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(R)-4-hydroxymandelate catabolic process
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GO_0019599 |
[The chemical reactions and pathways resulting in the breakdown of (R)-4-hydroxymandelate, the anion of (R)-4-hydroxymandelic acid.] |
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obsolete negative regulation of heart rate in another organism
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GO_0044555 |
[OBSOLETE. Any process that stops, prevents or reduces the frequency of heart contraction of another organism.] |
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venom-mediated reduction of heart rate
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GO_0044556 |
[A process in which an organism slows down the heart rate in another organism via the action of a venom.] |
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NLRP3 inflammasome complex assembly
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GO_0044546 |
[The aggregation, arrangement and bonding together of a set of components to form the NLRP3 inflammasome complex, occurring at the level of an individual cell.] |
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canonical inflammasome complex assembly
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GO_0140632 |
[The aggregation, arrangement and bonding together of a set of components to form an inflammasome complex.] |
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DNA topoisomerase binding
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GO_0044547 |
[Binding to a DNA topoisomerase.] |
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S100 protein binding
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GO_0044548 |
[Binding to a S100 protein. S100 is a small calcium and zinc binding protein produced in astrocytes that is implicated in Alzheimer's disease, Down Syndrome and ALS.] |
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GTP cyclohydrolase binding
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GO_0044549 |
[Binding to a GTP cyclohydrolase.] |
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L-cystine L-cysteine-lyase (deaminating)
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GO_0044540 |
[Catalysis of the reaction: L-cystine + H2O = pyruvate + NH3 + thiocysteine. Thiocysteine is also known as cysteine persulfide.] |
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carbon-sulfur lyase activity
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GO_0016846 |
[Catalysis of the elimination of hydrogen sulfide or substituted H2S.] |
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obsolete zymogen activation in another organism
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GO_0044541 |
[OBSOLETE. The chemical reactions and pathways performed by an organism resulting in the proteolytic processing of an inactive enzyme to an active form in another organism.] |
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symbiont-mediated activation of host plasminogen
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GO_0044542 |
[A process in which a symbiont initiates, promotes, or enhances the normal activation of plasminogen, the pathway resulting in the processing of inactive plasminogen to active plasmin in the host organism. This can facilitate the dissemination of the symbiont into host tissues. It can also be used to destroy complement, opsonins as well as antibacterial proteins like histones.] |
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obsolete envenomation resulting in zymogen activation in another organism
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GO_0044543 |
[OBSOLETE. The process which begins with venom being forced into an organism by the bite or sting of another organism, and ends with the proteolytic processing of an inactive enzyme to an active form.] |
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venom-mediated plasminogen activation
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GO_0044544 |
[A process in which an organism initiates, promotes, or enhances the activation of plasminogen into plasmin in another organism via the action of a venom. This process includes cleavage at an internal Arg-Val site to form an N-terminal A-chain and C-terminal B-chain held together by a disulfide bond, and can include further proteolytic cleavage events to remove the preactivation peptide.] |
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venom-mediated fibrinolysis
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GO_0044484 |
[A process in which an organism causes fibrinolysis in another organism via the action of a venom. Fibrinolysis is a process that solubilizes fibrin in the blood, chiefly by the proteolytic action of plasmin.] |
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NSL complex
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GO_0044545 |
[A histone acetyltransferase complex that catalyzes the acetylation of a histone H4 lysine residues at several positions. In human, it contains the catalytic subunit MOF, NSL1/KIAA1267, NSL2/KANSL2, NSL3/KANSL3, MCRS1, PHF20, OGT1, WDR5 and HCF1.] |
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H4 histone acetyltransferase complex
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GO_1902562 |
[A protein complex which is capable of H4 histone acetyltransferase activity.] |
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butyryl-CoA biosynthetic process from acetyl-CoA
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GO_0044579 |
[The chemical reactions and pathway resulting in the formation of butyryl-CoA, starting from acetyl-CoA.] |
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butyryl-CoA biosynthetic process
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GO_0044578 |
[The chemical reactions and pathway resulting in the formation of butyryl-CoA.] |
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acetyl-CoA metabolic process
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GO_0006084 |
[The chemical reactions and pathways involving acetyl-CoA, a derivative of coenzyme A in which the sulfhydryl group is acetylated; it is a metabolite derived from several pathways (e.g. glycolysis, fatty acid oxidation, amino-acid catabolism) and is further metabolized by the tricarboxylic acid cycle. It is a key intermediate in lipid and terpenoid biosynthesis.] |
