literature

HIV mutation literature information.

HIV drug resistance surveillance using pooled pyrosequencing.

PMID: 20174661 2010 PloS one

Abstract: Using Sanger sequencing, two TDR mutations, M46L and I84V, were each detected as mixtures at a frequency of 1.04% (1/96).

Table: I84V

Figure: All positive pyrosequencing reads containing M46L (a) and I84V (b) were analyzed with Sanger sequences from the 96 specimens using Neighbour-Joining (K-2-P) with 100 bootstraps.

HIV-1 protease inhibitors with a transition-state mimic comprising a tertiary alcohol: improved antiviral activity in cells.

PMID: 19961222 2010 Journal of medicinal chemistry

Abstract: The synthesis of 25 new and optically pure HIV-1 protease inhibitors is reported, along with methods for elongation of the inhibitor P1' side chain using microwave-accelerated, palladium-catalyzed cross-coupling reactions, the biological evaluation, and X-ray data obtained from one of the most potent analogues cocrystallized with both the wild type and the L63P, V82T, I84 V mutant of the HIV-1 protease.

Design and synthesis of novel P2 substituents in diol-based HIV protease inhibitors.

PMID: 19926360 2010 European journal of medicinal chemistry

Abstract: These inhibitors were also tested against an HIV protease inhibitor resistant strain carrying the M46I, V82F, and I84V mutations.

Some insights into mechanism for binding and drug resistance of wild type and I50V V82A and I84V mutations in HIV-1 protease with GRL-98065 inhibitor from molecular dynamic simulations.

PMID: 19910081 2010 European journal of medicinal chemistry

Abstract: Our results show I50V and V82A have larger structural changes than I84V compared with WT.

Abstract: The reduced van der Waals energy explains the drug resistance of I84V to GRL-98065.

Abstract: The single mutations I50V, V82A and I84V are considered as the key residue mutations of the HIV-1 protease drug resistance.

Accurate ensemble molecular dynamics binding free energy ranking of multidrug-resistant HIV-1 proteases.

PMID: 20384328 2010 Journal of chemical information and modeling

Abstract: Multidrug resistance to lopinavir is enthalpically driven and increases through a decrease in the protein-ligand van der Waals interaction, principally due to the V82A/I84V mutation, and an increase in net electrostatic repulsion due to water-mediated disruption of protein-ligand interactions in the catalytic region.

Prevalence and clinical significance of HIV drug resistance mutations by ultra-deep sequencing in antiretroviral-naive subjects in the CASTLE study.

PMID: 20532178 2010 PloS one

Table: I84V

Prevalence, mutation patterns, and effects on protease inhibitor susceptibility of the L76V mutation in HIV-1 protease.

PMID: 20805393 2010 Antimicrobial agents and chemotherapy

Abstract: Common partner mutations included M46I, I54V, V82A, I84V, and L90M.

Amprenavir complexes with HIV-1 protease and its drug-resistant mutants altering hydrophobic clusters.

PMID: 20695887 2010 The FEBS journal

Abstract: The PR(I84V)-APV complex had lost hydrophobic contacts with APV, the PR(V32I)-APV complex showed increased hydrophobic contacts within the hydrophobic cluster and the PR(I50V) complex had weaker polar and hydrophobic interactions with APV.

Abstract: The observed structural changes in PR(I84V)-APV, PR(V32I)-APV and PR(I50V)-APV were related to their reduced inhibition by APV of six-, 10- and 30-fold, respectively, relative to wild-type PR.

Abstract: The structural and kinetic effects of amprenavir (APV), a clinical HIV

Decomposing the energetic impact of drug resistant mutations in HIV-1 protease on binding DRV.

PMID: 20543885 2010 Journal of chemical theory and computation

Figure: B) The perturbation of Ile84 to Val84.

Figure: Perturbation of Val82 to Thr and Ile84 to Val.

Discussion: Comparing the trajectories from MD simulations on the wild-type protease and the V82F/I84V protease variant, Perryman et al.

Novel protease inhibitors (PIs) containing macrocyclic components and 3(R),3a(S),6a(R)-bis-tetrahydrofuranylurethane that are potent against multi-PI-resistant HIV-1 variants in vitro.

PMID: 20439612 2010 Antimicrobial agents and chemotherapy

Abstract: At passage 50 with GRL-216 (the HIV isolate selected with GRL-216 at up to 0.16 microM [HIV216-0.16 microM]), HIV-1NL4-3 containing the L10I, L24I, M46L, V82I, and I84V mutations remained relatively sensitive to PIs, including darunavir, with the EC50s being 3- to 8-fold-greater than the EC50 of each drug for HIV-1NL4-3.

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