Herpes simplex virus type 1 ICP27 is an essential regulatory protein.

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J Virol. 1985 September; 55(3): 796-805

Herpes simplex virus type 1 ICP27 is an essential regulatory protein.

W R Sacks, C C Greene, D P Aschman and P A Schaffer

ABSTRACT

The five immediate-early genes of herpes simplex virus are expressedduring the initial stages of the infectious cycle, and certainimmediate-early proteins have been shown to play a regulatoryrole in subsequent viral gene expression. Until recently, thefunctional properties of only one immediate-early protein, ICP4,had been examined in any detail, primarily because mutants hadbeen isolated only in the gene for ICP4. We report herein thegenetic and phenotypic characterization of four temperature-sensitivemutants of herpes simplex virus type 1 (tsY46, tsE5, tsE6, andtsLG4) that have begun to elucidate the function(s) of a secondimmediate-early protein, ICP27. The four mutants complementedeach other inefficiently or not at all, indicating that theyare defective in the same function. Marker rescue tests placedthe mutations in tsY46 and tsE5 in sequences that encode thetranscript for ICP27; the mutations in tsE6 and tsLG4 lie inor near these sequences. The ability of wild-type ICP27 expressedfrom a cloned gene to complement tsY46 and tsLG4 constitutesadditional evidence that these mutants are defective in an ICP27-associatedfunction. Sodium dodecyl sulfate-polyacrylamide gel electrophoresisof mutant-infected cell polypeptides showed that certain immediate-early(alpha) polypeptides were overproduced, whereas significantlevels of early (beta) and drastically reduced levels of severallate (gamma) proteins were synthesized at the nonpermissivetemperature. Interestingly, the mutants were observed to forma spectrum with regard to their relative abilities to inducethe expression of a number of polypeptides, especially thoseof the delayed-early (beta gamma) class. Consistent with theirability to induce expression of early polypeptides, all of themutants induced the synthesis of substantial levels of viralDNA at the nonpermissive temperature. Taken together, the resultsof these studies demonstrate that ICP27 plays an essential regulatoryfunction in virus replication, that this function is requiredafter the onset of early gene expression and viral DNA synthesis,and that the inability of the mutants to induce the synthesisof late proteins is independent of viral DNA synthesis.

J Virol. 1985 September; 55(3): 796-805

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