Bessong, P. OFolefoc, APhadagi, Muendi Tshililelwa2015-07-162015-07-162015-07-16Phadagi, M.T. 2015. Construction of an HIV-1 subtype C ventor system for phenotypic drug resistance studies. . . http://hdl.handle.net/11602/301http://hdl.handle.net/11602/301MSc (Microbiology)Department of MicrobiologyAcquired immunodeficiency syndrome (AIDS) caused by human immunodeficiency virus (HIV) is one of the world's most deadly infectious disease. HIV-1 infections accounts for over 60% of global infections, yet majority of researchers are focused on subtype B viruses which only accounts for <12% of the global pandemic. UNAIDS has estimated 33.3 million HIV-1 infections globally in 2011, and South Africa accounts for 5.6 million of these infections. HIV- 1 subtype C viruses predominate in Southern Africa and are rapidly spreading across the world accounting for more than 50% of infections worldwide. The focus on reverse transcriptase (RT) and protease (PR) gene as targets of antiviral therapy has led to the discovery of various major, minor and polymorphic mutations harbored thereof. There are mutations in HIV-1 subtype B strains that develop only under drug pressure leading to ARV drug resistance. These mutations have been observed in subtype C strains as polymorphisms. The aim of this study was to construct an HIV-1 subtype C vector system which could be used to evaluate the phenotypic significance of putative resistant mutations observed in HIV-1 subtype C polymerase gene sequences. A mammalian derived plasmid pCMVGagPol(lndieC)RRE comprising unique Apal and Hpal restriction sites was previously modified. Viral RNA from 14 drug narve patient samples was reverse transcribed to cDNA using transcriptor reverse transcriptase thereafter amplified using nested PCR. The amplified 1650bp gene was cloned into pGEMT easy cloning vector and expanded in DHSa competent cells. Viral DNA was subsequently extracted from the pGEMT vector by double digestion using Apal and Hpal restriction enzymes. A 1650 bp fragment was excised from pCMVGagPol(lndieC)RRE and replaced by a 1650 bp purified viral DNA to construct pCMVGagPol(Patient)RRE. Chimeric virus was expanded in DHSa cells followed by successive restriction digestion and colony PCR to confirm the cloned HIV- 1 c GagPol gene. Orientation of the cloned viral DNA was confirmed by sequencing the vector and identifying the restriction enzyme positions. Of the analyzed sample sequences, the identified significant polymorphisms observed were K20R, M36L, 193L and L89M, these mutations are known to be associated with susceptibility to Pl's in subtype B viruses. The constructed pCMVGagPol(patient)RRE chimeric virus can be used for subsequent evaluation of mutations that are present in nai°Ve and treatment exposed viruses but whose importance is not clear.1 online resource (xvi, 70, 16 leaves): color illustrationsenUniversity of VendaAcquired immunodeficiency syndromeUCTDGlobal pandemicPhenotype drug resistanceViral DNA616.97920968HIV (Viruses) -- South AfricaHIV infections -- South AfricaAIDS (Disease) -- South AfricaHIV-positive persons -- South AfricaPatients -- South AfricaDrug resistance -- South AfricaDissertationPhadagi MT. Construction of an HIV-1 subtype C ventor system for phenotypic drug resistance studies. []. , 2015 [cited yyyy month dd]. Available from: http://hdl.handle.net/11602/301Phadagi, M. T. (2015). <i>Construction of an HIV-1 subtype C ventor system for phenotypic drug resistance studies</i>. (). . Retrieved from http://hdl.handle.net/11602/301Phadagi, Muendi Tshililelwa. <i>"Construction of an HIV-1 subtype C ventor system for phenotypic drug resistance studies."</i> ., , 2015. http://hdl.handle.net/11602/301TY - Dissertation AU - Phadagi, Muendi Tshililelwa DA - 2015-07-16 DB - ResearchSpace DP - Univen KW - Acquired immunodeficiency syndrome KW - Global pandemic KW - Phenotype drug resistance KW - Viral DNA LK - https://univendspace.univen.ac.za PY - 2015 T1 - Construction of an HIV-1 subtype C ventor system for phenotypic drug resistance studies TI - Construction of an HIV-1 subtype C ventor system for phenotypic drug resistance studies UR - http://hdl.handle.net/11602/301 ER -