Analysis, quantification, and evolutionary consequences of HIV-1 in vitro recombination

Abstract

HIV-1 recombination was studied in vitro by viral cocultivation of four combinations of strains of subtypes B, D, and F. Viral cocultivations were performed in MT-4 cells and maintained for 22 days. The parental and recombinant forms were quantified by a specific PCR system in an env fragment of 2500 nucleotides. On day 5, there was a close correlation between the proportion of recombination and the genetic distance between strains. In three of the four viral combinations studied, a steady increase in the proportion of recombinant genomes was observed over time. This rise coincided with the progressive loss of one of the parental strains, resulting in less diverse viral populations. Nucleotide sequencing of biological recombinant clones from the B/D cocultivation revealed a higher number of recombination events in pol than in env gene, and an increasing number of crossovers per clone with time. © 2002 Elsevier Science (USA).