Masters Degrees (Medical Virology)
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Browsing Masters Degrees (Medical Virology) by browse.metadata.advisor "Engelbrecht, Susan"
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- ItemThe apoptotic potential of different HIV-1 subtype C Tat mutations in cell culture(Stellenbosch : Stellenbosch University, 2013-03) Isaacs, Shahieda; Engelbrecht, Susan; Glashoff, Richard; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.The efficiency in which HIV-1 can infect, spread and evade the attack of therapeutic agents can be attributed to a high mutation rate and frequent recombination events. These factors have collectively contributed to the diversity observed in HIV-1 and resulted in a multitude of subtypes, sub-subtypes, circulating recombinant forms (CRF’s) and unique recombinant forms (URF’s). The aim of this study was to investigate HIV-1 diversity in Cape Town using a small cohort of treatment naive patients being investigated for HIV Associated Neurocognitive Disorders (HAND). Four different genomic domains: gag, pol, accessory and gp41 genes were sequenced to subtype the virus. HIV-1 tat was further investigated because the dicysteine motif has been reported to play a role in HAND. Viral RNA and proviral DNA was extracted from 64 patients and used for the amplification and sequencing of the genes. Rega and jpHMM online tools were used to identify HIV-1 subtypes and recombinants while Neighbor-joining phylogenetic trees were constructed for phylogenetic analysis. The pol gene was further investigated using SCUEAL to detect possible intra-subtype recombination and was also screened for the presence of transmitted drug resistance. In addition tat sequence datasets retrieved from the Los Alamos sequence database were investigated and compared with the newly generated sequences for the detection of point mutations and amino acid signature patterns. Sequencing identified most of the samples as subtype C; however six inter-subtype recombinants (AE, A1G, A1CU and two BC) and 9 intra-subtype C recombinants were identified. In addition 13% of pol sequences were identified with resistance mutations. Signature pattern analysis identified a high level of variability in the tat sequences: 68% were identified with C30S31; 29% with the C30C31 mutation and a single sequence with a novel mutation C30A31. Functional analysis of these mutations indicated that all mutations investigated were capable of inducing apoptosis in cell culture. The C30C31 mutation generated the highest level of apoptosis, closely followed by the C30A31 mutation. However no statistical significance could be detected between tat mutations and the observed levels of apoptosis.
- ItemCharacterization of HIV-1 subtype B near full-length genome sequences identified at the start of HIV epidemic in South Africa(Stellenbosch : Stellenbosch University, 2017-03) Obasa, Adetayo Emmanuel; Jacobs, Graeme Brendon; Engelbrecht, Susan; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.ENGLISH SUMMARY: South Africa is home to approximately 20.0% of the global Human Immunodeficiency Virus (HIV) infected population. The first reported cases of HIV-1 in the country were described in 1982 amongst the homosexual male population. This was attributed to HIV-1 subtypes B (HIV-1B) and D (HIV-1D). Since the late 1980s HIV-1 subtype C (HIV-1C), spread mainly through heterosexual contact, has been the driving force of the epidemic. To date, only six HIV-1B near full-length genome (NFLG) sequences from South Africa are available in the Los Alamos National Laboratory database (LANL). During this study we retrieved five HIV-1B positive samples from homosexual and bi-sexual males, stored for up to 30 years, from the early 1980s, for further characterization. The NFLG amplification reactions were performed using a modern Polymerase Chain Reaction (PCR) protocol designed to target two overlapping proviral DNA HIV genome fragments, 5.5 kb and 3.7 kb in size, respectively. All positive PCR products were sequenced to characterize the viruses. The sequences were checked and edited manually using Sequencher V5. Multiple sequence alignments were created using Clustal W and Maft V7. The sequences were subtyped using the REGA V3.0, RIP V3.0 and jumping profile Hidden Markov Model (jpHMM) online subtyping programmes. Maximum likelihood phylogenetic trees were drawn using MEGA V6. Four of the five HIV-1 patient sequences were subtyped as pure HIV-1B. One sequence, ZA|85|R605, was characterized as a novel HIV-1 BD recombinant. This is the first NFLG HIV-1 BD recombinant ever described and indicates that recombination events were most likely already happening at the early stage of the South African epidemic. Two patient sequences, ZA|87|R1296 and ZA|87|R459, clusters with HIV-1B sequences from the United States of America (USA). The sequence from patient ZA|87|R68 clusters with a HIV-1B sequence from France and the sequence of ZA|87|R526 clusters with another South African HIV-1B sequence. Homosexual flight stewards, international tourists and migrants from the European and North American countries were most likely responsible for the introduction of the HIV-1B epidemic into South Africa. The findings of this study provides valuable insights from the beginning of the HIV-1 epidemic in South Africa. We highlight the importance of characterizing complete viral genomes from early archival specimens to give a more detailed picture of landmarks of the HIV/AIDS pandemic. We show that NFLG sequencing is an important tool for the identification of recombinant viral strains. This study can form the basis for continued research in our attempt to reconstruct the epidemiology and evolutionary history of HIV in South Africa. The HIV-1 epidemic is dynamic in nature and is constantly changing.
- ItemDevelopment of selective real-time PCR (SPCR) asays for the detection of K103N resistance mutation in minor HIV-1 populations(Stellenbosch : Stellenbosch University, 2011-12) Seleka, Mpho Maria; Engelbrecht, Susan; Van Zyl, Gert; Stellenbosch University. Faculty of Health Sciences. Dept. of Pathology. Medical Virology.ENGLISH ABSTRACT: Background: The conventional sequence analysis is the most common method used for the detection of drug-resistant mutants. Due to its sensitivity limitations, it is unable to detect these mutants when comprising less than 20% (minor populations) of the total virus population in a sample. However, real-time PCR-based assays offer a rapid, sensitive, specific and easy detection and quantification of such mutants. The HIV-1 variants harbouring the K103N mutation are associated with resistance to nevirapine (NVP) and efavirenz (EFV). The persisting drug-resistant mutants decay slowly to low levels, and therefore they are called minor drug-resistant mutants. Consequently, they affect subsequent treatment with the drugs of the relevant class. Objectives: The objective of this study was to design two TaqMan real-time PCR-based assays called selective-polymerase chain reaction (SPCR), namely the total viral copy SPCR assay and the K103N-SPCR assay. The former detects HIV-1 of subtype C reverse transcriptase sequences, whereas the latter detects K103N drug-resistant variants in these sequences. Design and Methods: In developing the SPCR assays, sets of appropriate primers and probes for the HIV-1 subtype C reverse transcriptase (RT) were developed to use in the K103N-specific reaction and the total copy reaction. Twelve DNA plasmid standards with sequence diversity were constructed for the assay from two HIV-1subtype C samples known to harbour the K103N mutation (AAC or AAT) in our Department‟s Resistance Databank. Their RT regions were amplified, cloned and verified with sequencing. Site-directed mutagenesis was used to induce mutations at 103 amino acid position in some of these clones to generate more standards with either one of the three codons (AAA, AAC and AAT). The two assays were optimized and validated, and a standard curve was generated for each assay using 10-fold serial dilution (5x107-5x100 DNA copy/μL) of a K103N-mutant plasmid standard. The optimized and validated SPCR assays were used to screen 40 nested PCR products of previously genotyped patient samples for minor K103N variants. Results: Two sensitive and reproducible selective real-time PCR (SPCR) assays, with cut-offs of 8.23 and 10.33 and a detection limit of 0.01% for the K103N resistance variants, were successfully developed. The assays detected a prevalence of 25.64-46.15% for the K103N resistance mutation in 39 patient samples. The genotyping (population sequencing) missed 40-53.85% of these variants. Conclusion: In conclusion, sensitive and reliable selective real-time PCR assays to detect and quantify minor K103N variants of HIV-1 in nested PCR products were successfully developed. The assay had a lower detection limit of 0.01%.
- ItemIn-house genotypic antiretroviral resistance test : optimisation and validation for use in research and diagnostics(Stellenbosch : University of Stellenbosch, 2011-03) Claassen, Mathilda; Van Zyl, Gert Uves; Engelbrecht, Susan; University of Stellenbosch. Faculty of Health Sciences. Dept. of Pathology. Medical Virology.It is estimated that 32.8 million people are living with Human Immunodeficiency Virus (HIV) globally with the number of people receiving antiretroviral therapy in low- and middle- income counties increasing to more than 5 million people in 2009. These successes are threatened by treatment failure and the development of resistance to treatment. With an estimated 3.7% patients failing first line treatment after 2 years and 17.9% after 4 years on treatment there is a need for a practical and cheap in-house drug resistance assay that can be used to provide drug resistance data to clinicians and to use as a research tool to investigate drug resistance. In this study we attempted to optimize and validate an in-house drug resistance assay, adapted from Jacobs et al, 2008, to be used as a diagnostic tool and to study the presence of antiretroviral resistance in patients on the Western Cape Mother-To-Child-Transmission (MTCT) regimen. Quality control samples were received from The National Institute of Communicable Diseases AIDS Virus Research Unit, The Round Robin HIV-1 genotyping assessment system from the University of Würzburg and the QCMD assessment system were used for the optimization and validation of an in-house drug resistance assay. The ViroSeq™ HIV-1 Genotyping System was used for comparison of sample and mutation detection. It was possible to optimise and validate a genotyping assay for diagnostic testing and research use by comparison with the ViroSeq™ HIV-1 Genotyping System and evaluation with external quality assessment systems. This assay could subsequently be used to determine the development of genotypic-antiretroviral resistance in patients treated according to the provincial prevention of mother-to-child-transmission (PMTCT) protocol in the Western Cape (single dose nevirapine (sd-NVP), combined with a short course Zidovudine (AZT)). Patient samples were collected from pregnant women who took part in the Western Cape PMTCT program and visited the Tygerberg Obstetrics Clinic and Delft Community Hospital. EDTA blood was obtained to measure CD4-cell count, viral load, and to do genotyping for viral subtype and the presence of resistance mutations. Information on prior exposure to antiretroviral therapy was also collected. A detected resistance rate of 17.1% in this predominantly HIV-1 subtype C population is lower than previously recorded when sd-NVP was administered to HIV-1 subtype C positive patients in PMTCT programs. This could indicate that a dual PMTCT regimen including AZT and NVP reduces the risk of resistance to NVP relative to a regimen that uses sd-NVP. The genotyping assay uses four primers to amplify the PR and the RT gene separately to obtain PCR products, of 487 and 804 base pairs respectively for sequencing. The two PCR products were sequenced with three and five primers respectively to sequence the complete PR and approximately 250 amino acids of the RT gene. The sequences generated, thus, are analysed and aligned with the Sequencer V4.7 software to obtain a consensus sequence of approximately 1200 base pairs for analysis of resistance mutations in the protease and reverse transcriptase genes. The developed assay was hence further simplified and improved, by combining the PR and RT assay into one, which was optimised and validated for use in the routine diagnostic setting. The final genotyping assay uses 8 primers for sequencing to obtain a 1200 bp sequence for genotyping that contains the protease and the 5’ of the reverse transcriptase genes in which antiretroviral resistance associated mutations are found. The assay was accredited by SANAS in 2008.
- ItemInvestigating the fitness benefit of reverse transcriptase (RT) mutation A62V when co-occurring with M184V and K65R in HIV-1 subtype C(Stellenbosch : Stellenbosch University, 2016-03) Njenda, Duncan Tazvinzwa; Van Zyl, Gert Uves; Engelbrecht, Susan; Jacobs, Graeme Brendon; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.ENGLISH ABSTRACT: Background and Aims Tenofovir disoproxil fumarate (TDF) and lamivudine (3TC) or emtricitabine (FTC) combined with efavirenz is the predominant first-line antiretroviral regimen in the Southern African region. Resistance to TDF and 3TC/FTC is largely through the occurrence of the drug resistance mutations (DRMs) K65R and M184V, respectively. Preliminary data from a large laboratory-based dataset of HIV drug resistance that showed a high prevalence of these mutations in patients who received the TDF regimen also revealed a significant co-occurrence of A62V with M184V and K65R. The aim of this study was to investigate the functional interaction and effect on viral fitness that A62V has when it co-occurs with M184V and K65R reverse transcriptase mutations in HIV-1 Subtype C. Materials and Methods Using Infusion™ cloning and site-directed mutagenesis techniques, eight full-length genome infectious clones containing the HIV-1 subtype C polymerase gene were synthesised having all combinations of DRMs - A62V, M184V and K65R, either being present or absent. The mutations in these constructs were verified by sequencing. The constructs were transfected into 293T cells for virion production and harvested virus was infected in the TZM-bl cell line in head to head growth competition experiments and assayed for growth kinetics using an allele-specific quantitative real-time polymerase chain reaction (PCR) assay. Results The growth competition experiment between two viruses (A62V+K65R+M184V vs K65R+M184V) evaluated by taking the mean of 3 biological replicates in the assay in the absence of antiretroviral drugs, revealed that A62V mutation has no significant impact on fitness (Wilcoxon signed rank test p-value = 0.56). The overall coefficient of variation (CV) in the experiment was 12.8% indicating the high reproducibility of the growth competition assay using real-time PCR measurement of relative growth. Conclusion and recommendations A62V mutation has no effect on fitness when it co-occurs with M184V and K65R. The co-occurrence with M184V and K65R remains unexplained and might be due to an effect on TDF resistance in combination with K65R.This requires investigation in future studies as TDF regimens are part of 1st line therapy in many Sub-Saharan countries in the treatment of HIV-1. Finally, the cloning and mutagenesis techniques used coupled with a very sensitive and reproducible real-time quantitative PCR assay provide an efficient system for detection of mutation fitness interactions and can be used in any future work to study HIV mutation fitness interactions.
- ItemInvestigation of the HIV diversity in the Cape Winelands, Overberg and West Coast districts of the Western Cape Province of South Africa(Stellenbosch : Stellenbosch University, 2017-03) Mikasi, Sello Given; Jacobs, Graeme Brendon; Engelbrecht, Susan; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.ENGLISH SUMMARY: The Western Cape Province of South Africa has a well-established program that monitors active combination antiretroviral therapy (cART) against HIV-1. The HIV-1 prevalence rate in the Province has increased from 5.0% in 2011 to 18.0% in 2015. South Africa has the highest rate of infections worldwide (19.2%). In this study, we analyzed the Protease (PR), Reverse Transcriptase (RT) and Intergrase (IN) regions of HIV-1 for diversity and resistanceassociated mutations (RAMs) from samples obtained from the Cape Winelands, West Coast and Overberg districts of the Province, where no such study has ever been conducted. Samples were received from our diagnostic laboratory for HIV-1 viral load testing, through the National Health Laboratory Services (NHLS). Two hundred and five (205) patient samples with a viral load of 2000 copies/ml and above were included, based on Gall et al., (2012) who showed that a sensitivity of at least 2000 copies/ml is a limit of amplification for the SuperScsript ® III one-step RT with Platinum Taq DNA Polymerase kit, used in this study. We screened for HIV-1 diversity and RAMs using the pol PR, RT and IN regions with a laboratory-based PCR and sequencing protocol. Sequence-specific subtype analyses were executed with the REGA HIV subtyping tool 3.0, Recombinant Identification Program (RIP) 3.0 and subtype classification using evolutionary algorithms (SCUEAL) software. Sequences were screened for RAMs using the Stanford University HIV Drug Resistance Database (HIVdb) 8.1. We successfully PCR amplified 170 (82.9%) PR and 166 (80.9%) RT fragments. For the IN region, only 176 samples had sufficient plasma and RNA left after genotyping of the PR and RT regions. For IN we successfully amplified 143 (81.3%) of the patient samples. A total of 197 (96.1%) samples could be amplified for at least one of the pol regions. Of these, 62 (53.4%) PR, 103 (62.0%) RT and 93 (86.1%) IN sequences were obtained, respectively. We could successfully sequence 173 (84.4%) of the samples included. HIV-1 subtype C was predominant (n = 144; 93.7%), with 5.3% of other subtypes detected. This includes A1 (n = 2; 1.3%), B (n = 4; 2.6%), D (n = 1; 0.7%) and H (n =1; 0.7%). No major RAMs were detected against PI and IN inhibitors. Minor RAMs were detected in 4 PR (3.7%) and 15 IN (16.1%) sequences analysed. RAMs against RT inhibitors were detected in 63 (61.7%) of the sequences analyzed. This includes 39 NRTI mutations (36.1%) and 71 NNRTI mutations (63.5%) identified. As the national cART program continues to expand, HIV-1 diversity, viral load monitoring and drug resistance screening remains critical for the success of cART outcomes and reducing transmission rates. Our results reflect that subtype C is still the driving force of the epidemic in South Africa. However, we cannot ignore the potential impact of non-C subtypes. Sequence analyses confirm that the majority of patients receiving viral load testing have major RAMs against RT inhibitors used in first line therapy. Better surveillance systems for HIV diversity and drug resistance testing are required to ensure success of cART.
- ItemInvestigation of the molecular epidemiology of HIV-1 in Khayelitsha, Cape Town, using serotyping and genotyping techniques(Stellenbosch : University of Stellenbosch, 2005-12) Jacobs, Graeme Brendon; Engelbrecht, Susan; De Beer, Corena; University of Stellenbosch. Faculty of Health Sciences. Dept. of Pathology. Medical Virology.There are currently an estimated 5.3 million people infected with human immunodeficiency virus / acquired immunodeficiency syndrome (HIV/AIDS) in South Africa. HIV-1 group M Subtype C is currently responsible for the majority of HIV infections in sub-Saharan Africa (56% worldwide). The Khayelitsha informal settlement, located 30 km outside Cape Town, has one of the highest HIV prevalence rates in the Western Cape. The objective of this study was to investigate the molecular epidemiology of HIV-1 in Khayelitsha using serotyping and genotyping techniques. Patient samples were received from the Matthew Goniwe general health clinic located at site C in Khayelitsha. Serotyping was performed through a competitive enzymelinked immunosorbent assay (cPEIA). RNA was isolated from patient plasma and a two step RT-PCR amplification of the gag p24, env gp41 IDR, env gp120 V3 and pol genome regions performed. Sequences obtained were used for detailed sequence and phylogenetic analysis. Neighbour-joining and maximum likelihood phylogenetic trees were drawn to assess the relationship between the Khayelitsha sequences obtained and a set of reference sequences obtained from the Los Alamos National Library (LANL) HIV database (http://www.hiv.lanl.gov/). Through serotyping and genotyping the majority of HIV strains were characterised as HIV-1 group M subtype C. One sample (1154) was characterised as a possible C / D recombinant strain. In 9 other samples HIV-1 recombination cannot be excluded, as only one of the gene regions investigated could be amplified and characterised in these samples. The gag p24 genome region was found to be more conserved than the env gp41 IDR, with the env gp41 IDR more conserved than the env gp120 V3. The variability of the env gp120 V3 region indicates that patients might be dually infected with variant HIV-1 subtype C strains or quasispecies. Conserved regions identified in the Khayelitsha sequences can induce CD4+ T-cell responses and are important antibody recognition target sites. These conserved regions can play a key role in the development of an effective HIV-1 immunogen reactive against all HIV-1 subtypes. The majority of subtype C viruses were predicted to use CCR5 as their major chemokine co-receptor. The pol sequences analysed indicate that mutations associated with minor resistance to Protease Inhibitors (PIs) might be present in the Khayelitsha community. The identification of resistant mutations is vital for people receiving antiretroviral treatment (ART). It can influence the success of their treatment and delay the onset of AIDS. Serotyping is a quick characterisation method, but not always accurate. With genotyping detailed molecular analysis can be performed. However, with genotyping the success of amplification often depends on viral load. In Southern Africa a subtype C candidate vaccine appears to be the best option for future vaccine considerations. The sporadic detection of non-subtype C and recombinant subtype C viruses remains a concern and will thus have to be closely monitored. Phylogenetic analysis can help to classify and monitor the spread and evolution of these viruses.
- ItemMolecular characterisation of HIV-1 recombinants and non-subtype C viruses in South Africa(Stellenbosch : Stellenbosch University, 2019-03) Varathan, Olivette; Jacobs, Graeme Brendon; Engelbrecht, Susan; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.ENGLISH ABSTRACT: HIV/AIDS is a severe health burden, affecting 36.9 million people worldwide by the end of 2017. South Africa has the largest HIV-1 epidemic in the world, estimated at 7.2 million infected individuals by the end of 2017. The HIV-1 epidemic in South Africa is dominated by HIV-1 subtype C, accounting for an estimated 98.2% of the infections in the country, based on the viral sequences in the Los Alamos National Library (LANL) database. To date, to the best of our knowledge, 22 papers have been published on non-subtype C viruses in South Africa. This study aimed to characterise two near full-length genome sequences of non-subtype C viruses in South Africa. The study samples were obtained through the diagnostic services of the National Health Laboratory Services (NHLS), performing routine drug resistance testing within the Division of Medical Virology, Stellenbosch University. All samples received were sequenced in the partial pol region (~1.4kb) of the viral genome by the NHLS. The possible subtype of the virus was identified from the sequences using online subtyping programmes. All sequences and samples that identified as possible non-subtype C viruses were recorded in a separate non-subtype C cohort. In 2011, a possible C, D recombinant virus was first identified in this cohort. By the end of 2015, 30 similar recombinant viruses were observed in the cohort, indicating a possible emergence of this recombinant strain. Two of the samples that identified as possible C, D recombinants were selected for further near full-length genome (NFLG) characterisation. Proviral DNA, from sample EC148, was extracted from PBMCs and viral RNA, from sample WC416, was extracted from plasma. The RNA was reverse transcribed to DNA via cDNA synthesis. Both sample viruses were amplified by PCR in two rounds. The first round targeted the amplification of the HIV-1 NFLG (8978bp) and the second targeted the amplification of two overlapping fragments (5455bp and 4909bp). Positive PCR amplicons were purified and sequenced. The generated sequences were read and analysed before being used in online subtyping programmes. The jumping profile hidden markov model (jpHMM), REGA and recombination identification programmes (RIP) were used to preliminary assign subtypes to both samples. Phylogenetic analyses was inferred to confirm / reject the online subtyping programme results. Online subtyping programmes identified the virus sequences of samples EC148 and WC416 as complex A, C, D recombinants. Phylogenetic analysis confirmed the online subtyping programme results for the sequence of sample WC416 in identifying it as a complex A, C, D recombinant. Phylogenetic analysis indicated that the sequence of sample EC148 is consistent with the results observed from the online subtyping programmes. Each HIV-1 sequence identified as a unique complex recombinant form as the breakpoints between the different subtypes differed. The emergence of new and unique non-subtype C recombinants in South Africa indicates that the epidemic is complex and evolving. It is therefore important to monitor the spread of different HIV subtypes circulating in South Africa.
- ItemMolecular characterization of non-subtype C and recombinant HIV-1 viruses from Cape Town, South Africa(Stellenbosch : University of Stellenbosch, 2009-03) Wilkinson, Eduan; Engelbrecht, Susan; University of Stellenbosch. Faculty of Health Sciences. Dept. of Pathology.ENGLISH ABSTRACT: HIV-1 was first diagnosed within South Africa in 1982. In the 1980’s homosexual transmission dominated the HIV-1 epidemic within the country. In the late 1980’s the second HIV-1 epidemic was recognized amongst heterosexual individuals. Today heterosexual transmission of HIV-1 dominates the epidemic in South Africa. Subtype C HIV-1 is responsible for the overwhelming majority of heterosexual infections. An estimated 95% of all infections in the country are thought to be subtype C related. To date only a few papers have been published on non-subtype C HIV within the country. This study characterized subgenomic and near full-length sequences of non-subtype C HIV-1 viruses from the Cape Town area. The gag p24, pol-integrase, and env gp41 regions of 11 of the 12 samples were characterized by amplification and direct sequencing. Phylogenetic analysis of the sequenced data, with online subtyping tools (REGA and jpHMM) and the drawing of NJ-trees revealed the presence of subtype A1, B, F1 and recombinant viral forms such as AD, AG and AC. One of the isolates was classified as a subtype C and was included for control purposes. Near full-length characterization of four of the samples were attempted, through full genome PCR amplification and sequencing. Analysis of sequenced data with the use of subtyping-, recombination identification, and tree drawing tools revealed a subtype B, and A1 isolate. The other two isolates were identified as possible AC and AD recombinants. The data that was generated will greatly improve our knowledge of non-subtype C isolates circulating within South Africa. Due to the possible impact that the high degree of genetic variation that HIV may have on vaccine design and development and ARV treatment and HIV diagnosis, ongoing research of the epidemiology and spread of HIV within South Africa are needed.
- ItemPhylogenetic analysis of HIV-1 in Mpumalanga(Stellenbosch : Stellenbosch University, 2013-03) Msimanga, Wela Patrick; Engelbrecht, Susan; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Medical Virology.The diversity of HIV-1 sequences derived from patients in Bushbuckridge, Mpumalanga, was investigated. The gag p24, pol p10 and p66/p51, pol p31 and env gp41 gene fragments from 51 patients were amplified and sequenced. Quality control on the sequences was carried out using the LANL QC online tool. HIV-1 subtype was assigned using the LANL QC (RIP), REGA and jpHMM online tools. Subtype for the pol gene fragment was further designated using the SCUEAL online tool. Most of the sequences, that is 89%, belonged to HIV-1 subtype C. LANL QC (RIP), REGA, jpHMM also detected recombinants in 11% of the sequences. One of the isolates could only have the env gp41 gene fragment amplified and sequenced, which was determined to be HIV-1 subtype B. Phylogenetic analysis using the Neighbor-Joining and Maximum Likelihood methods from MEGA v 5 showed that, except for the env gp41 designated as a subtype B, all sequences in the study clustered with HIV-1 subtype C. Significantly, phylogenetic analysis showed that not only are the Bushbuckridge, Mpumalanga sequences related to HIV-1 subtype C sequences from southern Africa, India, Ethiopia and Brazil, but it is possible there has been multiple introductions of HIV-1 in the province. SDRMs were observed in two samples.