Genes in this set(6):
Std. name | Sys. name | SGDID |
PPA1 | YHR026W | S000001068 |
VMA10 | YHR039C-A | S000002100 |
VMA7 | YGR020C | S000003252 |
CAX4 | YGR036C | S000003268 |
AEP2 | YMR282C | S000004895 |
BUD25 | YER014C-A | S000007590 |
Enriched GO terms in this set:
GO:0003674 (molecular_function)
"Elemental activities, such as catalysis or binding, describing the actions of a gene product at the molecular level. A given gene product may exhibit one or more molecular functions."
GO:0005215 (transporter activity)
"Enables the directed movement of substances (such as macromolecules, small molecules, ions) into, out of, within or between cells."
GO:0022857 (transmembrane transporter activity)
"Catalysis of the transfer of a substance from one side of a membrane to the other."
GO:0022891 (substrate-specific transmembrane transporter activity)
"Catalysis of the transfer of a specific substance or group of related substances from one side of a membrane to the other."
GO:0015075 (ion transmembrane transporter activity)
"Catalysis of the transfer of an ion from one side of a membrane to the other."
GO:0008324 (cation transmembrane transporter activity)
"Catalysis of the transfer of cation from one side of the membrane to the other."
GO:0022890 (inorganic cation transmembrane transporter activity)
"Catalysis of the transfer of inorganic cations from one side of a membrane to the other. Inorganic cations are atoms or small molecules with a positive charge that do not contain carbon in covalent linkage."
GO:0015077 (monovalent inorganic cation transmembrane transporter activity)
"Catalysis of the transfer of a inorganic cations with a valency of one from one side of a membrane to the other. Inorganic cations are atoms or small molecules with a positive charge that do not contain carbon in covalent linkage."
GO:0015078 (hydrogen ion transmembrane transporter activity) [p = 0.004 (3/14: PPA1; VMA10; VMA7)]
"Catalysis of the transfer of hydrogen ions from one side of a membrane to the other."
GO:0046961 (hydrogen ion transporting ATPase activity, rotational mechanism) [p = 0.004 (3/13: PPA1; VMA10; VMA7)]
"Catalysis of the transfer of a solute or solutes 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."
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GO:0005575 (cellular_component)
"The part of a cell or its extracellular environment in which a gene product is located. A gene product may be located in one or more parts of a cell and its location may be as specific as a particular macromolecular complex, that is, a stable, persistent association of macromolecules that function together."
GO:0044464 (cell part)
"Any constituent part of a cell, the basic structural and functional unit of all organisms."
GO:0044425 (membrane part)
"Any constituent part of a membrane, a double layer of lipid molecules that encloses all cells, and, in eukaryotes, many organelles; may be a single or double lipid bilayer; also includes associated proteins."
GO:0016469 (proton-transporting two-sector ATPase complex)
"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:0033176 (proton-transporting V-type ATPase complex) [p = 0.004 (3/14: PPA1; VMA10; VMA7)]
"A proton-transporting two-sector ATPase complex that couples ATP hydrolysis to the transport of protons across a concentration gradient. The resulting transmembrane electrochemical potential of H+ is used to drive a variety of (i) secondary active transport systems via H+-dependent symporters and antiporters and (ii) channel-mediated transport systems. The complex comprises a membrane sector (V0) that carries out proton transport and a cytoplasmic compartment sector (V1) that catalyzes ATP hydrolysis. V-type ATPases are found in the membranes of organelles such as vacuoles, endosomes, and lysosomes, and in the plasma membrane."
GO:0016471 (vacuolar proton-transporting V-type ATPase complex) [p = 0.004 (3/14: PPA1; VMA10; VMA7)]
"A proton-transporting two-sector ATPase complex found in the vacuolar membrane, where it acts as a proton pump to mediate acidification of the vacuolar lumen."
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