Interchain disulfide bonding in the regulatory subunit of cAMP-dependent protein kinase I.

Autor: Zick, S K, Taylor, S S
Zdroj: Journal of Biological Chemistry; March 1982, Vol. 257 Issue: 5 p2287-2293, 7p
Abstrakt: The two protomers of the purified regulatory subunit from porcine cAMP-dependent protein kinase I have been shown to be covalently cross-linked by interchain disulfide bonding. Limited proteolysis which cleaves the polypeptide chain into two fragments demonstrated that the disulfide bonding was associated exclusively with the fragment that corresponded to the NH2-terminal region of the polypeptide chain. This NH2-terminal fragment accounted for approximately 15 to 20% of the molecule. The disulfide bonding was further characterized by alkylating the cysteines in the native regulatory subunit. Following oxidation with performic acid, each regulatory subunit contained 7 cysteic acid residues; however, under denaturing conditions, but without prior reduction, only 5 cysteine residues could be alkylated with iodoacetic acid. Following limited proteolysis, all five of these cysteines were associated with the larger COOH-terminal, cAMP binding domain. In contrast, if the denatured subunit was first reduced prior to alkylation, all 7 cysteine residues were alkylated. The 2 cysteines that were only accessible to alkylation after prior reduction were both associated with the NH2-terminal end of the polypeptide chain ultimately with a 5,400 peptide. Alkylation of the isolated, denatured NH2-terminal domain with iodoacetic acid resulted in no covalent modification unless the fragment was first reduced with dithiothreitol. The NH2-terminal and COOH-terminal domains were shown to be linked by a region of the polypeptide chain that is rich in both proline and arginine. It is the arginine-rich site that is readily prone to proteolytic cleavage.
Databáze: Supplemental Index