Your search keyword '"Wymant, Chris"' showing total 3 results

1. Phylogenetic estimation of the viral fitness landscape of HIV-1 set-point viral load.

Author

Zhao, Lele, Wymant, Chris, Blanquart, François, Golubchik, Tanya, Gall, Astrid, Bakker, Margreet, Bezemer, Daniela, Hall, Matthew, Ong, Swee Hoe, Albert, Jan, Bannert, Norbert, Fellay, Jacques, Grabowski, M Kate, Gunsenheimer-Bartmeyer, Barbara, Günthard, Huldrych F, Kivelä, Pia, Kouyos, Roger D, Laeyendecker, Oliver, Meyer, Laurence, and Porter, Kholoud

Subjects

VIRAL load, HIV, ANTIRETROVIRAL agents

Abstract

Set-point viral load (SPVL), a common measure of human immunodeficiency virus (HIV)-1 virulence, is partially determined by viral genotype. Epidemiological evidence suggests that this viral property has been under stabilising selection, with a typical optimum for the virus between 104 and 105 copies of viral RNA per ml. Here we aimed to detect transmission fitness differences between viruses from individuals with different SPVLs directly from phylogenetic trees inferred from whole-genome sequences. We used the local branching index (LBI) as a proxy for transmission fitness. We found that LBI is more sensitive to differences in infectiousness than to differences in the duration of the infectious state. By analysing subtype-B samples from the Bridging the Evolution and Epidemiology of HIV in Europe project, we inferred a significant positive relationship between SPVL and LBI up to approximately 105 copies/ml, with some evidence for a peak around this value of SPVL. This is evidence of selection against low values of SPVL in HIV-1 subtype-B strains, likely related to lower infectiousness, and perhaps a peak in the transmission fitness in the expected range of SPVL. The less prominent signatures of selection against higher SPVL could be explained by an inherent limit of the method or the deployment of antiretroviral therapy. [ABSTRACT FROM AUTHOR]

Published

2022

2. Link between the numbers of particles and variants founding new HIV-1 infections depends on the timing of transmission

Author

Thompson, Robin N, primary, Wymant, Chris, additional, Spriggs, Rebecca A, additional, Raghwani, Jayna, additional, Fraser, Christophe, additional, and Lythgoe, Katrina A, additional

Published

2019

3. Easy and accurate reconstruction of whole HIV genomes from short-read sequence data with shiver.

Author

Wymant C, Blanquart F, Golubchik T, Gall A, Bakker M, Bezemer D, Croucher NJ, Hall M, Hillebregt M, Ong SH, Ratmann O, Albert J, Bannert N, Fellay J, Fransen K, Gourlay A, Grabowski MK, Gunsenheimer-Bartmeyer B, Günthard HF, Kivelä P, Kouyos R, Laeyendecker O, Liitsola K, Meyer L, Porter K, Ristola M, van Sighem A, Berkhout B, Cornelissen M, Kellam P, Reiss P, and Fraser C

Abstract

Studying the evolution of viruses and their molecular epidemiology relies on accurate viral sequence data, so that small differences between similar viruses can be meaningfully interpreted. Despite its higher throughput and more detailed minority variant data, next-generation sequencing has yet to be widely adopted for HIV. The difficulty of accurately reconstructing the consensus sequence of a quasispecies from reads (short fragments of DNA) in the presence of large between- and within-host diversity, including frequent indels, may have presented a barrier. In particular, mapping (aligning) reads to a reference sequence leads to biased loss of information; this bias can distort epidemiological and evolutionary conclusions. De novo assembly avoids this bias by aligning the reads to themselves, producing a set of sequences called contigs. However contigs provide only a partial summary of the reads, misassembly may result in their having an incorrect structure, and no information is available at parts of the genome where contigs could not be assembled. To address these problems we developed the tool shiver to pre-process reads for quality and contamination, then map them to a reference tailored to the sample using corrected contigs supplemented with the user's choice of existing reference sequences. Run with two commands per sample, it can easily be used for large heterogeneous data sets. We used shiver to reconstruct the consensus sequence and minority variant information from paired-end short-read whole-genome data produced with the Illumina platform, for sixty-five existing publicly available samples and fifty new samples. We show the systematic superiority of mapping to shiver's constructed reference compared with mapping the same reads to the closest of 3,249 real references: median values of 13 bases called differently and more accurately, 0 bases called differently and less accurately, and 205 bases of missing sequence recovered. We also successfully applied shiver to whole-genome samples of Hepatitis C Virus and Respiratory Syncytial Virus. shiver is publicly available from https://github.com/ChrisHIV/shiver.

Published

2018