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Structure-based evaluation of non-nucleoside inhibitors with improved potency and solubility that target HIV reverse transcriptase variants
(American Chemical Society, 2015-03)
The development of novel non-nucleoside inhibitors (NNRTIs) with activity against variants of HIV reverse transcriptase (RT) is crucial for overcoming treatment failure. The NNRTIs bind in an allosteric pocket in RT ∼10 Å ...
Structure-based evaluation of C5 derivatives in the catechol diether series targeting HIV-1 reverse transcriptase
(Wiley, 2014-05)
Using a computationally driven approach, a class of inhibitors with picomolar potency known as the catechol diethers were developed targeting the non-nucleoside-binding pocket of HIV-1 reverse transcriptase. Computational ...
Potent inhibitors active against HIV reverse transcriptase with K101P, a mutation conferring rilpivirine resistance
(American Chemical Society, 2015-09)
Catechol diether compounds have nanomolar antiviral and enzymatic activity against HIV with reverse transcriptase (RT) variants containing K101P, a mutation that confers high-level resistance to FDA-approved non-nucleoside ...
Picomolar inhibitors of HIV-1 reverse transcriptase: Design and crystallography of naphthyl phenyl ethers
(American Chemical Society, 2014-11)
Catechol diethers that incorporate a 6-cyano-1-naphthyl substituent have been explored as non-nucleoside inhibitors of HIV-1 reverse transcriptase (NNRTIs). Promising compounds are reported that show midpicomolar activity ...
Paste one version of a text here.picomolar inhibitors of HIV reverse transcriptase featuring bicyclic replacement of a cyanovinylphenyl group
(American Chemical Society, 2013-10)
Members of the catechol diether class are highly potent non-nucleoside inhibitors of HIV-1 reverse transcriptase (NNRTIs). The most active compounds yield EC50 values below 0.5 nM in assays using human T-cells infected by ...