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LotjaGi2g1v0364600.4

Overview

Field Value
Gene ID LotjaGi2g1v0364600
Transcript ID LotjaGi2g1v0364600.4
Related isoforms 4
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|A0A1J7GFZ0|A0A1J7GFZ0_LUPAN Uncharacterized protein; Found in the gene: LotjaGi2g1v0364600
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr2:86202593..86212456) extracted from Lotus japonicus Gifu genome v1.2.

CCCGGGAAAATGGATCACTTCATGGAAAACTTGCCGCCAATGGATCTCATGCGCTCCGAGAAGATGACCTTCGTTCAACT CATCATCCCCGCCGAGTCCGCTCACCGCGCCGTCTCCTATTTGGCCGAACTCGGCCTCCTTCAATTCCGTGACGTACGTA ACTTCCCCTCTCATCTCAGATCCGAACTTCATTTTCCTTTTCTATTTCAAATTCTGTCATCTTGTTTTTCGCGCCTTTTC TGTTCTTCGTTATTGCTTCAATGCGGAAAAATGCTTGTTGATTTTAGTTCTGGAGTTTGTTGCATTGTTCGAGTTGAGTG TGAATGGTTTTGCGTTTCCCTCAAGAAATGATTCAAATGCTGCATTGTTTAATTCATGCGTTGAATTCAGGAATCTGGTG CCAGTGCGCTGATTTGTTCATAGAATTCATTTTTGTTGTTGTTGTTGTGCTGTTGGTTTGGATTTTGGAGGTTTGGTGAA CAGTGTTTGCAAAATGTGATGAAATCCAACACCTAAGTGTATTGTTAACTTTATTGAATTTAATTGTGGTTTGAGAGTAG TTTAGTTGCACTAATGGTTTGCTTAAGTTCAATGTTGTGTGTAAAATGCAGGCAACTAAGCAATATTAGATAATTAGTTT ATCGTGTTACTGATAATCCCCGTGCTCTTCGGAGGTGGGTTAGATATATTTTCTGATTGGTTCAGAGATGATGGCTAGGT TTTGGTTAACGACTTCCTACTTAGATTTCCACTCTGTTCGCTGTCTTGCATTGTGCATTGTTGCATGTAGGTTCGGATGG TTAATTTTAGAAACTTGATTATTTGGTTTCATGTTTAGATTGCGTGTCAATGTGGTATGCTGCCACTATTGATAATGGTA AAGTCCATTGATAATTAAGGACTAAAAGGTGTCACTAATGGATGGTTGATTATTCTTTGCCCATCAGTCATGTGTTACAG GACTATATTGTTTGAGACTTATCACTCATTATACGTTATTATTACTATTGCTTTTGCCATTTGCATCTTTTTGATTAAAA TGGACCCTCTTTAGTAGTTTCTTCATTAAGTGTGACCATAAGAGTAAAAATTGATGGTGAACTATCTATAACGTAGGAGA ATTGCTGTAAGTCTTGAAATTTGTGACTCTTGGGCCTAGAGTCATGGTTGAATCAGTATCTGAATATTTCAGGATATGTG GGGTATGCAAAACCTTAGATATCTGTCATGCATTTTCACTGGGAGTGACTAAAAGTGGAGTGCTATTTAAATTTTCAAAG GAATATCTTTATTTTTGCAATATCATATACAATGCTGTCTCTTGTTACAAACGATGTTTTGGGTGGCAACTTGCAACTGC ATGTTTTAGGAAATAATCAAAGTTTGCTTTAATTTTTTCTTTTACTGCCATATGTGGGCTTCAAAAAGTAAGTGATGTAT GTTTTACTTTCACCACCTCGTGGGAAAAAGCTTTGTTGTTACTTGTTATAAATCTTTGTTTTTGATGTTGGAGGTGTAAA ATTCTAAGATTTTAATCACTGCATTTCTTAAGAACTCTGTTTTCTCATTTGTAGTTAAATGATGAAAAAAGCCCCTTCCA GAGAACGTTTGTCAACCAGGTAATCAACACTACACTCATTGCTAGAACTCCTGTTGCTTTTTTAATGCCCTCAATTTTGG TACGTTTTTGGAATGGTTGCTCATTAGTGTGTGTATTTTATGTTAAGACAAATTTTACAACTGGGATTAGAAGTTCTTCT ATGGGTCAATTGTGATGACACTTTGTTCTCAAATTACTAATTACAAAATAATCAACCCTGTAATTGTTTCCCGTGCATCA GATTAGTTATCCAAATACTCCCGATTTGATAGAAAAATATGGAAGAAATATGTTCAAGATTTGGAAAATAGTTTGCTTTT GATGTTTTCCTCTTTTTTATAGAATTTACACAAATTGATAACTGAATTTGGTATATAAAATATTGACATTGATGAAATTA TTGGAATTTAGGTAGAACCGTAGAAGAAGTGCAAAAGAGAGATATTTGTGACCGTGGATAATATTCTCTAATGGTTTGGC TAACAAATGGAACTAACTTTCTTTATTATAATTCTGGGCTCATTTCAGAATTCTGGTTAGATAAGGAAACAAATCATTAA ATATGATGAAATATGGGAAGTTGGGAACCACTTTTGAGACGCTATTTAGATATTTAAAATATTGGGATACAATTATGATA TTAAGAGATTATTTTCTGAATATTCTAACACTTCCCCTCTTCAAGCTTGTTACAAATGAACCCTTTAAAAATGAAAAATA ACAAGAGCTATTATAATGATATGACGTATTTAGTGAGAACCTTTTTTTATGTGAGAGTGAGAGGAGTAAATCCTGATCAT ATAGCCATACATAGATGGTCAGGACTAGAAGTTATTTTATTGGTCACATGATTATTTAAAAAAGCCACATGACATGACTA TTTAAAAAAGTACCATGACTTCATGTTTTAAGATTGGCCATTCATGGTTCGACCTAATGGGAGTCTCACATTAAATAGAC CATGCGTTTGCTACATTTGTGTGTGTGTGTGTGTTTGTAGGAATGTTAGAGATGTCAAAGAGATAAGTTTTGAAAGAATG GTTTGAATGACCATCAGCTTGAGGAATTGGTTGGAGTGTTGCATGGCCTAGAAAGAAGAAACTTCACTGGAATGATAATC AACGGAAATTTCCTAACAAGTGATTACAAATAATTTTCCATTTACAATACTTACTGCGTTTTTGTTTTTTACAGGTAAAG CGATGTGCGGAAATGTCAAGAAAACTACGATTTCTCAAGGATCAGATCAGTAAAGCTGGTTTAATCTCTTCTCATTCCAT CTTGCAATCAGATATTTTCTTGGAGAATTTAGAGGTCCTTCTTTATTTTACTACTTTTTCCCTATCAATATGATCATTGT TCCTAGGGCTTGCATTTAATATTCATGTGTCACCCAAACAGCAATAACATGATGATGTCATTTTTGGTTTTTTCAGTTTC ACCAGTATATATGGGGGTTTTTACTCTTGAATCTGACATAGTTTTGTTGAATTTCTCTCAAAACAGATACATCTTGCTGA GCATGAACATGAAATAATTGAAATGAACTCCAACAGTGAGAAACTTCGGCAATCATATAATGAACTCCTGGAATTCAAAA TTGTACTGCAAAAGGTATTTTTCTTGGCTATTTGTTTGTGATTAACATATTATCTTGTTACTTTTAAATTATTAGAGGAT TCCTCATGCTCTTTATTATTTTGGTTACAGTAGTTTTTCCGGCTTGAATCCAGTTAGCCAATAATGGTCTTTCTGATCAT AACTTAACCTTAGTTACTGGAGTGTTTAGTTCAGCTGTTGCTCTACTGTATTTCTGATTTTAATCTATTCCGTCAAATAA TAACGATTTTTGGTTCAAAATTATTAATTCAATCCTGCTCTTGAAATGTAAAATATTTCCTATTTCCTATATGCTTTCTT CATGCACCGTTCGTATCATATAAGTTTGTTGGTATATTTCAGGCATGTGGTTTTCTTGTTTCAAGTCATGGCCTTGCTGT TTCAGAAGAGAGAGAACTAGAGGAGAATGTTTACTCAAATGGAGACTATGTTGAGACACCATTTTTGTTTGAACAGGTTC CTTGTAATATCCCTTATAGCCATAGACACTTTTCTTCTGTGAAAAGTTTAAATTCTGTCAGTAGTTTTTCAATTTTATTT TATCTTGTGAAGGCACTATGATAAATTGTTTATTTTACAGGAAATTAAGCCTGAACCATCGAATCAGTCTGGTTTAAGAT TTATCAGTGGGATAATTTGCAAATCCAAAGCTCTTAGGTTTGAAAGGATGTTGTTTCGTGCTACAAGAGGCAATATGCTT TTCAATCAGGCATCAGCTGATGAACAAATTGTGGACCCTATTTCAACTGAGACGGTCTGTAGTTATTATTATCTGTATTT AATTTATTATTACTCCAACCAATCCTGTACCCAGTTAGTTTATTTTCTCACCAATTTATTCTCTGTCCTGATGACTCAAA CTCATGACCTTCTTTTCAGGTTGAGAAAACTGTGTTTGTTGTGTTTTTCTCTGGGGAGCAAGCAAGAACGAAGATTCTGA AAATTTGCGACGCATTTGGAGCAAATTGCTACCCTGTTCCCGAAGATATAAGTAAACAGAGGCAAATAACTAGGGAGGTA AATATCCTCAGCTTAAGAATATGTTATCTTTTCTTCTTCAATCATGTATATTTTTGTATTATAAGTTATAACATTGGGGC CAAGCTTGCACTAGTCTCTAGATATAAGCGGGCATTTTCCACCTACATTTTCAGCGGAAAAAAGTAATAATTTGTTGTTT CTAAGTTACATATTTGGGAACTTCAACATGTTAATATCAAATTTTTTAATATTCAGATATCTTCTGCAATCCAAGAGACT TTCTTTCTATACTCATTAAGATTTCAGTGTGCAGTGCCATTATTTTTTAAGGGAGATGTTTTCCAACAATATCATTCACG AGAGCATTGAGCAGCGTCGAACAGGAAAAAAAGAGCTGTGTTCATTGAATCAAATCACCCTTACCTTTTCCTTTAGGTTA TTGACGTTGCTTTATGTCATTACATGTCACCATTGTTAACTGTAAAAATGGGAAGTTGGAAACAGTTGAAATTACAAGGC TAATATAGAGAATGAAGGAAAAGAGGAAATAGAGCCTGAATAATCTGATAATGATATTGATTTGATGTGGTACAAAAAAC ATAGCACTAACCCCTATTTATATGAATACTTGGCTGAGGCTCAATCCTAATTAAACAGGGAAATAAATCAATGAAGTCGA TGGAAATATTAAAACCATTCCTAAGAGATATACAAGATACAACAATGATATTATGAGATATTTTCTAGGTATTCTAACAG AAACTACATGATTTATAGTGGAAGAATATAGTTGACACCTTTATGGTTACAGGTTTCATCACGTCTTGCTGACTTAGAAG CAACTTTGGATGCTGGGATTAGGCATCGGAATAAGGCTCTATCTTCTTTAGGAGGTCAATTACCAAAATGGATGGACATG GTAAGAGTTAGCATCTCAATCTCTTATTTGAGATTTTCTTGTTCTTTGTTATGTAGCTTCAGAGCACTCCTAATATCTGA TCACAGTTTGTTAGTGATGGATATATATTTTGAACCAATAGCCTATCATACTTGTTATCTTGCCCTAGGTAAGAAGAGAG AAGGCTGTCTATGATACACTGAACATGTTAAATTTTGATGTCACAAAAAAATGTCTCGTTGGAGAGGGCTGGTGTCCAAT ATTTGCAAAAGTACAGGTAACTTTTTCCTCCTCAAATTTGCTGGATCCTCACTAACTCCTTTGTACTTATTTTTTGTGGA GTTGAAAACATCTTTCATCTTTGATTTATATTTCCTGAAGAGATTGCATCTTCTGGTTTTACAGATTCAGGAGGCACTGC AACGTGCAACTTTTGACAGCAATTCTCAAGTGGGCATAATCTTTCATTCAATGGATGCACTGGAATCACCACCTACATAT TTTAGGACTAACAGTTTCACAAGTCCATATCAAGAAATTGTTGATGCATATGGGTGAGCCTAATATTCACTAGGTGTATT AGGCATTAATAGTACTACAGATGAGTTAGTAGTTAGTTTGTTGAAATAAATTACTTTTCACGAAGTTAGAAGTACATGGC AATGTTCTGTGAACTTGTCACTAGATCAGTAAATGTATGATTAATTAAATAGAATTGGTTTTAGGACATTGCTCTTATCT TGCAGTTATGAAAATTGAAAAGACTCCTAATGATTAATGAGCCCTTTTACTCATCAGTGTTGCAAGATATCAAGAAGCAA ATCCTGCAGTTTACACAACTATGACATTCCCATTTCTTTTTGCGGTGATGTTTGGAGACTGGGGTCATGGAATTTGCCTA CTTCTGGGAGCATTGGTTCTTATAGCACGTGAAAGAAAGCTCCGCACTCAGGTAATTCCATTTTGTGACATGAATAAAGT AGTAACAAAAAGATTATTAAAAAATGCCATAACAGGCTTGTGATATCTACTATGGTTAATCTTCTTTGAGAAAGGCTTAC TTGATTTTATATCAAATTTGATCATTCTTTCCCTGTATGGTATTTAATAGGGTCATCATAGTGGTGTTCAAAGTTGAAGC ACTGGGTGTTTTCTATGATATACCCATTAGACACCACGATAATTAGATGGAACTTTTTTGGTATTTATTGAGTTTGTCCT TTTTTTTTTTATAAATGTTATGAGTTTGTCCTTTAATAGTTTGAATTTTGTCATAAACCAATTATCCCAAAAGCTTAAGT TGTTGGGTAAATGACACGTGATTGATTATATTTCCAACAAATTTACAATGTATTATGGATACAAGTGTAAACAGAGACAT AAATCCTTTACTTTTGTTCTGCTCTTGGCATTCGAAGTTAACATCTTAAACAATCTATTTGATTTATGCCAGCGACTTGG AAGCTTTATGGAGATGCTATTTGGTGGGCGCTATGTGCTGCTTTTGATGTCACTATTTTCAATCTATTGTGGGTTTATCT ACAATGAATTCTTCTCTGTTCCGTTTCACATATTCGGTGCGTCTGCTTACAGATGCCGAGATAGTTCATGCAGGTGTCTT CTATTTGTCTTTTAACAGCTATGATTTATGTGCCAGTTGATTGTTTTTTTACCCAGTACTGTATGCACAATGTAATATTT GTTGGTGTTTTATTTTGCCTCTTCTATTTTTTACTAATTTGAGTTGACATTAACATTGATTATTTTTATCTGTTTGTTGA GAACTCTTTTATTTATAAAAAGGAGAAGGTTAGAACTTACATACCTTAATTGCTGCTCTTCTCTTCTCTTCTGCATTGTC TTTACTTCTTGCATCTGTGCATTATGAACACCAATGAGGTAAAGATTCATCTTACATTCAACTTTTTCACTTCAATATGC CATCTGAGCAGTTAGCACAGGTGGTTGGGATGGGTGGATTTTGGGTAGAGTTCATAACTTCAACTATTCATGTCATGGTA ATGACTCCTTTAAGTATTACCAAATTCTAATTCAAATCATTCTGCTACTCTAGAGTTGTAGACCACCATAGCGGAAATAA TCTTTTTCATCAAATGCATTTATCTGCTGTAAGCTGTCTGAGAGATGTATTAACATCTGACATTATGTCTGTTACCATTA AAATAAAAACTGAAATGGTTATTTATTTGAACTGATTCACTTTTCTCTTAAAGTTATTTACCTTTAAATCCATGTAATCT ACTCATTTGATTGCCATCTCTTGCAGTTGCACTCTTCTGTTGTGCTTTCTGTCTATACTATTTTTCTCCTTCAAAATTGT GCTAATTTGGGTATTTGTATTGTCAGAGGATGTATATATTGGAATCTTGTTTTTGGCTAGGTTTTAACTTGATGCTGTGT GATAACTTTTATCGCTCTCTACCCTTTATCAGGGATGCACATACCACTGGCTTAGTAAAATACCGAGAACCATACCCATT CGGTGTGGATCCCAGCTGGCGTGGAAGTCGTTCAGAATTGCCTTTTCTGAACTCTCTCAAGATGAAGATGTCCATTCTGT TCGGTGTGGTGCATATGAACTTAGGAATTATATTAAGCTATTTCAATGCTCGATTCTTTGGCAATTCACTTGATATAAGG TATCTCACTTTTCTAACTTCCCTCTTCTTCTATATTTTACTGTCTGAGTAGAATGCTTTAACTTACTCTTCATGTTGCTT TTAGGTACCAGTTTGTGCCGCAGATGATTTTCCTTAACAGTCTATTTGGGTATCTTTCTCTTCTCATTGTTGTCAAGTGG TGTTCTGGCTCTCAGGCAGACCTTTATCATGTAATGATTTACATGTTTTTAAGCCCCTTTGACAACCTTGGTGAGAATCA GTTGCTCTGGGGCCAAAGGCCACTTCAAGTATGGTTCTAGTTCTTTTCTTCATTGTTGCTTGATGCATGTTCTATTTTTT GGCTTTCATCCTCCTGAATCTGTTCATCATAAGCAGGTTGTGTTATTGCTTTTGGCTGTAATTGCAGTTCCATGGATGCT CTTTCCAAAACCTTTTATACTAAAGAAGCTTCATAATGAGGTACCTCTTTTGCTCCACTTGTATATGATTTTAAACGTCT ATAATTTTATTCACCAAAGACCGAACTTCTTGATTAAATGCAAATAAATATGTCTCCGTCCATTACATAAATATGCTTGT TCGTTTGAGCATCCCCTTTGGCCTTTATGACTACATTTCTGCTTTAGGTTACCAAACTTCAATCCTCCTAGAGATCCATT ATATGATCATTTTTCTTTGGACTAAAAAATGCTAGTTCTAAATTTTAAATTACTGACAACTTCAATTGGTTGAGCAATTT TTTTTTCTTTTCTATTCTAGCTGTAGTTTCTTTTGTATACTTTTGTTACATCTGTTTATTCACGAAGCAATGCTAAGTAG TTTGTGAAGATTATTAATCTTCTATCCTGATGTTATTATAGAGATTTCAAGGACGTACTTATGGTGTGCTTAATACCTCT GAGGTGGATCTTGAGACGGAACCAGATTCTGCCCGGAAACATCACGAGGAATTCAATTTTAGTGAGGTCTTTGTTCACCA AATGATTCACTCTATCGAGTTTATTCTGGGTTCTGTTTCTAATACAGCATCATATCTTCGACTATGGGCATTAAGGTTTG ATCAGCCATGATTTTCCTTCATTGCCACAACTTCCTGTTTTATAAATTCTTGATTTGCTCGACTTTTTGTGACCACTCTG CAGCTTGGCTCACTCAGAACTTTCTACTGTTTTTTATGAGAAAGTCCTGCTACTTGCTTGGGGGTAAGTTTGATTTATAA GTTATAACCTTCATATGGCATACTTTTTATTCAACCTTCATATGGCCCCTGATGTGCATCCCATAGTAGAGGATCTATCG TTTATAGTCAAAGTTGGATTGAATGTTCTTTGTGCAATTTCACCGAGAGCACTAAATCATTTGGCTGAGATGAATAGTGT TCTGATATTTTTATCATTTGAAATAATGATGAAGACCCTGACAAGTGACAATAGATACAGTCAAAATATGAATAATCATC AAATTCCTTAACTACGTTATTATTTTAAACTATAGAGTAAATTCTTTAATCGATTCTCCAAAGATTAGGGTATCACCTGT TAAGTCTTCTAGTTTCTCCAATATTCAAGTGCTACCAAATTAATCCCTCAATGATACAAAGTTGCTACTAAATTAGTCCT GTGTATGAGGGAGGCTAATTTGGGGCCTTAAGTACTAAATAAGCTCCACTTATTTAGTGCATTTTCCCATATACTTGAGG GACTAGTTTAGTTAAAAAATTGAAGTTATAATATGGTACGTTGGTAACACTTGAATCTTTGAGGAATTAATTAGTGACTA AAACCTCTGTCATGTCTGCATTCCTTTGTTTAGTCTTTAGGCTAAAAAATTATCCATCTATTATGTTTGCATTCTGTTGC AGCATTTATCCTTTTTAGTCTGTAATCATGTATGTCATTGTGGACTGCAATTATGACAGGTATGACAATCTTGCCATTCG GTTCGTGGGGCTAGTTGTTTTTGCTTTTGCAACTGCCTTTATACTACTTATGATGGAGACTCTGAGCGCTTTTCTTCACG CCTTGCGTCTTCACTGGGTAGAATTTCAAAATAAATTCTACCATGGTGATGGCTACAAGTTTAAGCCTCTTTCCTTTGCC TCCTTAATTGAGGATGAAGATTGA
Download Genomic Sequence

CDS sequence (LotjaGi2g1v0364600.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCAGGTGGATGCACATACCACTGGCTTAGTAAAATACCGAGAACCATACCCATTCGGTGTGGATCCCAGCTGGCGTGG AAGTCGTTCAGAATTGCCTTTTCTGAACTCTCTCAAGATGAAGATGTCCATTCTGTTCGGTGTGGTGCATATGAACTTAG GAATTATATTAAGCTATTTCAATGCTCGATTCTTTGGCAATTCACTTGATATAAGGTACCAGTTTGTGCCGCAGATGATT TTCCTTAACAGTCTATTTGGGTATCTTTCTCTTCTCATTGTTGTCAAGTGGTGTTCTGGCTCTCAGGCAGACCTTTATCA TGTAATGATTTACATGTTTTTAAGCCCCTTTGACAACCTTGGTGAGAATCAGTTGCTCTGGGGCCAAAGGCCACTTCAAG TTGTGTTATTGCTTTTGGCTGTAATTGCAGTTCCATGGATGCTCTTTCCAAAACCTTTTATACTAAAGAAGCTTCATAAT GAGAGATTTCAAGGACGTACTTATGGTGTGCTTAATACCTCTGAGGTGGATCTTGAGACGGAACCAGATTCTGCCCGGAA ACATCACGAGGAATTCAATTTTAGTGAGGTCTTTGTTCACCAAATGATTCACTCTATCGAGTTTATTCTGGGTTCTGTTT CTAATACAGCATCATATCTTCGACTATGGGCATTAAGCTTGGCTCACTCAGAACTTTCTACTGTTTTTTATGAGAAAGTC CTGCTACTTGCTTGGGGGTATGACAATCTTGCCATTCGGTTCGTGGGGCTAGTTGTTTTTGCTTTTGCAACTGCCTTTAT ACTACTTATGATGGAGACTCTGAGCGCTTTTCTTCACGCCTTGCGTCTTCACTGGGTAGAATTTCAAAATAAATTCTACC ATGGTGATGGCTACAAGTTTAAGCCTCTTTCCTTTGCCTCCTTAATTGAGGATGAAGATTGA
Download CDS Sequence

Protein sequence (LotjaGi2g1v0364600.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MQVDAHTTGLVKYREPYPFGVDPSWRGSRSELPFLNSLKMKMSILFGVVHMNLGIILSYFNARFFGNSLDIRYQFVPQMI FLNSLFGYLSLLIVVKWCSGSQADLYHVMIYMFLSPFDNLGENQLLWGQRPLQVVLLLLAVIAVPWMLFPKPFILKKLHN ERFQGRTYGVLNTSEVDLETEPDSARKHHEEFNFSEVFVHQMIHSIEFILGSVSNTASYLRLWALSLAHSELSTVFYEKV LLLAWGYDNLAIRFVGLVVFAFATAFILLMMETLSAFLHALRLHWVEFQNKFYHGDGYKFKPLSFASLIEDED
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.

Merging data from EBeye. Please wait…

Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
Phobius
NON_CYTOPLASMIC_DOMAIN
1 41 41 -
PANTHER
PTHR11629
4 313 310 5.4E-206
IPR002490
PANTHER
PTHR11629:SF96
4 313 310 5.4E-206
Pfam
PF01496
12 305 294 1.7E-118
IPR002490
Phobius
TRANSMEMBRANE
42 60 19 -
TMHMM
TMhelix
44 66 23 -
Phobius
CYTOPLASMIC_DOMAIN
61 79 19 -
TMHMM
TMhelix
79 101 23 -
Phobius
TRANSMEMBRANE
80 97 18 -
Phobius
NON_CYTOPLASMIC_DOMAIN
98 131 34 -
Phobius
TRANSMEMBRANE
132 149 18 -
TMHMM
TMhelix
133 155 23 -
Phobius
CYTOPLASMIC_DOMAIN
150 207 58 -
Phobius
TRANSMEMBRANE
208 230 23 -
Phobius
NON_CYTOPLASMIC_DOMAIN
231 249 19 -
TMHMM
TMhelix
249 271 23 -
Phobius
TRANSMEMBRANE
250 271 22 -
Phobius
CYTOPLASMIC_DOMAIN
272 313 42 -

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 , while the GO metadata was last updated on .

GO term Namespace Name Definition Relationships
GO:0015078
Molecular function Proton transmembrane transporter activity Enables the transfer of a proton from one side of a membrane to the other.
Subterm of
GO:0033179
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
Part of
GO:1902600
Biological process Proton transmembrane transport The directed movement of a proton across a membrane.
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0364600.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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