37665 ATP-synt_F superfamily
Thalassiosira pseudonana

Chromosome Product Transcript Start End Strand Short Name
37665 chr_15 ATP-synt_F superfamily 811749 812276 - ATP-synt_F superfamily
NCBI ID Ensembl Genomes exon ID
7443981 Thaps37665.3, Thaps37665.2, Thaps37665.1
Expression Profile Conditional Changes Cluster Dendrogram
Thaps_hclust_0078
Normalized Mean Residue
Thaps_bicluster_0271
0.35
vATP-synt_E
0.9236
hypothetical protein
0.9075
hypothetical protein
0.9069
hypothetical protein
0.9024
(VAT1) V-ATPase_V1_B
0.8976
hypothetical protein
0.8883
MFS_1
0.8878
Synaptobrevin
0.8873
hypothetical protein
0.8845
hypothetical protein
0.8844
Name CD Accession Definition Superfamily Bitscore E-Value From - To Hit Type PSSM ID
ATP-synt_F superfamily ATP synthase (F/14-kDa) subunit; This family includes 14-kDa subunit from vATPases, which is in the... - 141.119 5.00E-44 1 - 107 superfamily 260544
T. pseudonana P. tricornutum P. tricornutum DiatomCyc F. cylindrus Pseudo-nitzschia multiseries E. huxleyi C. reinhardtii A. thaliana P. sojae
Not available PHATRDRAFT_31133 PHATRDRAFT_31133 228005 241045 352209 Cre10.g446550.t1.2 AT4G02620.1 297626
KEGG description KEGG Pathway
Phagosome map04145
GO:0015986 GO:0016469 GO:0046933 GO:0046961 GO:0003936 -

ATP synthesis coupled proton transport

Details: 
The transport of protons across a membrane to generate an electrochemical gradient (proton-motive force) that powers ATP synthesis.
GO Category: 
BP

proton-transporting two-sector ATPase complex

Details: 
A large protein complex that catalyzes the synthesis or hydrolysis of ATP by a rotational mechanism, coupled to the transport of protons across a membrane. The complex comprises a membrane sector (F0, V0, or A0) that carries out proton transport and a cytoplasmic compartment sector (F1, V1, or A1) that catalyzes ATP synthesis or hydrolysis. Two major types have been characterized: V-type ATPases couple ATP hydrolysis to the transport of protons across a concentration gradient, whereas F-type ATPases, also known as ATP synthases, normally run in the reverse direction to utilize energy from a proton concentration or electrochemical gradient to synthesize ATP. A third type, A-type ATPases have been found in archaea, and are closely related to eukaryotic V-type ATPases but are reversible.
GO Category: 
CC

proton-transporting ATP synthase activity, rotational mechanism

Details: 
Catalysis of the transfer of protons from one side of a membrane to the other according to the reaction: ADP + H2O + phosphate + H+(in) = ATP + H+(out), by a rotational mechanism.
GO Category: 
MF

proton-transporting ATPase activity, rotational mechanism

Details: 
Catalysis of the transfer of protons from one side of a membrane to the other according to the reaction: ATP + H2O + H+(in) = ADP + phosphate + H+(out), by a rotational mechanism.
GO Category: 
MF

NA

Details: 
NA
GO Category: 
NA
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