Mark S. Shanley scite author profile

The nucleotide sequences of the genes encoding the enzyme aspartate transcarbamoylase (ATCase) from Pseudomonas putida have been determined. Our results confirm that the P. putida ATCase is a dodecameric protein composed of two types of polypeptide chains translated coordinately from overlapping genes. The P. putida ATCase does not possess dissociable regulatory and catalytic functions but instead apparently contains the regulatory nucleotide binding site within a unique N-terminal extension of the pyrB-encoded subunit. The first gene, pyrB, is 1,005 bp long and encodes the 334-amino-acid, 36.4-kDa catalytic subunit of the enzyme. The second gene is 1,275 bp long and encodes a 424-residue polypeptide which bears significant homology to dihydroorotase (DHOase) from other organisms. Despite the homology of the overlapping gene to known DHOases, this 44.2-kDa polypeptide is not considered to be the functional product of the pyrC gene in P. putida, as DHOase activity is distinct from the ATCase complex. Moreover, the 44.2-kDa polypeptide lacks specific histidyl residues thought to be critical for DHOase enzymatic function. The pyrC-like gene (henceforth designated pyrC) does not complement Escherichia coli pyrC auxotrophs, while the cloned pyrB gene does complement pyrB auxotrophs. The proposed function for the vestigial DHOase is to maintain ATCase activity by conserving the dodecameric assembly of the native enzyme. This unique assembly of six active pyrB polypeptides coupled with six inactive pyrC polypeptides has not been seen previously for ATCase but is reminiscent of the fused trifunctional CAD enzyme of eukaryotes.

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New assay for enzymatic phosphate release: Application to aspartate transcarbamylase and other enzymes

Bencini

Shanley

Wild

et al. 1983

Analytical Biochemistry

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Relationship of Glycolytic Intermediates, Glycolytic Enzymes, and Ammonia to Glycogen Metabolism During Sporulation in the Yeast Saccharomyces cerevisiae

1979

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To identify the factors which control glycogen synthesis in Saccharomyces cerevisiae, we have studied the regulation of glycogen metabolism during sporulation, since in vivo glycogen has been reported to undergo significant changes in concentration during this process. We examined the concentration of a number of key glycolytic intermediates and enzymes in strains that sporulate at different rates and those that are deficient in sporulation. There were no significant changes found in the adenylate energy charge or cyclic AMP levels throughout sporulation.

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Purification and some properties of cytosine deaminase from Salmonella typhimurium

West

Shanley

O’Donovan

1982

Biochimica et Biophysica Acta (BBA) - General Subjects

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Mark S. Shanley

Cloning and expression of Acinetobacter calcoaceticus catBCDE genes in Pseudomonas putida and Escherichia coli

Aspartate transcarbamoylase genes of Pseudomonas putida: requirement for an inactive dihydroorotase for assembly into the dodecameric holoenzyme

New assay for enzymatic phosphate release: Application to aspartate transcarbamylase and other enzymes

Relationship of Glycolytic Intermediates, Glycolytic Enzymes, and Ammonia to Glycogen Metabolism During Sporulation in the Yeast Saccharomyces cerevisiae

Purification and some properties of cytosine deaminase from Salmonella typhimurium

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