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1.
用分子对接程序(Autodock)将含有一个Mg2+的HIV-1整合酶核心区(以下简称IN-A)与抑制剂小分子金精三羧酸(简称Aurin)进行对接,预测其未知的复合物结构,然后用分子动力学(MD)方法对IN-A与Aurin的对接结果进行了950 ps的模拟.MD模拟结果发现,IN-A与Aurin形成了两个稳定的氢键,Mg2+也与Aurin上的氧原子形成了稳定的配键,IN-A与Aurin之间的静电相互作用能和范德华相互作用能的平均值分别为-205.8和-162.7 kJ/mol.根据MD模拟得到的IN-A与Aurin相互作用后的构象变化信息,我们对对接复合物结构进行了修正,给出了更加合理和稳定的复合物预测结构.本工作得到的HIV-1整合酶与抑制剂Aurin的结合模式信息将有助于设计和改造出效果更好的抗HIV-1整合酶的先导化合物.  相似文献   

2.
用分子对接方法研究HIV-1整合酶与病毒DNA的结合模式   总被引:2,自引:0,他引:2  
用分子对接方法研究了HIV-1整合酶(Integrase, IN)二聚体与3’ 端加工(3’ Processing, 3’-P)前的8 bp及27 bp病毒DNA的相互作用, 并获得IN与27 bp病毒DNA的特异性结合模式. 模拟结果表明, IN有特异性DNA结合区和非特异性DNA结合区; IN二聚体B链的K14, R20, K156, K159, K160, K186, K188, R199和A链的K219, W243, K244, R262, R263是IN结合病毒DNA的关键残基; 并从结构上解释了能使IN发挥活性的病毒DNA的最小长度是15 bp. 通过分析结合能发现, IN与DNA稳定结合的主要因素是非极性相互作用, 而关键残基与病毒DNA相互识别主要依赖于极性相互作用. 模拟结果与实验数据较吻合.  相似文献   

3.
用分子对接方法研究了HIV-1整合酶(Integrase,IN)二聚体与3’端加工(3’Processing,3’-P)前的8bp及27bp病毒DNA的相互作用,并获得IN与27bp病毒DNA的特异性结合模式。模拟结果表明,IN有特异性DNA结合区和非特异性DNA结合区;IN二聚体B链的K14,R20,K156,K159,K160,K186,K188,R199和A链的K219,W243,K244,R262,11263是IN结合病毒DNA的关键残基;并从结构上解释了能使IN发挥活性的病毒DNA的最小长度是15bp。通过分析结合能发现,IN与DNA稳定结合的主要因素是非极性相互作用,而关键残基与病毒DNA相互识别主要依赖于极性相互作用.模拟结果与实验数据较吻合。  相似文献   

4.
胡建平  张小轶  唐典勇  常珊 《化学学报》2009,67(19):2177-2183
用分子对接方法研究了一系列芳香二酮酸类抑制剂与HIV-1整合酶的识别及相互作用. 结果表明, 抑制剂结合到整合酶Asp64~Leu68, Thr115~Phe121, Gln148~Lys159和Mg2+所构成的口袋区, 抑制机理与5CITEP相似. 采用分子动力学模拟和MM/PBSA方法计算了芳香二酮酸类抑制剂与整合酶之间的结合自由能, 计算结果与实验值相吻合, 平均绝对偏差为3.6 kJ/mol, 体系范德华相互作用和溶剂化效应的非极性项是利于形成复合物的主要因素. 相关性分析结果表明, 结合自由能值与疏水相互作用有较强的线性相关(R=0.61), 基于此, 用多元线性回归方法给出了一个能较强预测芳香二酮酸类抑制剂与HIV-1整合酶的结合自由能预测模型, 为后续基于抑制剂结构的抗HIV-1药物分子设计提供指导.  相似文献   

5.
在HIV-1整合酶(IN)和5CITEP复合物晶体结构的基础上, 用分子对接程序(Affinity)将含有单Mg2+和双Mg2+ 的HIV-1 IN核心区与抑制剂5CITEP进行对接, 获得了能形成复合物结构的理论模型. 通过配体与受体之间的相互作用能和结构分析给出此种抑制剂的结合模式, 并与晶体结构进行比较, 揭示出引入的第二个Mg2+原子在整合过程中所起的重要作用. 前后相互作用能的变化趋势很明显, 配体和受体的作用模式比单Mg2+体系更加清晰. 由单Mg2+体系的4种作用方式改变到双Mg2+体系的两种作用方式, 相互作用能提高了将近40 kJ/mol. 为基于整合酶结构的药物设计提供了参考信息.  相似文献   

6.
用分子对接和分子动力学(MD)模拟方法研究了一类咖啡酰基和没食子酰基类HIV-1整合酶抑制剂与整合酶之间的相互作用模式, 结果表明该类抑制剂分子上的两个侧链基团(咖啡酰基或没食子酰基)与整合酶的DDE基序之间的相互作用对抑制整合酶活性起到关键作用. 当侧链基团为没食子酰基时, 可以提高该类抑制剂与整合酶的结合能力. 采用线性相互作用能方法(LIE)计算了该类抑制剂与整合酶之间的结合自由能, 预测值与实验值相吻合, 均方根偏差RMSD为1.39 kJ•mol-1, 以上结果可为基于结构的HIV-1整合酶抑制剂设计提供有用的信息.  相似文献   

7.
HIV-1整合酶与抑制剂LCA的结合模式及抗药性研究   总被引:2,自引:0,他引:2  
Ⅰ型人体免疫缺陷病毒(HIV-1)整合酶(integrase, IN)是病毒生命周期中一个重要的酶, 也是研究抗HIV新药的一个重要靶点. 运用多构象分子对接和分子动力学(molecular dynamics, MD)模拟, 研究了野生型整合酶核心区及G140S点突变的突变态整合酶核心区与抑制剂L-菊苣酸(L-chicoric acid, LCA)的结合模式, 并基于该结合模式探讨了G140S突变态整合酶对抑制剂LCA的抗药性. 结果表明: LCA结合到G140S突变态整合酶核心区中的位置与结合到野生型整合酶核心区的位置不同, 结合位置的差异导致LCA抑制作用的部分丧失; IN功能Loop区的柔性以及Mg2+离子与三个关键残基D64, D116和E152之间的相互作用有助于IN发挥生物学功能; G140S突变态整合酶核心区中的E152与LCA的排斥作用、K159与LCA结合能力的变弱以及Y143指向IN的口袋区是产生抗药性的重要原因. 这些模拟结果与实验结果吻合, 可为基于IN的抗HIV药物分子设计提供一些有用信息.  相似文献   

8.
王丽东  王存新 《化学学报》2008,66(7):817-822
HIV-1整合酶(IN)通过依赖金属离子的两步反应将病毒DNA整合入宿主细胞过程中。结合于HIV-1上的金属离子个数的变化直接影响整合酶与抑制剂之间的结合。本工作用同源模建方法搭建了每条单链核心区具有两个Mg2+ 的(2Mg-IN-Core)和具有一个Mg2+ 的HIV-1 IN二聚体核心区模型(1Mg-IN-Core)。分子对接分别得到它们与硫氮硫扎平类化合物能量较低的复合物结构,把对接结果进行了比较。研究发现:当整合酶中结合的Mg2+个数改变时,它与抑制剂的结合模式也会发生很大的变化;抑制剂能够特异的且稳定的与2Mg-IN-Core模型的活性位点结合;同时与ASP64和GLU152螯合的那个Mg2+离子对于硫氮硫扎平抑制剂与整合酶上的结合有很大的影响。2Mg-IN-Core模型与抑制剂的复合物平均结构进行了2000 ps的 分子动力学模拟,分析发现同时与ASP64及ASP116螯合的Mg2+与IN蛋白形成了四个稳定的螯合键;同时与ASP64及GLU152螯合的Mg2+可与IN结合、也可与抑制剂形成稳定的配位键,这个Mg2+对IN与硫氮硫扎平抑制剂之间的结合有较大影响。  相似文献   

9.
为了获得高活性、结构新颖的整合酶链转移(INST)抑制剂,本文采用Co MFA和Co MSIA两种方法对32个萘啶类INST抑制剂进行了三维定量构效关系研究,并建立了相关模型,其交叉验证系数分别为q~2=0. 809和q~2=0. 816,拟合验证系数分别为r~2=0. 998和r~2=0. 981,表明所建立的模型是可靠的且具有一定的预测能力。利用分子对接探讨小分子化合物与INST蛋白的相互作用模式,结果表明,萘啶类化合物主要通过疏水作用和氢键作用与INSTIs蛋白结合。最后通过分子动力学模拟进一步验证对接结果发现,对接的结合模式与分子动力学模拟得到的结果是一致的。本研究获得的综合模型和推论可以为开发有效的HIV INSTIs提供重要的理论信息。  相似文献   

10.
伊长虹  张庆刚 《化学学报》2010,68(20):2029-2034
HIV-1蛋白酶是治疗艾滋病的重要靶标酶之一. 采用分子动力学模拟, 运用MM-PBSA方法计算了HIV-1蛋白酶与三个抑制剂BE4, BE5和BE6的结合自由能, 结果表明抑制剂P1/ 位置的苄基上双氟原子的不同位置对结合自由能产生不同的影响. 通过能量分解的方法考察了HIV-1蛋白酶的主要残基与三个抑制剂间的相互作用与识别, 结果表明三个抑制剂以相同的作用模式与HIV-1蛋白酶结合, 计算结果与实验结果基本吻合.  相似文献   

11.
Twenty novel furanone derivatives,based on the structure of raltegravir which was the first HIV-1 integrase(IN) inhibitor approved by the United States Food and Drug Administration(US FDA),were designed,synthesized and characterized by 1H NMR,IR and MS.The biological activities of these compounds against HIV-1 IN in vitro were evaluated.The assay results indicate that the replacement of pyrimidinone with furanone decreased the inhibitory activity of the compounds to HIV-1 IN.Compounds 3i,3j and 3t show mode...  相似文献   

12.
Integrase(IN) plays an essential role in the process of HIV-1 replication.IN inhibitors of diketo acid derivatives(DKAs) were analysed by the Comparative Molecular Field Analysis(CoMFA) and Comparative Molecular Similarity Induces Analysis(CoMSIA) methods.A set of 42 compounds were randomly selected as the training set(35) and test set(7).Firstly,a good pharmacophore(goodness of hit=0.787) was obtained and used to align ligands.Then,predictive models were constructed with the CoMFA and CoMSIA methods based on the pharmacophore alignment.As a result,the CoMS1A method yielded the best model with an r2 of 0.955 and a q2 of 0.665,which can predict the activities of the tested DKAs very well(r2=0.559).Finally,DKAs were docked into IN,and the predicit modes were superimposed on the contour maps obtained from the best CoMSIA model.The superimposed maps gave a visualized and meaningful insight into the inhibitory behaviors,providing significantly useful information for the rational drug design of anti-IN agents.  相似文献   

13.
二酮酸类HIV-1整合酶抑制剂的定量构效关系   总被引:1,自引:0,他引:1  
应用遗传函数分析法(GFA)和分子场分析法(MFA)对一系列二酮酸类整合酶抑制剂分别进行了二维和三维定量构效关系研究, 并对随机选择的5个化合物组成的测试集进行了预测, 外在预测的r2pred值分别达到0.987和0.759, 表明模型具有良好的预测能力, 同时利用药效团分析的方法, 验证了QSAR (quantitave structure-activity relationship)模型, 并概括了疏水作用对抑制剂活性的重要影响. 研究结果表明, 电性描述符(Apol)对活性有重要影响, 意味着抑制剂与金属离子的螯合作用, 同时空间和结构因素特别是疏水作用也对活性有重要作用. 利用这些规律进行了分子设计, 在理论上获得了一些具有较高抑制剂活性的新的二酮酸类衍生物, 并期待实验证实.  相似文献   

14.
As one of the three viral encoded enzymes of HIV-1 infection, HIV-1 integrase has become an attractive drug target for the treatment. Diketoacid compounds (DKAs) are one kind of potent and selective inhibitors of HIV-1 IN. In the present work, two three-dimensional QSAR techniques (CoMFA and CoMSIA) were employed to correlate the molecular structure with the activity of inhibiting the strand transfer for 147 DKAs. The all-oritation search (AOS) and all-placement search (APS) were used to optimize the CoMFA model. The diketo and keto-enol tautomers of DKAs were also used to establish the CoMFA models. The results indicated that the enol was the dominant conformation in the HIV-1 IN and DKAs complexes. It can provide a new method and reference to identify the bioactive conformation of drugs by using QSAR analysis. The best CoMSIA model, with five fields combined, implied that the hydrophobic field is very important as well as the steric and electrostatic fields. All models indicated favorable internal validation. A comparative analysis with the three models demonstrated that the CoMFA model seems to be more predictive. The contour maps could afford steric, electrostatic, hydrophobic and H-bond information about the interaction of ligand-receptor complex visually. The models would give some useful guidelines for designing novel and potent HIV-1 integrase inhibitors.  相似文献   

15.
The replication of HIV-1 requires the integration of its cyclic DNA into host DNA by HIV-1 integrase (IN), which includes two important reactions, 3'-processing and strand transfer, both catalyzed by HIV-1 IN. Disrupting either of the reactions will fulfill the purpose of inhibiting the replication of HIV-1. In this paper, pharmacophore modeling and molecular docking are employed to investigate the inhibition mechanism of the HIV-1 IN strand transfer inhibitors (INSTIs). Based on the results, we suggest that the inhibition mechanism of INSTIs involves the inhibitor chelating the cofactors Mg2+ and its forming hydrogen bonds with some crucial residues adjacent to the DDE active center.  相似文献   

16.
HIV-1 membrane fusion plays an important role in the process that HIV-1 entries host cells. As a treatment strategy targeting HIV-1 entry process, fusion inhibitors have been proposed. Nevertheless, development of a short peptide possessing high anti-HIV potency is considered a daunting challenge. He et al. found that two residues, Met626 and Thr627, located the upstream of the C-terminal heptad repeat of the gp41, formed a unique hook-like structure (M-T hook) that can dramatically improve the binding stability and anti-HIV activity of the inhibitors. In this work, we explored the molecular mechanism why M-T hook structure could improve the anti-HIV activity of inhibitors. Firstly, molecular dynamic simulation was used to obtain information on the time evolution between gp41 and ligands. Secondly, based on the simulations, molecular mechanics Poisson–Boltzmann surface area (MM-PBSA) and molecular mechanics Generalized Born surface area (MM-GBSA) methods were used to calculate the binding free energies. The binding free energy of the ligand with M-T hook was considerably higher than the other without M-T. Further studies showed that the hydrophobic interactions made the dominant contribution to the binding free energy. The numbers of Hydrogen bonds between gp41 and the ligand with M-T hook structure were more than the other. These findings should provide insights into the inhibition mechanism of the short peptide fusion inhibitors and be useful for the rational design of novel fusion inhibitors in the future.  相似文献   

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