We have developed a duplex real-time RT-PCR assay for profiling antiviral inhibitors of four dengue virus (DENV) serotypes. In this assay, the primers and the probe for amplifying DENV were designed in the conserved regions of the genome after aligned more than 300 nucleotide sequences of four dengue serotypes deposited in the GeneBank. To discriminate the antiviral activity from the cytotoxicity of compounds, a housekeeping gene of the Vero cells, β-actin, was used to design the primers and the probe for the second set of PCR as an internal control, which is used to normalize the RNA levels of dengue-specific PCR due to the cellular toxicity of test compounds. For compound profiling, the duplex PCR is performed using LightCycler(®) in a single tube to simultaneously amplify both the dengue target gene and the Vero cell housekeeping gene from the compound-treated Vero cell lysates. This assay was validated against a panel of reference compounds. The results show that the universal primers and probe in this duplex RT-PCR assay can efficiently amplify all four dengue serotypes and that the PCR efficiency for both the dengue target gene and the Vero cells β-actin gene is 100%.
Human immunodeficiency virus type 1 (HIV-1) integrase is, in addition to reverse transcriptase and protease, an important enzymatic target for antiretroviral drug development. Integrase plays a critical role in the HIV-1 life cycle coordinating the integration of the reverse-transcribed viral DNA into the host genome. This integration step is the net result of two consecutive integrase-related processes. First, integrase removes a dinucleotide from the 3' viral DNA ends in a process called 3'-processing. Next, in a process called strand transfer, the viral DNA is integrated into the host genomic DNA. Early on, biochemical assays have played a critical role in understanding the function of HIV-1 integrase and the discovery of small-molecule inhibitors. In this chapter we describe two biochemical assays to identify inhibitors of the 3'-processing and strand transfer process of HIV-1 integrase.
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