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ATPase-coupled monoatomic cation transmembrane transporter activity
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GO_0019829 |
[Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + cation(out) = ADP + phosphate + cation(in).] |
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ATPase-coupled transmembrane transporter activity
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GO_0042626 |
[Primary active transporter of a solute across a membrane, via the reaction: ATP + H2O = ADP + phosphate, to directly drive the transport of a substance across a membrane. The transport protein may be transiently phosphorylated (P-type transporters), or not (ABC-type transporters and other families of transporters). Primary active transport occurs up the solute's concentration gradient and is driven by a primary energy source.] |
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P2 peroxisome
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GO_0019820 |
[A subform of peroxisome that corresponds to an intermediate in a peroxisome assembly pathway, which operates by conversion of peroxisomal subforms in the direction P1, P2 -> P3 -> P4 -> P5 -> P6. P2 peroxisomes are distinguished from the other subforms on the bases of buoyant density and protein content; they are the least dense of the subforms observed.] |
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P3 peroxisome
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GO_0019821 |
[A subform of peroxisome that corresponds to an intermediate in a peroxisome assembly pathway, which operates by conversion of peroxisomal subforms in the direction P1, P2 -> P3 -> P4 -> P5 -> P6. P3 peroxisomes are formed by fusion of P1 and P2 peroxisomes, and are distinguished from the other subforms on the bases of buoyant density and protein content.] |
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P4 peroxisome
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GO_0019822 |
[A subform of peroxisome that corresponds to an intermediate in a peroxisome assembly pathway, which operates by conversion of peroxisomal subforms in the direction P1, P2 -> P3 -> P4 -> P5 -> P6. P4 peroxisomes are distinguished from the other subforms on the bases of buoyant density and protein content.] |
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P5 peroxisome
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GO_0019823 |
[A subform of peroxisome that corresponds to an intermediate in a peroxisome assembly pathway, which operates by conversion of peroxisomal subforms in the direction P1, P2 -> P3 -> P4 -> P5 -> P6. P5 peroxisomes are distinguished from the other subforms on the bases of buoyant density and protein content.] |
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P6 peroxisome
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GO_0019824 |
[A subform of peroxisome that corresponds to an intermediate in a peroxisome assembly pathway, which operates by conversion of peroxisomal subforms in the direction P1, P2 -> P3 -> P4 -> P5 -> P6. P6 peroxisomes are distinguished from the other subforms on the bases of buoyant density and protein content, and are equivalent to mature peroxisomes.] |
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oxygen binding
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GO_0019825 |
[Binding to oxygen (O2).] |
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small molecule binding
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GO_0036094 |
[Binding to a small molecule, any low molecular weight, monomeric, non-encoded molecule.] |
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oxygen sensor activity
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GO_0019826 |
[Binding to and responding, e.g. by conformational change, to changes in the cellular level of oxygen (O2).] |
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molecular sensor activity
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GO_0140299 |
[Binding to a molecule and eliciting a change in the protein's activity in response to the intracellular level of that molecule.] |
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stem cell population maintenance
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GO_0019827 |
[The process by which an organism or tissue maintains a population of stem cells of a single type. This can be achieved by a number of mechanisms: stem cell asymmetric division maintains stem cell numbers; stem cell symmetric division increases them; maintenance of a stem cell niche maintains the conditions for commitment to the stem cell fate for some types of stem cell; stem cells may arise de novo from other cell types.] |
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maintenance of cell number
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GO_0098727 |
[Any process by which the numbers of cells of a particular type or in a tissue are maintained.] |
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multicellular organismal process
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GO_0032501 |
[Any biological process, occurring at the level of a multicellular organism, pertinent to its function.] |
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aspartic-type endopeptidase inhibitor activity
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GO_0019828 |
[Binds to and stops, prevents or reduces the activity of aspartic-type endopeptidases.] |
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endopeptidase inhibitor activity
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GO_0004866 |
[Binds to and stops, prevents or reduces the activity of an endopeptidase.] |
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obsolete cadmium sensitivity/resistance
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GO_0019830 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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obsolete chromate sensitivity/resistance
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GO_0019831 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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obsolete mercuric sensitivity/resistance
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GO_0019832 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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obsolete ice nucleation activity
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GO_0019833 |
[OBSOLETE. Catalysis of the formation of ice crystals in extracellular fluid at relatively high temperatures (up to -2 degrees C) to protect the organism from damage by intracellular ice formation. Ice nucleation proteins function by binding an ice crystal and then encouraging it to form larger crystals. Ice nucleation is a chemical process but these proteins can positively regulate it. There are two different uses of ice nucleation proteins: bacteria secrete them extracellularly to cause a host organism's cells to freeze and die, and fish use them to protect themselves from intracellular ice formation.] |
