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| Field | Value |
|---|---|
| Namespace | Cellular component |
| Short description | Mitochondrial proton-transporting ATP synthase complex, catalytic core F(1) |
| Full defintion | The catalytic sector of the mitochondrial hydrogen-transporting ATP synthase; it comprises the catalytic core and central stalk, and is peripherally associated with the mitochondrial inner membrane when the entire ATP synthase is assembled. |
| Subterm of |
The relationship of GO:0000275 with other GO terms.
| Relationship type | GO terms |
|---|---|
| Is a | |
| Regulates | n.a. |
| Part of | |
| Positively regulates | n.a. |
| Negatively regulates | n.a. |
A force layout showing the ancestor tree for GO:0000275, and its immediate children. If you wish to explore the tree dynamically, please use the GO Explorer.
This table contains additional metadata associated with the GO entry's definition field.
| Field | Value |
|---|---|
| GOC | mtg_sensu |
| PMID | Insights into ATP synthase assembly and function through the molecular genetic manipulation of subunits of the yeast mitochondrial enzyme complex. Biochim Biophys Acta. 2000 May 31; 1458 (2-3): 428–42.PMID: 10838056 Development of an increasingly detailed understanding of the eucaryotic mitochondrial ATP synthase requires a detailed knowledge of the stoichiometry, structure and function of F(0) sector subunits in the contexts of the proton channel and the stator stalk. Still to be resolved are the precise locations and roles of other supernumerary subunits present in mitochondrial ATP synthase complexes, but not found in the bacterial or chloroplast enzymes. The highly developed system of molecular genetic manipulation available in the yeast Saccharomyces cerevisiae, a unicellular eucaryote, permits testing for gene function based on the effects of gene disruption or deletion. In addition, the genes encoding ATP synthase subunits can be manipulated to introduce specific amino acids at desired positions within a subunit, or to add epitope or affinity tags at the C-terminus, enabling questions of stoichiometry, structure and function to be addressed. Newly emerging technologies, such as fusions of subunits with GFP are being applied to probe the dynamic interactions within mitochondrial ATP synthase, between ATP synthase complexes, and between ATP synthase and other mitochondrial enzyme complexes. |
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 .
| Transcript | Name | Description | GO terms | GO count |
|---|---|---|---|---|
| – | PREDICTED: 50S ribosomal protein L19, chloroplastic-like [Cicer arietinum] gi|502123499|ref|XP_004498137.1| | 4 | ||
| – | ATP synthase subunit beta; TAIR: AT5G08680.1 ATP synthase alpha/beta family protein; Swiss-Prot: sp|P17614|ATPBM_NICPL ATP synthase subunit beta, mitochondrial; TrEMBL-Plants: tr|A0A0L9TFH9|A0A0L9TFH9_PHAAN ATP synthase subunit beta; Found in the gene: LotjaGi5g1v0332700 | 4 | ||
| – | 50S ribosomal protein L19, putative; TAIR: AT4G11630.1 Ribosomal protein L19 family protein; Swiss-Prot: sp|P82413|RK19_SPIOL 50S ribosomal protein L19, chloroplastic; TrEMBL-Plants: tr|I3SL49|I3SL49_LOTJA Uncharacterized protein; Found in the gene: LotjaGi6g1v0144300 | 4 |
A list of co-occurring GO terms within the L. japonicus gene space:
| GO term | Namespace | Name | Observations | Saturation (%) |
|---|---|---|---|---|
| Molecular function | ATPase activity | 1 | 33.33 |