Identifiers and Description

Gene Model Identifier

TTHERM_00821870

Standard Name

VMA8 (Vacuolar Membrane Atpase)

Aliases

PreTt07746 | 140.m00061 | 3759.m00363

Description

V-type ATPase, D subunit family protein

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Cellular Component

• proton-transporting two-sector ATPase complex, catalytic domain (IEA) | GO:0033178

Molecular Function

• proton-transporting ATPase activity, rotational mechanism (IEA) | GO:0046961
• ATPase activity, coupled to transmembrane movement of substances (IEA) | GO:0042626

Biological Process

• ATP synthesis coupled proton transport (IEA) | GO:0015986

Domains

No Data fetched for Domains

Gene Expression Profile

• Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 14.2%

TetraMine Data

TTHERM_00821870

WebApollo

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Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source	Identifier	Score	Description
Tetrahymena borealis	EI9_17506.1	2.998539800509618e-166	V-type ATPase, D subunit prote in (254 aa)
Oxytricha	Contig13440.0.g106	1.999618694399617e-70	ATP synthase subunit D
WormBase	WBGene00010130	4.9995619603214884e-57	locus:vha-14 V-type proton A TPase subunit D status:Confi rmed UniProt:P34462 protei n_id:CAA81600.1
SGD	YEL051W	1.0004249259458435e-52	VMA8 Subunit D of the eight-su bunit V1 peripheral membrane d omain of the vacuolar H+-ATPas e (V-ATPase), an electrogenic proton pump found throughout t he endomembrane system; plays a role in the coupling of prot on transport and ATP hydrolysi s
DictyBase	DDB_G0274331	3.998181939598921e-51	DDB_G0274331 on chromosome: 2 position 3887023 to 3888186
Stentor Coeruleus	SteCoe_4518	2.6102790696677047e-23

General Information

No Data fetched for General Information

Associated Literature

No Data fetched for Associated Literature

Sequences

>TTHERM_00821870(coding)
ATGTCACAATAAATTACACCTAGTAGAATGACTCTTGCTATATATAAAGCAAAGACAGTC
TCTGCCAAGAAAGGTCACGAATTGCTTAAAAAGAAATGTGATGCTTTGAAGACCAAGTTC
AGAGCTATTATGATTGCTCTTTTGGAAAATAAGTTGAAGATGGATGAAGAAATGCAAAAG
GCTTTCATCTAATTGGCTGATGCTTATTGGGCTGCCGATTAATTCAACACTAATGTTAGA
GAATCTGTTAAGAAGGCACTTGTTAGAATTGAATATTCAAGTGAAAATATTGCAGGTGTT
ATGTTACCAAACTTAAATATTAGAGAAAACATAAAGGACAATGAAGATACTGAGGGTAAT
ATGGGTTTGCTTGGTCTTGATAAGGGTGGTTTCTCTATTCAAAAAGCTAAGGAAAGATTC
AAAGAAGCTCTCTACCTTCTTGTCAAAGTTGCTTCCCTTTAAACATCTTTCATAACTTTA
GATGAAGTTATTAAGGTAACAAACAGAAGAGTCAATGCCTTAGAACACGTCGTTATTCCA
AGATTTATGGAAGTTTAAGCTTATATTAATTAAGAACTTGACGAAATGTCAAGAGAAGAT
TTCTTCAGACTTAAGAAGGTGTTGGATTTCAAGAGAAAGGTTATTGCTGAAGAAGAAAAA
GAAACTGCAGCTAAAGAAGCTGAACTCCGTGCTAAGGGTGTTAAGAACATTGGTGGTGAT
CTCCTTAACGAAGAAGCTGATGAGGATATAGTTGTTTGA

>TTHERM_00821870(protein)
MSQQITPSRMTLAIYKAKTVSAKKGHELLKKKCDALKTKFRAIMIALLENKLKMDEEMQK
AFIQLADAYWAADQFNTNVRESVKKALVRIEYSSENIAGVMLPNLNIRENIKDNEDTEGN
MGLLGLDKGGFSIQKAKERFKEALYLLVKVASLQTSFITLDEVIKVTNRRVNALEHVVIP
RFMEVQAYINQELDEMSREDFFRLKKVLDFKRKVIAEEEKETAAKEAELRAKGVKNIGGD
LLNEEADEDIVV

>TTHERM_00821870(gene)
ATGTCACAATAAATTACACCTAGTAGAATGTAGCAACCAACATTTATTCAATTATTGATA
AATAAATATCTTTCAATTAGCTCAAAATTAGTAAAATAAGTTGGCATATTAAAATAAAAA
GCATTTTTTTAACGAAATAGATGCTATTTATTCATATCAATTAATCATTTCGCAGGATTT
TTAATTATCCATTTTAATGATCTTCAACTGTTTTCTTAATTTTGAGCCAAAAAAGATATT
TTTTTGTGGGAAAAAGCTTAAAAAAGATTTTATTATCAAAAAGGACTCTTGCTATATATA
AAGCAAAGACAGTCTCTGCCAAGAAAGGTCACGAATTGCTTAAAAAGAAATGTGATGCTT
TGAAGACCAAGTTCAGAGCTATTATGATTGCTCTTTTGGAAAATAAGTTGAAGATGGATG
AAGAAATGCAAAAGGCTTTCATCTAATTGGCTGATGCTTATTGGGCTGCCGATTAATTCA
AGTAAGATTCTAAATTTATTTATTTTTTATGATAAAATATAAACTTCTTTTGATCCAACA
AAATTGGATATCATAATTTACTTAAAAAATAGCACTAATGTTAGAGAATCTGTTAAGAAG
GCACTTGTTAGAATTGAATATTCAAGTGAAAATATTGCAGGTGTTATGTTACCAAACTTA
AATATTAGAGAAAACATAAAGGACAATGAAGATACTGGTAAAAATTTCTAAAGCATTAAC
CATATTTTGGTTATTTTTATTAAGCCAAATTAGACAATTAAATAAATCAAGAAAAAGCTT
ATTTAGGATATTTCCAAAAAATCTAATTATTTTGTTTACTTATAAATATTAGAGGGTAAT
ATGGGTTTGCTTGGTCTTGATAAGGGTGGTTTCTCTATTCAAAAAGCTAAGGAAAGATTC
AAAGAAGCTCTCTACCTTCTTGTCAAAGTTGCTTCCCTTTAAGTAATTTAGAGTTAAAAT
TTGTATGACAAAAAAGAAAAATATTTTGTTTTTCTTTAAACAATTAAATAAAATTAATTT
TAAATTAAATAAATTAACTTATTTAATAAAATATACTAGACATCTTTCATAACTTTAGAT
GAAGTTATTAAGGTAACAAACAGAAGAGTCAATGCCTTAGAACACGTCGTTATTCCAAGA
TTTATGGAAGTTTAAGCTTATATTAATTAAGAACTTGACGAAATGTCAAGAGAAGATTTC
TTCAGGTAAAAAAATTAAAAAATTAATAATTAATTAACTAATTTTATAATAACTAGACTT
AAGAAGGTGTTGGATTTCAAGAGAAAGGTTATTGCTGAAGAAGAAAAAGAAACTGCAGCT
AAAGAAGCTGAACTCCGTGCTAAGGGTGTTAAGAACATTGGTGGTGATCTCCTTAACGAA
GAAGCTGATGAGGATATAGTTGTTTGA