Isolation and translation of mRNA encoded by a specific region of the herpes simplex virus type 1 genome

Abstract

We have examined in detail the major mRNA species encoded by the region of the herpes simplex virus type 1 genome encoded by HindIII fragment K (0.53-0.59 from the left end of the prototype arrangement of the genome) by using this restriction fragment bound to cellulose as a reagent for isolation of this mRNA. Before viral DNA replication in infected cells (early), a major species of viral mRNA 5.2 kilobases (kb) in length is abundant. After the onset of viral DNA replication (late), four mRNA species are abundant: 7, 5.2, 3.8, and 1.8 kb in size. We have used reverse transcriptase from avian myeloblastosis virus to make DNA complementary to these RNA species and their 3' ends. We have shown by hybridization of this complementary DNA to Southern blots of herpes simplex virus type 1 DNA that the 7-, 5.2-, and 1.8-kb mRNA species have their 3' ends to the right of 0.59 and are at least partially colinear. The 3.8-kb mRNA has a 3' end mapping to the left of the 3' ends of these other species. In vitro translation of HindIII fragment K-specific mRNA in a reticulocyte lysate system yielded three major polypeptide products: 140,000, 122,000, and 54,000 daltons (d). Less prominent species of 86,000 and 65,000 d also were produced. Translation of size-fractionated HindIII fragment K-specific mRNA showed that the 7-, 5.2-, and 3.8-kb mRNA's encoded the 54,000-, 140,000-, and 122,000-d polypeptides, respectively. The 140,000-d polypeptide was the major polypeptide translated using early HindIII fragment K-specific mRNA as a template. The 3.8-kb mRNA also encoded the 86,000-d polypeptide, whereas the 1.8-kb mRNA encoded a polypeptide that was indistinguishable from the 54,000-d polypeptide encoded by the 7-kb mRNA, in addition to the 65,000-d polypeptide. The implications of the data are discussed.