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      Structural Aspects of Drug Resistance and Inhibition of HIV-1 Reverse Transcriptase

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          Abstract

          HIV-1 Reverse Transcriptase (HIV-1 RT) has been the target of numerous approved anti-AIDS drugs that are key components of Highly Active Anti-Retroviral Therapies (HAART). It remains the target of extensive structural studies that continue unabated for almost twenty years. The crystal structures of wild-type or drug-resistant mutant HIV RTs in the unliganded form or in complex with substrates and/or drugs have offered valuable glimpses into the enzyme’s folding and its interactions with DNA and dNTP substrates, as well as with nucleos(t)ide reverse transcriptase inhibitor (NRTI) and non-nucleoside reverse transcriptase inhibitor (NNRTIs) drugs. These studies have been used to interpret a large body of biochemical results and have paved the way for innovative biochemical experiments designed to elucidate the mechanisms of catalysis and drug inhibition of polymerase and RNase H functions of RT. In turn, the combined use of structural biology and biochemical approaches has led to the discovery of novel mechanisms of drug resistance and has contributed to the design of new drugs with improved potency and ability to suppress multi-drug resistant strains.

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          MOLMOL: a program for display and analysis of macromolecular structures.

          R Koradi, M Billeter, K Wüthrich (1996)
          MOLMOL is a molecular graphics program for display, analysis, and manipulation of three-dimensional structures of biological macromolecules, with special emphasis on nuclear magnetic resonance (NMR) solution structures of proteins and nucleic acids. MOLMOL has a graphical user interface with menus, dialog boxes, and on-line help. The display possibilities include conventional presentation, as well as novel schematic drawings, with the option of combining different presentations in one view of a molecule. Covalent molecular structures can be modified by addition or removal of individual atoms and bonds, and three-dimensional structures can be manipulated by interactive rotation about individual bonds. Special efforts were made to allow for appropriate display and analysis of the sets of typically 20-40 conformers that are conventionally used to represent the result of an NMR structure determination, using functions for superimposing sets of conformers, calculation of root mean square distance (RMSD) values, identification of hydrogen bonds, checking and displaying violations of NMR constraints, and identification and listing of short distances between pairs of hydrogen atoms.
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            A general two-metal-ion mechanism for catalytic RNA.

            T. A. Steitz, J. A. Steitz (1993)
            A mechanism is proposed for the RNA-catalyzed reactions involved in RNA splicing and RNase P hydrolysis of precursor tRNA. The mechanism postulates that chemical catalysis is facilitated by two divalent metal ions 3.9 A apart, as in phosphoryl transfer reactions catalyzed by protein enzymes, such as the 3',5'-exonuclease of Escherichia coli DNA polymerase I. One metal ion activates the attacking water or sugar hydroxyl, while the other coordinates and stabilizes the oxyanion leaving group. Both ions act as Lewis acids and stabilize the expected pentacovalent transition state. The symmetry of a two-metal-ion catalytic site fits well with the known reaction pathway of group I self-splicing introns and can also be reconciled with emerging data on group II self-splicing introns, the spliceosome, and RNase P. The role of the RNA is to position the two catalytic metal ions and properly orient the substrates via three specific binding sites.
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              Crystal structure at 3.5 A resolution of HIV-1 reverse transcriptase complexed with an inhibitor.

              L A Kohlstaedt, J. Wang, J Friedman (1992)
              A 3.5 angstrom resolution electron density map of the HIV-1 reverse transcriptase heterodimer complexed with nevirapine, a drug with potential for treatment of AIDS, reveals an asymmetric dimer. The polymerase (pol) domain of the 66-kilodalton subunit has a large cleft analogous to that of the Klenow fragment of Escherichia coli DNA polymerase I. However, the 51-kilodalton subunit of identical sequence has no such cleft because the four subdomains of the pol domain occupy completely different relative positions. Two of the four pol subdomains appear to be structurally related to subdomains of the Klenow fragment, including one containing the catalytic site. The subdomain that appears likely to bind the template strand at the pol active site has a different structure in the two polymerases. Duplex A-form RNA-DNA hybrid can be model-built into the cleft that runs between the ribonuclease H and pol active sites. Nevirapine is almost completely buried in a pocket near but not overlapping with the pol active site. Residues whose mutation results in drug resistance have been approximately located.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Viruses
                Title: Viruses
                Publisher: Molecular Diversity Preservation International (MDPI)
                ISSN (Electronic): 1999-4915
                Publication date Collection: February 2010
                Publication date (Electronic): 11 February 2010
                Volume: 2
                Issue: 2
                Pages: 606-638
                Affiliations
                Christopher Bond Life Sciences Center & Department of Molecular Microbiology & Immunology, University of Missouri, Columbia, Missouri 65211, USA; E-Mails: singhka@ 123456missouri.edu (K.S.); marchandb@ 123456missouri.edu (B.M.); kirbyk@ 123456missouri.edu (K.A.K.); em6f4@ 123456mail.missouri.edu (E.M.)
                Author notes
                [* ]Author to whom correspondence should be addressed; E-Mail: sarafianoss@ 123456missouri.edu ; Tel.: +1-573-882-4338.
                Article
                Publisher ID: viruses-02-00606
                DOI: 10.3390/v2020606
                PMC ID: 2850067
                PubMed ID: 20376302
                SO-VID: 58c55463-ea82-49e9-a780-67f6578cfb31
                Copyright © © 2010 by the authors; licensee Molecular Diversity Preservation International, Basel, Switzerland.
                License:

                This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license ( http://creativecommons.org/licenses/by/3.0/).

                History
                Date received : 2 December 2009
                Date revision received : 22 January 2010
                Date accepted : 3 February 2010
                Categories
                Subject: Review

                ScienceOpen disciplines: Microbiology & Virology
                Keywords: excision,translocation defective rt inhibitors,drug resistance,hiv-1 reverse transcriptase,nucleoside rt inhibitors,non-nucleoside rt inhibitors
                Data availability:
                ScienceOpen disciplines: Microbiology & Virology
                Keywords: excision, translocation defective rt inhibitors, drug resistance, hiv-1 reverse transcriptase, nucleoside rt inhibitors, non-nucleoside rt inhibitors

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