AcMNPV late expression factor-5 interacts with itself and contains a zinc ribbon domain that is required for maximal late transcription activity and is homologous to elongation factor TFIIS.

The late expression factor-5 gene (lef-5) of Autographa californica multinucleocapsid polyhedrovirus (AcMNPV) is required for late gene expression. In this paper, we demonstrate that LEF-5 interacts with itself in the yeast two-hybrid system and in glutathione-S-transferase affinity assays. Deletion analysis suggested that the C-terminal 71 amino acids (aa) were not required for interaction. However, all deletions tested involving the N-terminal 194 aa significantly reduced LEF-5:LEF-5 interaction. LEF-5 or LEF-5 deletion mutants were transfected into Sf-9 cells with the full complement of genes required for baculovirus late transcription. All deletion clones tested reduced expression of a beta-glucuronidase (GUS) reporter gene under control of the late vp39 capsid promoter. Amino-acid sequence analysis of LEF-5 identified a previously unreported domain within the C-terminal 32 aa that is homologous to the zinc ribbon domain of RNA polymerase II elongation factor IIS (TFIIS) from a variety of taxa. Molecular modeling of the putative LEF-5 Zn ribbon using the NMR data available for the Zn ribbon of TFIIS suggested that this domain could fold into a Zn ribbon structure similar to TFIIS. Alanine scanning mutagenesis of amino acids predicted to be important for functioning of the LEF-5 ribbon structure significantly reduced LEF-5 activity in transient expression assays. Mutations changing the amino acids predicted to coordinate Zn2+ caused a reduction in activity similar to that when the domain was eliminated completely.