Browsing by Author "Ragupathy, Viswanath"
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Item Open Access Distinctive variation in the U3R region of the 5' Long Terminal Repeat from diverse HIV-1 strains.(PloS one, 2018-01) Mbondji-Wonje, Christelle; Dong, Ming; Wang, Xue; Zhao, Jiangqin; Ragupathy, Viswanath; Sanchez, Ana M; Denny, Thomas N; Hewlett, IndiraFunctional mapping of the 5'LTR has shown that the U3 and the R regions (U3R) contain a cluster of regulatory elements involved in the control of HIV-1 transcription and expression. As the HIV-1 genome is characterized by extensive variability, here we aimed to describe mutations in the U3R from various HIV-1 clades and CRFs in order to highlight strain specific differences that may impact the biological properties of diverse HIV-1 strains. To achieve our purpose, the U3R sequence of plasma derived virus belonging to different clades (A1, B, C, D, F2) and recombinants (CRF02_AG, CRF01_AE and CRF22_01A1) was obtained using Illumina technology. Overall, the R region was very well conserved among and across different strains, while in the U3 region the average inter-strains nucleotide dissimilarity was up to 25%. The TAR hairpin displayed a strain-distinctive cluster of mutations affecting the bulge and the loop, but mostly the stem. Like in previous studies we found a TATAA motif in U3 promoter region from the majority of HIV-1 strains and a TAAAA motif in CRF01_AE; but also in LTRs from CRF22_01A1 isolates. Although LTRs from CRF22_01A1 specimens were assigned CRF01_AE, they contained two NF-kB sites instead of the single TFBS described in CRF01_AE. Also, as previously describe in clade C isolates, we found no C/EBP binding site directly upstream of the enhancer region in CRF22_01A1 specimens. In our study, one-third of CRF02_AG LTRs displayed three NF-kB sites which have been mainly described in clade C isolates. Overall, the number, location and binding patterns of potential regulatory elements found along the U3R might be specific to some HIV-1 strains such as clade F2, CRF02_AG, CRF01_AE and CRF22_01A1. These features may be worth consideration as they may be involved in distinctive regulation of HIV-1 transcription and replication by different and diverse infecting strains.Item Open Access Genetic Characterization of a Panel of Diverse HIV-1 Isolates at Seven International Sites.(PLoS One, 2016) Hora, Bhavna; Keating, Sheila M; Chen, Yue; Sanchez, Ana M; Sabino, Ester; Hunt, Gillian; Ledwaba, Johanna; Hackett, John; Swanson, Priscilla; Hewlett, Indira; Ragupathy, Viswanath; Vikram Vemula, Sai; Zeng, Peibin; Tee, Kok-Keng; Chow, Wei Zhen; Ji, Hezhao; Sandstrom, Paul; Denny, Thomas N; Busch, Michael P; Gao, Feng; REDS-III and EQAPOL programsHIV-1 subtypes and drug resistance are routinely tested by many international surveillance groups. However, results from different sites often vary. A systematic comparison of results from multiple sites is needed to determine whether a standardized protocol is required for consistent and accurate data analysis. A panel of well-characterized HIV-1 isolates (N = 50) from the External Quality Assurance Program Oversight Laboratory (EQAPOL) was assembled for evaluation at seven international sites. This virus panel included seven subtypes, six circulating recombinant forms (CRFs), nine unique recombinant forms (URFs) and three group O viruses. Seven viruses contained 10 major drug resistance mutations (DRMs). HIV-1 isolates were prepared at a concentration of 107 copies/ml and compiled into blinded panels. Subtypes and DRMs were determined with partial or full pol gene sequences by conventional Sanger sequencing and/or Next Generation Sequencing (NGS). Subtype and DRM results were reported and decoded for comparison with full-length genome sequences generated by EQAPOL. The partial pol gene was amplified by RT-PCR and sequenced for 89.4%-100% of group M viruses at six sites. Subtyping results of majority of the viruses (83%-97.9%) were correctly determined for the partial pol sequences. All 10 major DRMs in seven isolates were detected at these six sites. The complete pol gene sequence was also obtained by NGS at one site. However, this method missed six group M viruses and sequences contained host chromosome fragments. Three group O viruses were only characterized with additional group O-specific RT-PCR primers employed by one site. These results indicate that PCR protocols and subtyping tools should be standardized to efficiently amplify diverse viruses and more consistently assign virus genotypes, which is critical for accurate global subtype and drug resistance surveillance. Targeted NGS analysis of partial pol sequences can serve as an alternative approach, especially for detection of low-abundance DRMs.Item Open Access Genetic variability of the U5 and downstream sequence of major HIV-1 subtypes and circulating recombinant forms.(Scientific reports, 2020-08-06) Mbondji-Wonje, Christelle; Dong, Ming; Zhao, Jiangqin; Wang, Xue; Nanfack, Aubin; Ragupathy, Viswanath; Sanchez, Ana M; Denny, Thomas N; Hewlett, IndiraThe critical role of the regulatory elements at the 5' end of the HIV-1 genome in controlling the life cycle of HIV-1 indicates that this region significantly influences virus fitness and its biological properties. In this study, we performed a detailed characterization of strain-specific variability of sequences from the U5 to upstream of the gag gene start codon of diverse HIV-1 strains by using next-generation sequencing (NGS) techniques. Overall, we found that this region of the HIV-1 genome displayed a low degree of intra-strain variability. On the other hand, inter-strain variability was found to be as high as that reported for gag and env genes (13-17%). We observed strain-specific single point and clustered mutations in the U5, PBS, and gag leader sequences (GLS), generating potential strain-specific transcription factor binding sites (TFBS). Using an infrared gel shift assay, we demonstrated the presence of potential TFBS such as E-box in CRF22_01A, and Stat 6 in subtypes A and G, as well as in their related CRFs. The strain-specific variation found in the sequence corresponding at the RNA level to functional domains of the 5' UTR, could also potentially impact the secondary/tertiary structural rearrangement of this region. Thus, the variability observed in this 5' end of the genomic region of divergent HIV-1 strains strongly suggests that functions of this region might be affected in a strain-specific manner. Our findings provide new insights into DNA-protein interactions that regulate HIV-1 replication and the influence of strain characterization on the biology of HIV-1 infection.