We developed a recombinant virus technique to determine the coreceptor usage of human immunodeficiency virus type 1 (HIV-1) from plasma samples, the source expected to represent the most actively replicating virus population in infected subjects. This method is not subject to selective bias associated with virus isolation in culture, a step required for conventional tropism determination procedures. The addition of a simple subcloning step allowed semiquantitative evaluation of virus populations with a different coreceptor (CCR5 or CXCR4) usage specificity present in each plasma sample. This procedure detected mixtures of CCR5-and CXCR4-exclusive virus populations as well as dualtropic viral variants, in variable proportions. Sequence analysis of dualtropic clones indicated that changes in the V3 loop are necessary for the use of CXCR4 as a coreceptor, but the overall context of the V1-V3 region is important to preserve the capacity to use CCR5. This convenient technique can greatly assist the study of virus evolution and compartmentalization in infected individuals.
These results suggest that, although the total number of protease mutations correlates with the degree of cross-resistance, the specific mechanisms accounting for primary resistance and for cross-resistance may be different.
A reconstituted transcription system composed of the Rift Valley fever phlebovirus (Bunyaviridae family) proteins L and N expressed via recombinant vaccinia viruses and an S-like model RNA containing the CAT gene in the antisense orientation, has been described previously by Lopez et al. (J. Virol., 1995, 69, 3972-3979). We extended the use of this in vivo system to determine the sequence at the 3' end of the ambisense S segment recognized by the transcription complex. A mutational analysis of the sequences at the 3' end of the S-like genomic or antigenomic RNA was undertaken. The data indicated that the minimal sequence required for transcription resides in the 13 first 3' nucleotides of the genomic or antigenomic RNA. In these sequences, two regions appeared crucial: the bases at positions 3 to 8 and the purine at position 13. In addition, the terminal repeat ...GU could be deleted without affecting significantly the template activity of the RNA. These data support the prime and realign mechanism proposed recently for Bunya- and Arenaviruses
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