The Herpes Simplex Virus 1 Protein ICP4 Acts as both an Activator and a Repressor of Host Genome Transcription during Infection.

Infection by herpes simplex virus 1 (HSV-1) impacts nearly all steps of host cell gene expression. The regulatory mechanisms by which this occurs, and the interplay between host and viral factors, have yet to be fully elucidated. We investigated how the occupancy of RNA polymerase II (Pol II) on the host genome changes during HSV-1 infection and is impacted by the viral immediate early protein ICP4. Pol II ChIP-seq experiments revealed ICP4-dependent decreases and increases in Pol II levels across the bodies of hundreds of genes. Our data suggest ICP4 represses host transcription by inhibiting recruitment of Pol II and activates host genes by promoting release of Pol II from promoter proximal pausing into productive elongation. Consistent with this, ICP4 was required for the decrease in levels of the pausing factor NELF-A on several HSV-1-activated genes after infection. In the absence of infection, exogenous expression of ICP4 activated, but did not repress, transcription of some genes in a chromatin-dependent context. Our data support the model that ICP4 decreases promoter proximal pausing on host genes activated by infection and that ICP4 is necessary, but not sufficient, to repress transcription of host genes during viral infection.

Enantioselective Copper(I)-Catalyzed Alkynylation of Oxocarbenium Ions to Set Diaryl Tetrasubstituted Stereocenters.

An enantioselective, copper(I)-catalyzed addition of terminal alkynes to isochroman ketals to set diaryl, tetrasubstituted stereocenters has been developed. The success of this reaction relies on identification of a Cu/PyBox catalyst capable of distinguishing the faces of the diaryl-substituted oxocarbenium ion. This challenging transformation enables efficient conversion of readily available, racemic ketals into high-value enantioenriched isochroman products with fully substituted stereogenic centers. High yields and enantiomeric excesses are observed for various isochroman ketals and an array of alkynes.