Abstract
Glyceraldehyde-3-phosphate dehydrogenase (EC 1.2.2.12) (GAPDH) mRNA levels, protein, and enzymatic activity increase in 3T3-F442A adipocytes after exposure to physiological concentrations of insulin (Alexander, M., Curtis, G., Avruch, J., and Goodman, H. (1985) J. Biol. Chem. 260, 11978-11985). In order to understand the mechanism of this regulation, we have isolated and sequenced 5.4 kilobase pairs of a 12-kilobase pair human genomic clone encoding a functional GAPDH gene. The gene consists of 9 exons and 8 introns with eukaryotic signals necessary for the transcription and translation of GAPDH mRNA. The exon sequence confirms previously published cDNA sequences for human GAPDH in muscle, liver, and erythrocytes. The organization of the human and the unique chicken GAPDH genes is strikingly similar. Although chicken exons VIII-XI have been fused into human exon 8, introns which separate exons encoding the NAD binding, catalytic, and helical domains of the GAPDH protein have been retained. Stable transfection of rodent cells with the intact human GAPDH gene resulted in the expression of a correctly initiated human GAPDH mRNA and an enzymatically active human GAPDH polypeptide. Thus, the gene contains a functional promoter and intact coding sequences. Although many processed GAPDH pseudogenes and GAPDH-like sequences are present in the human genome, Southern blot analysis of human genomic DNA using a probe derived from the 3'-untranslated region of the GAPDH gene detected only two genes, a 10-copy processed pseudogene and a single copy of the isolated gene. In contrast, a probe derived from an intron segment of the isolated gene detected only a single copy of the GAPDH gene. Collectively, these findings strongly suggest that the human genome encodes a single functional GAPDH gene.
Highlights
From the Departmentof Medicine and Howard Hughes Medical Institute Laboratories, Harvard Medical School and the Medical Services and Diabetes Unit, Massachusetts General Hospital, Boston, Massachusetts02114
1.2.2.12)(GAPDH) mRNA levels, protein, and enzy- regulated by several glycolytic metabolites and by the associmatic activity increase in 3T3-F442adAipocytes after ation of the enzyme with cell membranes [4,5]
As current concepts suggest that alterations in gene transcription may result from a direct interaction of transunique chicken GAPDH genes is strikingly similar. acting factors with cis-acting sequences in hormone-regulated
Summary
This report describes the isolation and characterization of a humangenomic DNAsegment which contained afunctional GAPDH gene. The isolated gene satisfied our screening criteria insofar as it is the only DNA segment in the human genome that contained both introns andsequences similar to the extreme 3”untranslated region of the expressed human. Lunes A and 23, Southern blot analysis of human genomic DNA performed with a probe derived from intron B of the isolated gene detected one copy of the GAPDH gene. 1-7, and Table I) are presented in miniprint at the end of this paper. Miniprint is read with the aid of a standard magnifying glass.
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