Unequal human immunodeficiency virus type 1 reverse transcriptase error rates with RNA and DNA templates.

Abstract

Sequence variation in the type 1 human immunodeficiency virus (HIV-1) results, in part, from inaccurate replication by reverse transcriptase. Although this enzyme is error-prone during synthesis in vitro with DNA templates, the fidelity of RNA-dependent DNA synthesis relevant to minus-strand replication in the virus life cycle has not been examined extensively. In the present study, we have developed a system to determine the fidelity of transcription and reverse transcription and have used it to compare the fidelity of DNA synthesis by the HIV-1 reverse transcriptase with RNA and DNA templates of the same sequence. Overall, fidelity was several-fold higher with RNA than with DNA. Sequence analysis of mutants generated with the two substrates revealed that differences in error rates were substantial for specific errors. Fidelity with RNA was greater than 10-fold higher for substitution and minus-one nucleotide errors at five different homopolymeric positions. Because such errors likely result from template-primer slippage, this result suggests that misaligned intermediates are formed and/or used less frequently with an RNA template-DNA primer than with a DNA template-DNA primer. The results also suggest that HIV-1 reverse transcriptase synthesis with an RNA template-DNA primer was error-prone during incorporation of the first two nucleotides, perhaps due to aberrant enzyme-substrate interactions as synthesis initiates. The unequal error rates with RNA and DNA templates suggest that mistakes during minus- and plus-strand DNA synthesis may not contribute equally to the mutation rate of HIV-1. The data also provide estimates of substitution and frameshift error rates during transcription by T7 RNA polymerase.