Ronald Minter scite author profile

Ronald Minter

2Publications

14Citation Statements Received

12Citation Statements Given

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Indiana University, Indiana University – Purdue University Indianapolis, United States Department of Veterans Affairs

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Formation of the 37–Kd Protein–Acetaldehyde Adduct in Primary Cultured Rat Hepatocytes Exposed to Alcohol

Lin

Fillenwarth

Minter

et al. 1990

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We have previously reported that a 37-kD liver protein formed an adduct with acetaldehyde in vivo when rats were fed alcohol chronically. To understand the mechanism of the formation of this protein-acetaldehyde adduct, rat hepatocytes in primary culture were treated with ethanol in vitro for several days. When cultured in hormone-enriched and trace metal-enriched Waymouth's medium, alcohol dehydrogenase activities in hepatocytes decreased only about 30% during 6 days of culture. At the end of the specified time, protein extracts of hepatocytes were immunotransblotted with rabbit immunoglobulin G that recognized acetaldehyde adduct as an epitope. The 37-kD protein-acetaldehyde adduct band could be detected within 3 days in cells that had been treated with alcohol at a steady-state concentration as low as 5 mmol/L. Although the maximal intensity was obtained at approximately 10 to 40 mmol/L ethanol, addition of cyanamide (an inhibitor of aldehyde dehydrogenase) further increased the intensity of this protein-acetaldehyde adduct band by more than twofold. A good correlation existed between acetaldehyde concentration in the medium and the intensity of the 37-kD protein-acetaldehyde adduct band. Formation of the 37-kD liver protein-acetaldehyde adduct is thus dependent on acetaldehyde, and the 37-kD protein is apparently unusually susceptible to chemical modification by acetaldehyde.

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An improved method for the preparation of [14C]pyridoxal 5′-phosphate

Lui

Minter

Lumeng

et al. 1981

Analytical Biochemistry

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Ronald Minter

Formation of the 37–Kd Protein–Acetaldehyde Adduct in Primary Cultured Rat Hepatocytes Exposed to Alcohol

An improved method for the preparation of [14C]pyridoxal 5′-phosphate

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