David Escanilla scite author profile

Phylogenetic analyses are increasingly used in attempts to clarify transmission patterns of human immunodeficiency virus type 1 (HIV-1), but there is a continuing discussion about their validity because convergent evolution and transmission of minor HIV variants may obscure epidemiological patterns. Here we have studied a unique HIV-1 transmission cluster consisting of nine infected individuals, for whom the time and direction of each virus transmission was exactly known. Most of the transmissions occurred between 1981 and 1983, and a total of 13 blood samples were obtained approximately 2-12 years later. The p17 gag and env V3 regions of the HIV-1 genome were directly sequenced from uncultured lymphocytes. A true phylogenetic tree was constructed based on the knowledge about when the transmissions had occurred and when the samples were obtained. This complex, known HIV-1 transmission history was compared with reconstructed molecular trees, which were calculated from the DNA sequences by several commonly used phylogenetic inference methods [Fitch-Margoliash, neighbor-joining, minimum-evolution, maximum-likelihood, maximum-parsimony, unweighted pair group method using arithmetic averages (UPGMA), and a Fitch-Margoliash method assuming a molecular clock (KITSCH)]. A majority of the reconstructed trees were good estimates of the true phylogeny; 12 of 13 taxa were correctly positioned in the most accurate trees. The choice of gene fragment was found to be more important than the choice of phylogenetic method and substitution model. However, methods that are sensitive to unequal rates of change performed more poorly (such as UPGMA and KITSCH, which assume a constant molecular clock). The rapidly evolving V3 fragment gave better reconstructions than p17, but a combined data set of both p17 and V3 performed best. The accuracy of the phylogenetic methods justifies their use in HIV-1 research and argues against convergent evolution and selective transmission of certain virus variants.

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Biological and Molecular Characterization of Subtype D, G, and A/D Recombinant HIV-1 Transmissions in Sweden

Leitner

et al. 1995

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HIV-1 can be subdivided into at least nine genetic subtypes (A through H and O), but in Europe and the United States there is an almost complete dominance of subtype B. In this study three Swedish HIV-1 transmission chains of subtypes other than subtype B have been biologically and molecularly characterized. The three index cases were African men. The p17 gag and env V3 regions of the HIV-1 genome were directly sequenced from uncultured lymphocytes. Phylogenetic analyses showed that the HIV-1 variants with each transmission group were genetically closely related, supporting the epidemiological information. The individuals in transmission groups I (n = 3) and II (n = 2) carried subtype G and D virus, respectively. Interestingly, all four individuals in transmission group III displayed a recombinant genotype with subtype D p17 gag sequence and subtype A V3 sequence. The biological phenotype of virus isolates (rapid/high, syncytium-inducing; or slow/low, non-syncytium-inducing) correlated with the clinical stage of the infected individual. The study also suggested that the correlation between biological phenotype and V3 genotype that has been established for subtype B HIV-1 variants may be valid also for other subtypes. This study demonstrates that HIV-1 variants of subtypes other than B, including a subtype A/D recombinant, are being transmitted in Europe.

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David Escanilla

Accurate reconstruction of a known HIV-1 transmission history by phylogenetic tree analysis.

Biological and Molecular Characterization of Subtype D, G, and A/D Recombinant HIV-1 Transmissions in Sweden

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