[摘要] ENGLISH ABSTRACT: Efavirenz is an antiretroviral drug used in the treatment of HIV-positive patients as part of first line triple-highly active antiretroviral therapy. Treatment response varies among individuals and adverse drug reactions tend to occur, as a result of the variation in the rate of efavirenz metabolism among individuals. This is partly caused by genetic variation; therefore the study of genes involved in the metabolism of efavirenz, such as CYP2B6, could potentially enhance treatment success. The effect of CYP2B6 SNP 516G>T (part of the CYP2B6*6 allele) is particularly important, as individuals homozygous for the minor allele of this SNP have significantly increased efavirenz levels. Furthermore, nuclear receptors, specifically constitutive androstane receptor, encoded by NR1I3, and pregnane X receptor, encoded by NR1I2, are involved in the regulation of the genes responsible for efavirenz metabolism and could therefore indirectly influence the pharmacokinetics of efavirenz.The current study identified variants in the NR1I3 and NR1I2 genes through in silico analysis, bi-directional sequencing and literature searches. A total of nine NR1I3 and ten NR1I2 target variants were subsequently genotyped in 132 HIV-positive female patients from the Xhosa and Cape Mixed Ancestry populations. The resulting genotype and allele frequencies were statistically analysed to search for correlations between genetic variations and available efavirenz levels in hair samples, treatment outcome as measured by viral load, and the occurrence of adverse drug reactions. The minor allele of a NR1I2 5'-upstream SNP, rs1523128 (6334A>G), was significantly associated with decreased efavirenz levels. From analysis of the effect of composite SNPs, NR1I3 5'-upstream SNP rs55802895 (258G>A) in conjunction with CYP2B6*6, was significantly associated with efavirenz-levels. It was found that the minor allele of rs55802895 inhibited the effect of CYP2B6*6, resulting in normal efavirenz levels for individuals homozygous for the minor allele of both SNPs. Additionally, when the target NR1I3 and NR1I2 variants were analysed in conjunction with six SNPs from CYP1A2, CYP2A6, CYP3A4 and CYP3A5, 11 compound genotypes were shown to be statistically associated with mean EFV plasma levels. The study emphasises the complexity of efavirenz metabolism, and the importance of transcriptional regulation in xenobiotic metabolism.