Processing of herpes simplex virus proteins and evidence that translation of thymidine kinase mRNA is initiated at three separate AUG codons.

AUTOR(ES)

Marsden, H S

RESUMO

The role which post-translational modification plays in the genesis of herpes simplex virus-induced polypeptides was investigated. Two-dimensional gel electrophoresis was used to identify those polypeptides (i) synthesized in vitro, (ii) labeled in vivo during a pulse, and (iii) labeled after a chase. Excluding glycoproteins, we detected 36 precursor or short-lived polypeptides, 8 polypeptides which were generated by post-translational modification, 46 polypeptides which were apparently not modified after synthesis, and 19 polypeptides which were either transient intermediates or not modified. Comparison of polypeptides synthesized in vitro and during an in vivo pulse showed that translation in vitro resembles quite closely translation in vivo and that amounts of protein synthesized in vivo are determined largely by the levels of mRNA. This analysis provided the basis for an investigation of the suggestion (C.M. Preston and D.J. McGeoch, J. Virol. 38:593-605, 1981) that the two polypeptides of apparent molecular weights of 43,000 (VI 43) and 39,000 (VI 39) encoded by the herpes simplex virus type 1 thymidine kinase gene are translated from a single mRNA by two in-phase initiation codons. Hybrid arrest was used to identify in vitro translation products encoded by the thymidine kinase gene. Two-dimensional gel electrophoresis showed that VI 39 was more acidic than VI 43, consistent with the predicted amino acid composition of a polypeptide whose synthesis was initiated at the second AUG codon, located 135 bases downstream from the first. Furthermore, two-dimensional gels revealed a third polypeptide whose synthesis was arrested by the same fragment. Its pI and apparent molecular weight (38,000) were compatible with initiation of translation at a third AUG codon an additional 42 bases downstream. Our findings provide strong evidence that downstream initiation codons within the thymidine kinase mRNA are used.

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