Mutations within the primer grip region of HIV-1 reverse transcriptase result in loss of RNase H function.


Human immunodeficiency virus (HIV) DNA synthesis is accompanied by ...
Human immunodeficiency virus (HIV) DNA synthesis is accompanied by degradation of genomic RNA by the RNase H of reverse transcriptase (RT). Two different modes of RNase H activity appear necessary for complete RNA removal. In one, occurring during minus strand synthesis, positioning of the RNase H is determined by binding of the polymerase active site to the DNA 3'-end. In the other, used for removal of remaining RNA fragments, positioning of RT for RNase H-directed cleavage is determined by the RNA 5'-ends. We attempted to identify RT amino acids responsible for these modes of positioning. Twelve RT mutants, each with one alanine replacement in residues 224 to 235, known as the primer grip region, were examined for catalytic abilities. Six of the examined primer grip mutants, although distant from the RNase H active site were altered in their ability to cleave RNA. The mutants P226A, F227A, G231A, Y232A, E233A, and H235A failed to perform RNA 5'-end-directed RNase H cleavage in heparin-challenged reactions. The last four mutants also lacked DNA synthesis and DNA 3'-end-directed RNase H cleavage activities in challenged reactions. Since mutants P226A and F227A carried out these latter reactions normally, these two residues specifically influence 5'-RNA-directed RNase H catalysis.




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