Protein Domain : IPR000131

Type:  Family Name:  ATPase, F1 complex, gamma subunit
Description:  Transmembrane ATPases are membrane-bound enzyme complexes/ion transporters that use ATP hydrolysis to drive the transport of protons across a membrane. Some transmembrane ATPases also work in reverse, harnessing the energy from a proton gradient, using the flux of ions across the membrane via the ATPase proton channel to drive the synthesis of ATP. There are several different types of transmembrane ATPases, which can differ in function (ATP hydrolysis and/or synthesis), structure (e.g., F-, V- and A-ATPases, which contain rotary motors) and in the type of ions they transport [, ]. The different types include:F-ATPases (F1F0-ATPases), which are found in mitochondria, chloroplasts and bacterial plasma membranes where they are the prime producers of ATP, using the proton gradient generated by oxidative phosphorylation (mitochondria) or photosynthesis (chloroplasts).V-ATPases (V1V0-ATPases), which are primarily found in eukaryotic and they function as proton pumps that acidify intracellular compartments and, in some cases, transport protons across the plasma membrane []. They are also found in bacteria [].A-ATPases (A1A0-ATPases), which are found in Archaea and function like F-ATPases, though with respect to their structure and some inhibitor responses, A-ATPases are more closely related to the V-ATPases [, ].P-ATPases (E1E2-ATPases), which are found in bacteria and in eukaryotic plasma membranes and organelles, and function to transport a variety of different ions across membranes.E-ATPases, which are cell-surface enzymes that hydrolyse a range of NTPs, including extracellular ATP.F-ATPases (also known as F1F0-ATPase, or H(+)-transporting two-sector ATPase) () are composed of two linked complexes: the F1 ATPase complex is the catalytic core and is composed of 5 subunits (alpha, beta, gamma, delta, epsilon), while the F0 ATPase complex is the membrane-embedded proton channel that is composed of at least 3 subunits (A-C), nine in mitochondria (A-G, F6, F8). Both the F1 and F0 complexes are rotary motors that are coupled back-to-back. In the F1 complex, the central gamma subunit forms the rotor inside the cylinder made of the alpha(3)beta(3) subunits, while in the F0 complex, the ring-shaped C subunits forms the rotor. The two rotors rotate in opposite directions, but the F0 rotor is usually stronger, using the force from the proton gradient to push the F1 rotor in reverse in order to drive ATP synthesis []. These ATPases can also work in reverse in bacteria, hydrolysing ATP to create a proton gradient.The ATPase F1 complex gamma subunit forms the central shaft that connects the F0 rotary motor to the F1 catalytic core. The gamma subunit functions as a rotary motor inside the cylinder formed by the alpha(3)beta(3) subunits in the F1 complex []. The best-conserved region of the gamma subunit is its C terminus, which seems to be essential for assembly and catalysis. Short Name:  ATPase_F1-cplx_gsu
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1 Child Features

DB identifier Type Name
IPR017709 Family Alternate F1F0 ATPase, F1 subunit gamma

0 Contains

5 Cross Referencess

Identifier
PTHR11693
PF00231
PR00126
TIGR01146
MF_00815

0 Found In

4 GO Annotations

GO Term Gene Name
GO:0046933 IPR000131
GO:0046961 IPR000131
GO:0015986 IPR000131
GO:0045261 IPR000131

4 Ontology Annotations

GO Term Gene Name
GO:0046933 IPR000131
GO:0046961 IPR000131
GO:0015986 IPR000131
GO:0045261 IPR000131

0 Parent Features

3256 Proteins

DB identifier UniProt Accession Secondary Identifier Organism Name Length
139961 D8QN73 PAC:15407295 Selaginella moellendorffii 273  
73428 D8QQG6 PAC:15406826 Selaginella moellendorffii 372  
76966 D8QSQ3 PAC:15419588 Selaginella moellendorffii 452  
evm.TU.contig_46709.1 PAC:16432324 Carica papaya 228  
evm.model.supercontig_12.299 PAC:16406857 Carica papaya 376  
evm.model.supercontig_152.16 PAC:16409598 Carica papaya 301  
evm.model.supercontig_25.176 PAC:16414774 Carica papaya 273  
29842.m003589 B9RXK8 PAC:16810721 Ricinus communis 376  
29842.m003591 B9RXL0 PAC:16810723 Ricinus communis 1399  
29941.m000218 B9SZS3 PAC:16814274 Ricinus communis 326  
30027.m000853 B9SIH6 PAC:16815946 Ricinus communis 381  
Cucsa.320960.1 PAC:16977423 Cucumis sativus 1144  
Cucsa.045230.1 A0A0A0KL78 PAC:16953331 Cucumis sativus 371  
Cucsa.085810.1 A0A0A0LS08 PAC:16956702 Cucumis sativus 373  
Cucsa.113200.1 PAC:16960291 Cucumis sativus 322  
Cucsa.113200.2 A0A0A0LQ90 PAC:16960292 Cucumis sativus 322  
orange1.1g017613m A0A067GSG0 PAC:18112038 Citrus sinensis 368  
orange1.1g000732m A0A067DUL8 PAC:18110285 Citrus sinensis 1325  
orange1.1g014925m A0A067F9F0 PAC:18108693 Citrus sinensis 416  
orange1.1g017130m A0A067FHT7 PAC:18108694 Citrus sinensis 376  
orange1.1g040116m A0A067FED3 PAC:18133588 Citrus sinensis 298  
AT4G04640.1 Q01908 PAC:19644616 Arabidopsis thaliana 373  
AT1G15700.1 Q01909 PAC:19655301 Arabidopsis thaliana 386  
AT2G33040.1 Q96250 PAC:19639357 Arabidopsis thaliana 325  
Thhalv10016929m V4LMV5 PAC:20180885 Eutrema salsugineum 325  
Thhalv10029134m V4KJU8 PAC:20196995 Eutrema salsugineum 415  
Thhalv10007892m V4MTR9 PAC:20188517 Eutrema salsugineum 386  
Ciclev10010907m V4SWK6 PAC:20798692 Citrus clementina 1424  
Ciclev10021789m PAC:20811223 Citrus clementina 258  
Ciclev10021456m PAC:20811222 Citrus clementina 293  

8 Publications

First Author Title Year Journal Volume Pages PubMed ID
            11309608
            15473999
            15078220
            9741106
            16154570
            20450191
            18937357
            1385979