Molecular simulation of the folding patterns of the omega-loop (Tyr181 to Tyr188) of HIV-1 reverse transcriptase.

Drug design and discovery Pub Date : 1996-12-01
P P Mager
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Abstract

A large, highly hydrophilic and constrained omega-loop was dissected from the allosteric area of HIV-1 reverse transcriptase (segment Tyr181 to Tyr188). The loop contains two amino acids (Asp185, Asp186) of the catalytic aspartyl triad (Asp110, Asp185, Asp186) and two amino acids (Tyr181, Tyr188) of the nonnucleoside RT inhibitor (NNRTI) binding sites. Hydrogen-bonding forces between the two folded peptide chains play the greatest role in holding the two chains together and in specifying the folding patterns. The treatment of solvents as dielectric continuums surrounding the AMBER force field model has shown changes in conformation but these changes were not dramatically because the omega-loop shape was completely maintained.

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HIV-1逆转录酶- ω -环(Tyr181至Tyr188)折叠模式的分子模拟。
从HIV-1逆转录酶(片段Tyr181至Tyr188)的变抑区解剖出一个大的、高度亲水的限制性ω -环。该环含有催化天门冬氨酸三联体(Asp110、Asp185、Asp186)的两个氨基酸(Asp185、Asp186)和非核苷类RT抑制剂(NNRTI)结合位点的两个氨基酸(Tyr181、Tyr188)。两条折叠肽链之间的氢键力在将两条肽链固定在一起和确定折叠模式方面起着最大的作用。在AMBER力场模型周围,溶剂作为介质连续体的处理显示出构象的变化,但这些变化并不明显,因为ω -环形状完全保持不变。
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Drug design and discovery
Drug design and discovery
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