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Literature DB >> 369611

An essential arginyl residue in yeast hexokinase.

Abstract

The inactivation of yeast hexokinase A (ATP:D-hexose 6-phosphotransferase, EC 2.7.1.1) by phenylglyoxal obeys pseudo first-order kinetics. Formation of a reversible enzyme-reagent complex prior to modification is suggested by the observed saturation kinetics. Loss of activity correlates with the incorporation of 1 mol of [14C]phenylglyoxal per mol 50 000 dalton subunit. No significant conformational change occurs concomitantly. Inactivation is attributable to modification of an arginyl residue. The pattern of protection by substrates and analogs favors an interaction of this essential residue with the terminal phosphoryl group of ATP or glucose 6-phosphate.

Entities: Chemical Gene Species

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Year: 1979 PMID： 369611 DOI： 10.1016/0005-2744(79)90033-0

Source DB: PubMed Journal: Biochim Biophys Acta ISSN： 0006-3002

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Cited

7 in total

1. Conformational changes and the role of metals in the mechanism of type II dehydroquinase from Aspergillus nidulans.

Authors: J R Bottomley; A R Hawkins; C Kleanthous
Journal: Biochem J Date: 1996-10-01 Impact factor: 3.857

2. Essential arginine residues in the nitrate uptake system from corn seedling roots.

Authors: M Ni; L Beevers
Journal: Plant Physiol Date: 1990-10 Impact factor: 8.340

3. Nitrate absorption by corn roots : inhibition by phenylglyoxal.

Authors: K S Dhugga; J G Waines; R T Leonard
Journal: Plant Physiol Date: 1988-03 Impact factor: 8.340

4. Argininosuccinate synthetase: essential role of cysteine and arginine residues in relation to structure and mechanism of ATP activation.

Authors: S Kumar; J Lennane; S Ratner
Journal: Proc Natl Acad Sci U S A Date: 1985-10 Impact factor: 11.205

An essential arginyl residue in yeast hexokinase.

1. Conformational changes and the role of metals in the mechanism of type II dehydroquinase from Aspergillus nidulans.

2. Essential arginine residues in the nitrate uptake system from corn seedling roots.

3. Nitrate absorption by corn roots : inhibition by phenylglyoxal.

4. Argininosuccinate synthetase: essential role of cysteine and arginine residues in relation to structure and mechanism of ATP activation.

5. Isolation and characterization of mutations in the HXK2 gene of Saccharomyces cerevisiae.

6. Irreversible inactivation of red cell chloride exchange with phenylglyoxal, and arginine-specific reagent.

7. Selective phenylglyoxalation of functionally essential arginyl residues in the erythrocyte anion transport protein.