PMID: 6411730Sep 25, 1983Paper

NH2-terminal processing of Drosophila melanogaster actin. Sequential removal of two amino acids.

The Journal of Biological Chemistry
P A Rubenstein, D J Martin

Abstract

Class II actins, such as Drosophila and mammalian skeletal muscle actins, have genes that code for a Met-X-Asp NH2 terminus where X is usually cysteine. These actins have an Ac-Asp NH2 terminus so two amino acids must be removed. To determine the nature of this processing, we labeled Drosophila Schneider L-2 cells with [35S]methionine or cysteine, isolated the actin, and analyzed the NH2-terminal actin tryptic peptides and their thermolysin digestion products. After a 4-h labeling period, we detected completed actin polypeptide chains with either an unblocked Asp or an Ac-Asp NH2 terminus. No intermediate with an NH2-terminal Cys or Met could be demonstrated. If, however, Drosophila mRNA was translated in a mRNA-dependent rabbit reticulocyte lysate system, an additional 43-kDa actin intermediate was observed. On the basis of thermolysin digestion studies and experiments using mild acid hydrolysis of a labeled actin NH2-terminal tryptic peptide fragment, we identified this intermediate as having an Ac-Cys-Asp NH2 terminus. In a time-dependent fashion, Ac-Cys was removed generating actin with an exposed NH2-terminal Asp which was subsequently acetylated to produce the mature form of actin. The removal of Met and the acetylation o...Continue Reading

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