Coenzyme A-synthesizing protein complex of Saccharomyces cerevisiae.

The coenzyme A-synthesizing protein complex (CoA-SPC) is a multienzyme complex of Saccharomyces cerevisiae (Bakers' yeast), which has a molecular weight in excess of 200,000 as determined by Sephadex G-200 column chromatography. This multienzyme complex, which is insoluble in the crude yeast cell lysate, has been purified 229-fold. A cellular component of the yeast cell lysate, referred to as t-Factor, with a molecular weight of 400-1000 and chloride ion are involved in the solubilization of CoA-SPC.

Regulation of fatty acid synthetase activity. The 4'-phosphopantetheine hydrolase of rat liver.

The 4'-phosphopantetheine hydrolase of rat liver, partially purified by ammonium sulfate precipitation, catalyzes the hydrolysis of the prosthetic group 4'-phosphopantetheine from the holo-fatty acid synthetase. The two products of the action of this enzyme, 4'-phosphopantetheine and apo-fatty acid synthetase, were isolated by DEAE-cellulose chromatography and by chromatography on a Sepharose epsilon-aminocaproyl pantetheine column, respectively. The resultant apo-fatty acid synthetase was quantitated by immunoprecipitation and it was also converted to the holoprotein with a crude preparation of rat liver 4'-phosphopantetheine transferase.

Changes in the collagenolytic activity released by primary VX-2 carcinoma cultures as a function of tumor growth.

Serum-free media of minced tissue cultures of VX-2 rabbit carcinoma contained a specific collagenolytic activity capable of releasing soluble radioactive peptides from [14C]-labeled collagen fibrils. It was also capable of reducing the viscosity of acid-soluble collagen solutions by cleaving the tropocollagen (TC) molecules primarily at one site to TCA (75%) and TCB (25%) fragments. Three chromatographic fractions were separated by gel filtration: F1, (MW 85-110,000) present in larger amounts in early cultures of younger tumor tissue; F2, (MW-35-40,000) the major component with maximum production in the day 3 media of younger and advanced tumor tissues; F3, (MW 18-22,000) the minor component.

Mechanism for the incorporation of S-(1,2,3,4-tetrahydro-2-hydroxy-1-naphthyl)-L-cysteine into protein.

Evidence is presented which indicates that S-(1,2,3,4-tetrahydro-2-hydroxy-1-naphthyl)-L-cysteine (THN-cysteine), formed by the reaction of 1,2-epoxy-THN with cysteine, can be incorporated into protein; The position of incorporation of THN-cysteine into protein would depend on whether the epoxide of THN reacts with cysteinyl-tRNACyS or with cysteine. In both cases, the mechanism of incorporation of THN-cysteine into protein is the same as for the natural amino acids. For example, the incorporation of THN-cysteinyl-tRNACyS is stimulated by Poly-UG, the code for tRNACyS, and would be expected to be substituted for cysteine in protein being synthesized, whereas THN-cysteine not previously esterified to tRNA is activated by the isoleucyl- and valyl-RNA synthetases, and its incorporation is stimulated by Poly-AU and Poly-UG, respectively.