Structure-Based Mutagenesis of the Human Immunodeficiency Virus Type 1 DNA Attachment Site: Effects on Integration and cDNA Synthesis

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American Society for Microbiology

RESUMO

Sequences at the ends of linear retroviral cDNA important for integration define the viral DNA attachment (att) site. Whereas determinants of human immunodeficiency virus type 1 (HIV-1) integrase important for replication in T lymphocytes have been extensively characterized, regions of the att site important for viral spread have not been thoroughly examined. Previous transposon-mediated footprinting of preintegration complexes isolated from infected cells revealed enhanced regions of bacteriophage Mu insertion near the ends of HIV-1 cDNA, in the regions of the att sites. Here, we identified the subterminal cDNA sequences cleaved during in vitro footprinting and used this structure-based information together with results of previous work to construct and characterize 24 att site mutant viruses. We found that although subterminal cDNA sequences contributed to HIV-1 replication, the identities of these bases were not critical for integration. In contrast, the phylogenetically conserved CA dinucleotides located at the ends of HIV-1 contributed significantly to virus replication and integration. Mutants containing one intact CA end displayed delays in peak virus growth compared to the wild type. In contrast, double mutant viruses lacking both CAs were replication defective. The A of the CA appeared to be the most critical determinant of integration, because two different U5 mutant viruses containing the substitution of TG for CA partially reverted by changing the G back to A. We also identified a U5 deletion mutant in which the CA played a crucial role in reverse transcription.

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