1s9g: Difference between revisions

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OCA

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 ==Overview==
-Anti-AIDS drug candidate and non-nucleoside reverse transcriptase, inhibitor (NNRTI) TMC125-R165335 (etravirine) caused an initial drop in, viral load similar to that observed with a five-drug combination in naive, patients and retains potency in patients infected with NNRTI-resistant, HIV-1 variants. TMC125-R165335 and related anti-AIDS drug candidates can, bind the enzyme RT in multiple conformations and thereby escape the, effects of drug-resistance mutations. Structural studies showed that this, inhibitor and other diarylpyrimidine (DAPY) analogues can adapt to changes, in the NNRTI-binding pocket in several ways: (1). DAPY analogues can bind, in at least two conformationally distinct modes; (2). within a given, binding mode, torsional flexibility ("wiggling") of DAPY analogues permits, access to numerous conformational variants; and (3). the compact design of, the DAPY analogues permits significant repositioning and reorientation, (translation and rotation) within the pocket ("jiggling"). Such, adaptations appear to be critical for potency against wild-type and a wide, range of drug-resistant mutant HIV-1 RTs. Exploitation of favorable, components of inhibitor conformational flexibility (such as torsional, flexibility about strategically located chemical bonds) can be a powerful, drug design concept, especially for designing drugs that will be effective, against rapidly mutating targets.
+Anti-AIDS drug candidate and non-nucleoside reverse transcriptase inhibitor (NNRTI) TMC125-R165335 (etravirine) caused an initial drop in viral load similar to that observed with a five-drug combination in naive patients and retains potency in patients infected with NNRTI-resistant HIV-1 variants. TMC125-R165335 and related anti-AIDS drug candidates can bind the enzyme RT in multiple conformations and thereby escape the effects of drug-resistance mutations. Structural studies showed that this inhibitor and other diarylpyrimidine (DAPY) analogues can adapt to changes in the NNRTI-binding pocket in several ways: (1). DAPY analogues can bind in at least two conformationally distinct modes; (2). within a given binding mode, torsional flexibility ("wiggling") of DAPY analogues permits access to numerous conformational variants; and (3). the compact design of the DAPY analogues permits significant repositioning and reorientation (translation and rotation) within the pocket ("jiggling"). Such adaptations appear to be critical for potency against wild-type and a wide range of drug-resistant mutant HIV-1 RTs. Exploitation of favorable components of inhibitor conformational flexibility (such as torsional flexibility about strategically located chemical bonds) can be a powerful drug design concept, especially for designing drugs that will be effective against rapidly mutating targets.
 ==About this Structure==
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 [[Category: Das, K.]]
 [[Category: Decorte, B.]]
-[[Category: Hughes, S.H.]]
+[[Category: Hughes, S H.]]
-[[Category: Janssen, P.A.]]
+[[Category: Janssen, P A.]]
-[[Category: Jr., A.D.Clark.]]
+[[Category: Jr., A D.Clark.]]
-[[Category: Kukla, M.J.]]
+[[Category: Kukla, M J.]]
-[[Category: Lewi, P.J.]]
+[[Category: Lewi, P J.]]
-[[Category: Ludovici, D.W.]]
+[[Category: Ludovici, D W.]]
 [[Category: ABZ]]
 [[Category: aids]]
@@ Line 32: / Line 32: @@
 [[Category: rt]]
-''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Fri Feb 15 16:52:58 2008''
+''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 14:59:16 2008''