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  1. Ng KT, Ng KY, Khong WX, Chew KK, Singh PK, Yap JK, et al.
    PLoS One, 2013;8(12):e80884.
    PMID: 24312505 DOI: 10.1371/journal.pone.0080884
    HIV-1 subtype B and CRF01_AE are the predominant infecting subtypes among men who have sex with men (MSM) in Singapore. The genetic history, population dynamics and pattern of transmission networks of these genotypes remain largely unknown. We delineated the phylodynamic profiles of HIV-1 subtype B, CRF01_AE and the recently characterized CRF51_01B strains circulating among the MSM population in Singapore. A total of 105 (49.5%) newly-diagnosed treatment-naïve MSM were recruited between February 2008 and August 2009. Phylogenetic reconstructions of the protease gene (HXB2: 2239 - 2629), gp120 (HXB2: 6942 - 7577) and gp41 (HXB2: 7803 - 8276) of the env gene uncovered five monophyletic transmission networks (two each within subtype B and CRF01_AE and one within CRF51_01B lineages) of different sizes (involving 3 - 23 MSM subjects, supported by posterior probability measure of 1.0). Bayesian coalescent analysis estimated that the emergence and dissemination of multiple sub-epidemic networks occurred between 1995 and 2005, driven largely by subtype B and later followed by CRF01_AE. Exponential increase in effective population size for both subtype B and CRF01_AE occurred between 2002 to 2007 and 2005 to 2007, respectively. Genealogical estimates suggested that the novel CRF51_01B lineages were probably generated through series of recombination events involving CRF01_AE and multiple subtype B ancestors. Our study provides the first insight on the phylodynamic profiles of HIV-1 subtype B, CRF01_AE and CRF51_01B viral strains circulating among MSM in Singapore.
    Matched MeSH terms: env Gene Products, Human Immunodeficiency Virus/genetics*
  2. Ng QR, Tee KK, Binley JM, Tong T
    AIDS Res Hum Retroviruses, 2022 Feb;38(2):162-172.
    PMID: 34006141 DOI: 10.1089/AID.2020.0299
    Human immunodeficiency virus type-1 (HIV-1) antigenic variation poses a great challenge for vaccine immunogen design to elicit broadly neutralizing antibodies (bNAbs). Over the last 10-15 years, great progress has been made to understand the conserved sites of sensitivity on HIV envelope glycoprotein spikes targeted by bNAbs. Plasma neutralization mapping and monoclonal antibody isolation efforts have revealed five major conserved epitope clusters. Most of this work has focused on subtype B and C-infected Caucasian or African donors. It is not clear if the same epitopes and epitope rank order preferences are also true in donors infected with different HIV-1 subtypes and with different racial backgrounds. To investigate this point, in this study we report the first attempt to profile the bNAb specificities of CRF01_AE-infected Malaysian plasmas. We first measured neutralization titers of 21 plasmas against a subtype A, B, and AE pseudovirus panel. This revealed that 14% (3 of 21) plasmas had cross-clade breadth. Focusing on the cross-neutralizing plasma P9, we used AE and JR-FL mutant pseudoviruses, gp120 monomer interference, and native polyacrylamide gel electrophoresis to better understand the neutralization specificity. P9 demonstrates CD4-binding-site specificity with trimer dependence and D368 independence.
    Matched MeSH terms: env Gene Products, Human Immunodeficiency Virus/genetics
  3. Hu Y, Tan PT, Tan TW, August JT, Khan AM
    PLoS One, 2013;8(4):e59994.
    PMID: 23593157 DOI: 10.1371/journal.pone.0059994
    The rapid mutation of human immunodeficiency virus-type 1 (HIV-1) and the limited characterization of the composition and incidence of the variant population are major obstacles to the development of an effective HIV-1 vaccine. This issue was addressed by a comprehensive analysis of over 58,000 clade B HIV-1 protein sequences reported over at least 26 years. The sequences were aligned and the 2,874 overlapping nonamer amino acid positions of the viral proteome, each a possible core binding domain for human leukocyte antigen molecules and T-cell receptors, were quantitatively analyzed for four patterns of sequence motifs: (1) "index", the most prevalent sequence; (2) "major" variant, the most common variant sequence; (3) "minor" variants, multiple different sequences, each with an incidence less than that of the major variant; and (4) "unique" variants, each observed only once in the alignment. The collective incidence of the major, minor, and unique variants at each nonamer position represented the total variant population for the position. Positions with more than 50% total variants contained correspondingly reduced incidences of index and major variant sequences and increased minor and unique variants. Highly diverse positions, with 80 to 98% variant nonamer sequences, were present in each protein, including 5% of Gag, and 27% of Env and Nef, each. The multitude of different variant nonamer sequences (i.e. nonatypes; up to 68%) at the highly diverse positions, represented by the major, multiple minor, and multiple unique variants likely supported variants function both in immune escape and as altered peptide ligands with deleterious T-cell responses. The patterns of mutational change were consistent with the sequences of individual HXB2 and C1P viruses and can be considered applicable to all HIV-1 viruses. This characterization of HIV-1 protein mutation provides a foundation for the design of peptide-based vaccines and therapeutics.
    Matched MeSH terms: env Gene Products, Human Immunodeficiency Virus/genetics
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