Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Enzyme
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Query: EC:1.1.1.1 (
alcohol dehydrogenase
)
9,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The release of Zn2+ from gamma-irradiated
yeast alcohol dehydrogenase
has been measured using atomic absorption spectrometry. Radiolysis is accompanied by release of Zn2+ at a rate which is dependent on the nature of the free radicals available for reaction. Hydroxyl radicals and hydrogen atoms readily cause zinc release with G values of 0.13 and 0.11 (/100 eV) respectively, whereas hydrated electrons are considered not to contribute to the demetallization process. The radiolytically generated radical anions I2-., (
SCN
)2-. and Br2-. enhance the rate of zinc release. Evidence is presented that the enzyme is demetallized as a result of free radical reactions at cysteine and histidine residues.
...
PMID:Zinc release from irradiated yeast alcohol dehydrogenase. 349 96
The synergism between coenzyme and anion binding to liver
alcohol dehydrogenase
has been examined by equilibrium measurements and transient-state kinetic methods to characterize electrostatic interactions of coenzymes with ligands which are bound to the catalytic zinc ion of the enzyme subunit. Inorganic anions typically exhibit an at least 200-fold higher affinity for the general anion-binding site than for catalytic zinc on complex formation with free enzyme. Acetate and
SCN
- interact more strongly with catalytic zinc in the enzyme X NAD+ complex than with the general anion-binding site in free enzyme. CN- shows no significant affinity for the general anion-binding site, but combines to catalytic zinc in the absence as well as the presence of coenzymes. Coordination of CN- to catalytic zinc weakens the binding of NADH by a factor of 50, and tightens the binding of NAD+ to approximately the same extent through interactions which do not include any contributions from covalent adduct formation between CN- and NAD+. These observations provide unambiguous information about the magnitude of electrostatic field effects of coenzymes on anion (e.g. hydroxyl ion) binding to catalytic zinc. They lead to the important inference that coenzyme binding must be strongly affected by ionization of zinc-bound water irrespective of the actual acidity of the latter group. It is concluded on such grounds that the much debated pH dependence of coenzyme binding to liver
alcohol dehydrogenase
must derive from ionization of zinc-bound water. The assumption that such is not the case leads to the inference that there is no detectable effect of ionization of zinc-bound water on coenzyme binding over the pH range 6-12, a possibility which is definitely excluded by the present results.
...
PMID:Electrostatic field effects of coenzymes on ligand binding to catalytic zinc in liver alcohol dehydrogenase. 636 76
