TTTTCTTGTTTCAAGTAATGGCCATGCTGTCTCGGACGAGAGAGAATTACAGGAGAATATATACTCAAATGATGACTATG TTGAGACAGCATCTTTGCTTGAACAGGATATGGTGCCTCAACCATCAAATCCATCTGGTTTAAGATTTATCTGCGGGATA ATCTGTAAATCCAAGGTTCTTAGGTTTGAGAGAATGTTGTTTCGAGCTACAAGGGGAAATATGCTTTTTAATCAAGCACC AGCTGGTGAACAAATCATGGATCCTGTTTCAACTGAGATGATTGAGAAAACAGTGTTCGTTGTGTTTTTCTCTGGGGATC AGGCAAGAACAAAGATTCTGAAGATTTGTGAGGCATTTGGTGCCAATTGTTATCCTGTTCCAGAAGATATAAGTAAGCAG AGGCAAATAACTAGGGAGGTTTCTTCACGTCTTACTGACTTAGAGGCAACTTTGGATGCTGGGATTAGGCACCGGAACAA AGCTCTAGCTTCTATCACCGACCATCTAGCAAACTGGATGAACATGGTAAGAAGAGAGAAGGCCGTGTATGATACACTGA ACATGTTAAATTTTGATGTCACAAAAAAATGCCTTGTTGGAGAGGGCTGGTGCCCTATGTTTGCTAAAACACAGATGCAG GAGGCGCTGCAACGTGCAACTTTTGATAGTAATTCTCAAGTTGGCATAATCTTCCATCCGATGGATGCAGTGGAATCACC TCCTACATACTTTAGGACCAACACTTTCACAAGCCCATATCAGGAAATTGTTGATGCATATGGTGTTGCTAGATACCAAG AAGCAAATCCTGCAGTTTACACGACTGTTATATTCCCCTTCCTATTTGCTTTGATGTTTGGGGACTGGGGACATGGAATT TGCCTGTTACTGGGAGCGTTAGTTCTTATAGTACGTGAAAACAAGCTCAGCACGCAGAAACTTGGAAGTTTTATGGAGAT GCTATTTGGTGGGCGCTATATTCTTCTTATGATGGCACTATTTTCAATCTATTGTGGGTTAATCTACAATGAATTCTTTT CTGTTCCTTTTCACATATTTGGTGCATCAGCCTATCAATGCCGTGATAGTTCATGCAGGGATGCACATACTGTTGGCTTA ATCAAATACCGAGATCCATACCCGTTTGGTGTGGATCCCAGCTGGCGTGGAAGTCGTTCGGAATTGTCTTTTCTTAACTC TCTGAAGATGAAGATGTCCATTCTGTTTGGTGTGACCCATATGAACTTAGGAATTTTATTAAGTTATTTCAATGCTCGTT TCTTTGGATGCTCACTGGATATAAGGTACCAGTTTGTGCCACAGATGATTTTCCTTAACAGTCTATTTGGGTATCTTTCC CTTCTCATTATTGTTAAGTGGTGTACTGGCTCTCAAGCGGACCTTTATCATGTAATGATATATATGTTTTTAAGCCCCAC AGACGATCTTGGTGAGAATCAGTTGTTCTGGGGCCAAAGACCACTTCAAATTGTATTATTGCTTTTGGCCATAGTTGCAG TTCCGTGGATGCTCTTTCCAAAACCTTTTATACTAAAGAAGCGGCACACTGAGGTGCCACTTTTACCTGCCTTGTATATG ATTTAG

Download CDS Sequence

Protein sequence (LotjaGi3g1v0273900.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MNSNSDKLRQSYNELLEFKIVLQKACGFLVSSNGHAVSDERELQENIYSNDDYVETASLLEQDMVPQPSNPSGLRFICGI ICKSKVLRFERMLFRATRGNMLFNQAPAGEQIMDPVSTEMIEKTVFVVFFSGDQARTKILKICEAFGANCYPVPEDISKQ RQITREVSSRLTDLEATLDAGIRHRNKALASITDHLANWMNMVRREKAVYDTLNMLNFDVTKKCLVGEGWCPMFAKTQMQ EALQRATFDSNSQVGIIFHPMDAVESPPTYFRTNTFTSPYQEIVDAYGVARYQEANPAVYTTVIFPFLFALMFGDWGHGI CLLLGALVLIVRENKLSTQKLGSFMEMLFGGRYILLMMALFSIYCGLIYNEFFSVPFHIFGASAYQCRDSSCRDAHTVGL IKYRDPYPFGVDPSWRGSRSELSFLNSLKMKMSILFGVTHMNLGILLSYFNARFFGCSLDIRYQFVPQMIFLNSLFGYLS LLIIVKWCTGSQADLYHVMIYMFLSPTDDLGENQLFWGQRPLQIVLLLLAIVAVPWMLFPKPFILKKRHTEVPLLPALYM I

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
Pfam	PF01496 View details on PF01496 Search for proteins/transripts with this domain View external data on PF01496	1	551	551	2.4E-197	IPR002490 Show description in modal box View details on IPR002490 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11629 View details on PTHR11629 Search for proteins/transripts with this domain View external data on PTHR11629	1	551	551	0.0	IPR002490 Show description in modal box View details on IPR002490 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	302	302	-	–
PANTHER	PTHR11629:SF96 View details on PTHR11629:SF96 Search for proteins/transripts with this domain View external data on PTHR11629:SF96	1	551	551	0.0	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	303	331	29	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	309	331	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	332	351	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	348	370	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	352	369	18	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	370	431	62	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	432	450	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	434	456	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	451	469	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	469	491	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	470	487	18	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	488	521	34	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	517	539	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	522	539	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	540	561	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:0015078 View details of GO:0015078 AmiGO InterPro QuickGO	Molecular function	Proton transmembrane transporter activity	Enables the transfer of a proton from one side of a membrane to the other.	Subterm of View details of GO:0015077
GO:0033179 View details of GO:0033179 AmiGO InterPro QuickGO	Cellular component	Proton-transporting V-type ATPase, V0 domain	A protein complex that forms part of a proton-transporting V-type ATPase and mediates proton transport across a membrane. The V0 complex consists of at least four different subunits (a,c,d and e); six or more c subunits form a proton-binding rotor ring.	Subterm of View details of GO:0033177 Part of View details of GO:0033176
GO:1902600 View details of GO:1902600 AmiGO InterPro QuickGO	Biological process	Proton transmembrane transport	The directed movement of a proton across a membrane.	Subterm of View details of GO:0015672 View details of GO:0098662

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0273900.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0273900.4