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carbon fixation
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GO_0015977 |
[A metabolic process in which carbon (usually derived from carbon dioxide) is incorporated into organic compounds (usually carbohydrates).] |
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GO_0019644
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GO_0019644 |
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anaerobic electron transport chain
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GO_0019645 |
[A process in which a series of electron carriers operate together to transfer electrons from donors such as NADH and FADH2 to any of several different terminal electron acceptors other than oxygen to generate a transmembrane electrochemical gradient.] |
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respiratory electron transport chain
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GO_0022904 |
[A process in which a series of electron carriers operate together to transfer electrons from donors such as NADH and FADH2 to any of several different terminal electron acceptors to generate a transmembrane electrochemical gradient.] |
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aerobic electron transport chain
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GO_0019646 |
[A process in which a series of electron carriers operate together to transfer electrons from donors such as NADH and FADH2 to oxygen to generate a transmembrane electrochemical gradient.] |
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aerobic respiration
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GO_0009060 |
[The enzymatic release of energy from inorganic and organic compounds (especially carbohydrates and fats) which requires oxygen as the terminal electron acceptor.] |
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formaldehyde assimilation via ribulose monophosphate cycle
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GO_0019647 |
[The pathway in which formaldehyde is used as a carbon source in the ribulose monophosphate cycle. Methanotrophic bacteria produce formaldehyde from the oxidation of methane and methanol, and then assimilate it via the ribulose monophosphate cycle to form intermediates of the central metabolic routes that are subsequently used for biosynthesis of cell material. Three molecules of formaldehyde are assimilated, forming a three-carbon intermediate of central metabolism; in this pathway, all cellular carbon is assimilated at the oxidation level of formaldehyde.] |
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formaldehyde assimilation
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GO_0019649 |
[The pathways in which formaldehyde is processed and used as a carbon source for the cell.] |
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formaldehyde assimilation via xylulose monophosphate cycle
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GO_0019648 |
[The pathway in which formaldehyde is used as a carbon source in the xylulose monophosphate cycle. Methylotrophic yeasts, but not bacteria, utilize the xylulose monophosphate cycle to fix formaldehyde and convert it into metabolically useful organic compounds.] |
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xylulose 5-phosphate metabolic process
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GO_0051167 |
[The chemical reactions and pathways involving xylulose 5-phosphate, a derivative of the ketopentose xylulose phosphorylated at the 5 carbon; it is an intermediate in the pentose phosphate pathway.] |
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formaldehyde metabolic process
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GO_0046292 |
[The chemical reactions and pathways involving formaldehyde (methanal, H2C=O), a colorless liquid or gas with a pungent odor, commonly used as a fixative or an antibacterial agent.] |
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insulin-like growth factor receptor activity
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GO_0005010 |
[Combining with insulin-like growth factor receptor ligand and transmitting the signal across the plasma membrane to initiate a change in cell activity.] |
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macrophage colony-stimulating factor receptor activity
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GO_0005011 |
[Combining with macrophage colony-stimulating factor (M-CSF) receptor ligand and transmitting the signal from one side of the membrane to the other to initiate a change in cell activity by catalysis of the reaction: ATP + a protein-L-tyrosine = ADP + a protein-L-tyrosine phosphate.] |
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obsolete Neu/ErbB-2 receptor activity
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GO_0005012 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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obsolete neurotrophin TRK receptor activity
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GO_0005013 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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obsolete neurotrophin TRKA receptor activity
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GO_0005014 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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obsolete neurotrophin TRKB receptor activity
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GO_0005015 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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nuclear pore linkers
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GO_0044612 |
[A substructure of the nuclear pore complex (NPC) that serves to connect members of the central transport channel (composed of FG-nucleoporins) to the core scaffold (composed of the inner and outer NPC rings). In S. cerevisiae, the linkers are Nic96p and Nup82p. In vertebrates, they are Nup93 and Nup88. Components are arranged in 8-fold symmetrical 'spokes' around the central transport channel. Both linkers can be isolated in association with specific FG-nucleoporins, complexes that are sometimes referred to as the Nic96 complex (Nic96p-Nsp1p-Nup49p-Nup57p) and the Nup82 complex (Nup82p-Nup116p-Nup159p-Gle2p).] |
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obsolete neurotrophin TRKC receptor activity
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GO_0005016 |
[OBSOLETE. (Was not defined before being made obsolete).] |
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nuclear pore central transport channel
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GO_0044613 |
[The central substructure of the nuclear pore complex (NPC), through which nucleocytoplasmic transport of RNAs, proteins and small molecules occurs. The central transport channel is filled with FG-nucleoporins, which form a selective barrier and provide a series of binding sites for transporter proteins. Characterized S. cerevisiae FG-nucleoporins include Nup159p, Nup145Np, Nup116p, Nup100p, Nsp1p, Nup57p, Nup49p, Nup42p, Nup53p, Nup59p/Asm4p, Nup60p and Nup1. Characterized vertebrate FG-nucleoporins include Nup214, Nup98, Nup62, Nup54, Nup58/45, NLP1, and Nup153.] |
