Direct photoaffinity labeling of proteins with adenosine 3‘-[32P]phosphate 5‘-phosphosulfate. Atractyloside inhibits labeling of a Mr = 34,000 protein in an adrenal medullary Golgi fraction.

Abstract

Direct photoaffinity labeling with radioactively labeled adenosine 3'-phosphate 5'-phosphosulfate (PAPS) followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography was used to identify PAPS binding proteins in a Golgi membrane preparation of bovine adrenal medulla. [3'-32P]PAPS was synthesized from adenosine 5'-phosphosulfate (APS) and [gamma-32P]ATP using APS kinase prepared from yeast and was purified by reverse-phase ion pair high performance liquid chromatography. Upon irradiation with UV light, [3'-32P]PAPS, as well as [35S]PAPS under conditions which minimized sulfotransferase-catalyzed incorporation of 35SO4 from [35S]PAPS into proteins, bound selectively to a 34-kDa protein of the Golgi membrane preparation. PAPS binding to the 34-kDa protein was strongly inhibited by the presence of 50 microM atractyloside. The 34-kDa PAPS binding protein therefore appears to be similar to the mitochondrial ATP/ADP translocator with regard to both molecular weight and inhibition by atractyloside of adenine nucleotide binding. Photoaffinity labeling will be useful in the purification and functional identification of the 34-kDa protein.