苯并异噻唑啉酮类衍生物合成、抑藻活性及构效关系研究

以1,2-苯并异噻唑啉-3-酮和脂肪醇为原料合成8个苯并异噻唑啉酮类衍生物。抑藻活性实验表明,当合成化合物2a~2h的浓度为2.0mg/L时,对亚心形扁藻、蛋白核小球藻和球等鞭金藻表现出良好的生长抑制活性。采用Chemoffice 2010软件构建化合物分子模型,用半经验计算方法 AM1对分子几何构型进行全优化,计算得到量子化学参数和物理化学参数。构效关系研究表明合成化合物的抑藻活性与疏水性参数Log P相关,并建立了关系模型。     

取代喹啉类化合物抗菌活性的定量构效关系及分子设计

采用密度泛函理论(DFT)和逐步回归分析法对15种新合成的取代喹啉类化合物进行了定量构效关系(QSAR)研究. 在B3LYP/6-31G(d,p)水平上计算了取代喹啉的量子化学参数, 通过逐步多元回归分析筛选出影响抗菌活性的主要因素, 建立了定量构效关系方程, 并用留一法交叉分析了模型的稳定性及预测能力. 结果表明, C5的亲核电子密度fNC5及C9-N1的键级BC9-N1是影响喹啉类化合物抗金黄色葡萄球菌活性的主要因素, 所得模型对该类化合物抗菌活性有较好的预测效果. 同时基于QSAR研究结果设计了4个活性较高的新喹啉衍生物.     

新型异噻唑啉酮化合物的合成和抑菌活性研究

合成了10个2-取代异噻唑啉酮化合物, 其中7个未见文献报道. 所有目标物的结构都经元素分析, ¹H NMR, MS及IR证实, 并将其中8个化合物对五种细菌进行了抑菌活性测试. 与市售农药20%三环唑、70%威尔达甲托以及三氯新的抑菌活性进行对比, 发现它们对五种有害菌种均有极强的杀菌活性.     

13位取代苦参碱衍生物抗癌活性的定量构效关系研究

采用密度泛函理论B3LYP方法计算了13个13位取代苦参碱衍生物的电子结构,研究了化合物结构与抑制人肝癌细胞HepG2抗癌活性的定量构效关系(QSAR).结果表明:(1)13位取代的苦参碱类衍生物的最低空轨道能ELUMO越低,最低空轨道与最高占据轨道的能隙ΔE越小,化合物抗癌活性越高;(2)分子的能量Etotal、面积S以及体积V越大,其极化度P越大,活性越大;(3)分子的油水分配系数logP越大,活性越大,即分子的疏水性增大活性增强.综合得到了显著性较好的QSAR方程:-lgIC50=97.008-11.759ΔE+818.602QC2-2.132×10-4Etotal,可用于预测该类衍生物抑制人肝癌细胞HepG2的活性并进行分子设计.     

具有除草活性的吡唑啉并四嗪酮衍生物的设计、合成与定量构效关系的研究

设计合成了一系列未见文献报道的4-乙氧羰基-1,7-二氢-1-取代苯基-5-(未)取代吡唑啉[5,1-d][1,2,3,5]四嗪-7-酮衍生物, 其结构均经过¹H NMR、IR和元素分析表征. 生测结果显示, 与已报道的化合物相比, 它们表现出较好的除草活性. 定量的结构与活性关系研究表明, 它们的除草活性与取代基的立体效应参数和疏水性参数呈现很好的相关性, 相关系数r大于0.8. 当作用对象为油菜时, 化合物的活性可能主要与取代基R¹的摩尔分子折射和取代基R²的疏水性参数有关. 当取代基R¹的摩尔分子折射参数为1.452时, 相应化合物可能具有对油菜最高的除草活性; 当作用对象为稗草时, 化合物的活性主要与取代基R²疏水性参数和Taft (Es)参数有关.     

含吲哚啉酮取代基的噻唑酮类化合物的合成及其抗菌活性研究

目的：合成一系列含吲哚啉酮骨架的噻唑酮类化合物并对其进行抗耐药白念珠菌活性筛选。方法：以不同取代基的4-苯基噻唑-2(3H)-酮和不同取代的2-苯基-3H-吲哚-3-酮为起始原料,进行Friedel-Crafts烷基化反应,优化并合成一系列目标衍生物,并采用微量稀释法对合成的化合物进行了抗真菌活性研究。结果与讨论：报道了一种新型合成含吲哚啉酮取代基的噻唑酮类化合物的方法,优化反应条件后以良好至优秀的产率得到了22个化合物。微量稀释法测试结果显示,合成的化合物其效果除了化合物17,18效果较差以外,其余20个化合物效果优秀,值得进一步探讨和研究。     

核因子κB活性抑制剂定量构效关系

The electronic structures, geometric structures and some molecular properties (generalized structural indexes) of quinazoline derivatives were computed by using density functional theory and molecular mechanism methods to investigate the quantitative structure-activity relationship (QSAR) of the inhibitory activity toward the nuclear factor kappa B. Via a stepwise regression analysis, some main factors affecting the activity of the compounds were factored out, and then the QSAR equation was effectively established. It was found that the hydrophobic parameter of the substituent on ring D is the main factor affecting the inhibitory activity of the compound. The analysis indicated, the larger the hydrophobic parameter, the higher the inhibitory activity of the compound. In addition, the net charge of the first atom and the stereoscopic parameter (MR1) of the substituent R1 on A-ring as well as the net charge of C3 are closely correlated with the inhibitory activity of the compound. In order to test the predicted results of the QSAR equation, we adopted the “leave one out” cross-validation , and found that the calculated coefficient q2 was rather high and the predicted results were both accurate and reliable. Such facts show that the obtained equation has great predictive ability. The above results can offer an important theoretical guide in the search for new quinazoline derivatives with higher inhibitory activity, and in an analysis of their action mechanisms. It is noteworthy that this scheme would be very advantageous in factoring out precursors with excellent inhibitory activity via the computer ADDIT molecule-design, since all parameters in the QSAR equation are computable and controllable.     

C(4)取代紫杉醇类似物的定量构效关系研究

用量子化学B3LYP／6-31G方法计算了23个C（4）取代紫杉醇类似物的结构,用遗传算法（GFA）对能量、电性、拓扑及热力学等类型的278个结构描述符进行筛选,并回归建立其抑制人体结肠癌细胞HCT-116活性的定量构效关系（QSAR）．QSAR方程含分子体积Vm、分子分支度指数CHI-O、分子中带正电荷原子的溶剂可积面积与其所带电荷之积的加和值Jurs-PPSA-3以及分子表面积S4个结构描述符．方程的拟合相关系数的平方R^0及交叉验证系数Q^2分别为0．956和0．913,所得QSAR具有可信的预报能力．由优化后的几何构型知,C（4）取代基、C（13）侧链和2-OBz三基团共同形成疏水腔,C（4）取代基的改变影响C（13）侧链的电子结构．C（13）连接的18号O原子的负电荷越大、3’位连接的NHBz基团的极性越小活性越高;C（4）取代基若为吸电子基对活性不利;适当增大分子体积、表面积和疏水性,保持一定的分支度对活性有利．     

2-硫代-4-噻唑啉酮衍生物的合成

2-硫代-4-噻唑啉酮(1)与醛反应, 再用甲醛和胺进行胺甲基化, 合成5-芳基亚甲基-3-确定胺甲基-2-硫代-4-噻唑啉酮.     

19-取代雄烯二酮芳构酶抑制剂的定量构效关系研究

用分子动力学和量子化学AM1经验方法对系列19-位取代的雄烯二酮芳构酶抑制 剂的定量构效关系进行了研究，结果表明该位置的取代基必须符合P450芳构酶活性 位点的立体效应和疏水作用的要求。此类化合物作为较好的电子供体与芳构酶结合 ，给电子的主要基团为21-位含S取代基。这些研究结果为设计活性更高的芳构酶抑 制剂提供了有益的参考信息。     

磺酰脲类化合物除草活性的QSAR研究

采用密度泛函理论方法, 在B3LYP/6-31G(d)水平下, 计算了23种磺酰类化合物的分子极化率及分子骨架中各原子的Milliken电荷. 提出了一种新的QSAR建模方法, 并据此对其中18种化合物进行多元线性回归分析, 建立了除草活性的预测模型(R=0.96, R2=0.92, r2adj=0.88, F=26.26, q2=0.71, p<0.01, SE=0.36), 对剩余五种化合物进行预测, 结果吻合. 该模型从化合物的亲水性、分子几何特征的角度对如何提高磺酰脲类化合物的除草活性进行了分析, 并对提高化合物除草活性的方法做出预测: 提高苯环和嘧啶环取代基的亲水性, 增加N13周围的电子云密度, 为苯环接入较小的取代基团, 在嘧啶环上接入较大取代基团都可提高化合物的除草活性. 预测结果与3D-QSAR方法的预测结果一致.     

Expression,Purification and Characterization of a Novel Hybrid Peptide CLP with Excellent Antibacterial Activity

CLP is a novel hybrid peptide derived from CM4, LL37 and TP5, with significantly reduced hemolytic activity and increased antibacterial activity than parental antimicrobial peptides. To avoid host toxicity and obtain high-level bio-production of CLP, we established a His-tagged SUMO fusion expression system in Escherichia coli. The fusion protein can be purified using a Nickel column, cleaved by TEV protease, and further purified in flow-through of the Nickel column. As a result, the recombinant CLP with a yield of 27.56 mg/L and a purity of 93.6% was obtained. The purified CLP exhibits potent antimicrobial activity against gram+ and gram- bacteria. Furthermore, the result of propidium iodide staining and scanning electron microscopy (SEM) showed that CLP can induce the membrane permeabilization and cell death of Enterotoxigenic Escherichia coli (ETEC) K88. The analysis of thermal stability results showed that the antibacterial activity of CLP decreases slightly below 70 °C for 30 min. However, when the temperature was above 70 °C, the antibacterial activity was significantly decreased. In addition, the antibacterial activity of CLP was stable in the pH range from 4.0 to 9.0; however, when pH was below 4.0 and over 9.0, the activity of CLP decreased significantly. In the presence of various proteases, such as pepsin, papain, trypsin and proteinase K, the antibacterial activity of CLP remained above 46.2%. In summary, this study not only provides an effective strategy for high-level production of antimicrobial peptides and evaluates the interference factors that affect the biological activity of hybrid peptide CLP, but also paves the way for further exploration of the treatment of multidrug-resistant bacterial infections.     

Synthesis and Antibacterial Activity of Some Substituted 3-(Aryl)- and 3-(Heteroaryl)indoles

Summary. A synthesis of 3-(4-methoxycarbonyl-2,6-dinitrophenyl)indole, its 2,6-diamino analog, and 3-(2-amino-4-trifluoromethyl-6-nitrophenyl)indole is described. 4-(Trifluoromethyl)phenyl derivatives exhibit higher antibacterial potency than the former 4-(methoxycarbonyl)phenyl homologs, while 3-(4-trifluoromethyl-2-nitrophenyl)indole was the most active agent in the series, with MIC ≈ 7 μg/cm³ against E. coli and S. aureus.     

Synthesis,antimicrobial activity and QSAR studies of 2,5-disubstituted benzoxazoles

In this study, a new series of 2,5-disubstituted benzoxazoles was synthesized and their structures were elucidated by elemental analysis, MASS, ¹H-NMR, ¹³C-NMR and IR spectral data. Newly and previously synthesized 2,5-disubstituted benzoxazole derivatives were evaluated for antibacterial and antifungal activity against standard strains and their drug-resistant isolates. Microbiological results showed that the compounds presented a large spectrum of activity having MIC values of 250–7.8 µg mL^?1 against the tested microorganisms. Among the newly synthesized derivatives 3–22, compound 11 was the most active against Candida krusei out of all; however, it was one dilution less potent than standard drug fluconazole. In addition, all the new and previous compounds were more active than standard drugs ampicillin trihydrate and rifampicin against Pseudomonas aeruginosa and its gentamicin-resistant isolate. The 2D-QSAR (Quantitative Structure–Activity Relationship) analysis of a set of newly and previously synthesized benzoxazoles tested for growth inhibitory activity against methicillin-resistant Staphylococcus aureus (MRSA) was also performed by using multivariable regression analysis. The activity contributions for substituent effects of these compounds were determined from the correlation equation for predictions of the lead optimization.     

理论线性溶解能参数在苯砜基羧酸酯类化合物急性毒性QSAR研究中的应用

采用密度泛函理论方法,在B3LYP/6-31G(d)理论水平下,计算了45种苯砜基羧酸酯化合物的量子化学参数.经多元线性回归分析,得到描述此类化合物对发光菌急性毒性的模型:-lgEC50=3.02 6.24EHOMO-0.091μ-0.006P 1.22q(1)-6.67q(10),其中R=0.92,r2adj=0.82,F=42.0,q2=0.79.通过对模型进行分析,得到如下结论:苯环和酯基取代基的电负性越大,分子体积越小,毒性越大.该研究为探讨此类化合物急性毒性的机理奠定了理论基础.     

3-取代硫基-5-(2-羟基苯基)-4H-1,2,4-三唑类化合物抑菌活性的定量构效关系和结构修饰的理论研究

用DFT-B3LYP 方法, 在基组6-31G 水平, 对24 种3-取代硫基-5-(2-羟基苯基)-4H-1,2,4-三唑类化合物分子进行几何优化, 并计算了E_HOMO, E_LUMO, E_NHOMO, E_NLUMO, Q_C1～Q_C8, Q_N1～Q_N3, Q_O, Q_S和ΔE₁, ΔE₂, ΣQ 等量子化学描述符(q_c). 通过最佳变量子集回归建立13 种上述化合物对大肠杆菌、白色念珠菌、金黄色葡萄球菌等抑菌活性(A_J: A_e, A_m 和A_s) 的QSAR 模型. 对于大肠杆菌的A_e 模型的相关系数(R²)和逐一剔除法交叉验证系数R_cv² 依次为0.930 和0.871, 相应白色念珠菌A_m 模型为0.926 和0.869, A_s 模型为0.781 和0.572. 通过R_adj², F, R_cv², VIF, AIC, FIT 等检验, 上述模型具有令人满意的稳健性和预测能力. 结果显示ΔE₁ 和ΣQ 直接影响这些化合物的生物活性: ΣQ 增大, 其抑菌活性增强; ΔE₁ 越高, A_J 下降. 据此提出三唑类化合物分子可能的抑菌机理. 由此发现, 在三唑类化合物分子的R 中合适部位选用吸电子能力较强的取代基团进行结构修饰, 有利于提高被修饰后分子的抑菌活性. 根据对R 进行结构修饰(共提出11 种化合物), 得出4 种抑菌活性均超出100%的三唑类化合物(质量分数为0.01%), 希望将来得到生物实验的证实.     

新型取代胡椒醛缩合不对称卟啉金属配合物的微波合成及其抗菌活性

利用微波辐射加热方法合成了5-(3, 4-亚甲二氧基-6-硝基)苯基-10, 15, 20-三苯基卟啉和5-(3, 4-亚甲二氧基-6-硝基)苯基-10, 15, 20-三对氯苯基卟啉的Zn(Ⅱ)、Co(Ⅱ)、Mn(Ⅱ)金属配合物, 产物的结构用紫外-可见光谱、红外光谱、荧光光谱等技术手段进行了表征, 采用抑菌环方法研究了目标化合物对大肠杆菌和金黄色葡萄球菌的抗菌活性, 实验结果表明, 两个Co(Ⅱ)金属配合物在浓度为0.32 mmol/L时对Sa、Ec有较强的抑菌作用, 浓度为0.02 mmol/L时还有一定的抑菌作用;2个Zn(Ⅱ)和2个Mn(Ⅱ)配合物在浓度为0.16~0.32 mmol/L范围内对Sa、Ec有中等强度的抑菌作用。 各金属配合物的抑菌活性大小顺序大体为:Por(Co)>Por(Mn)≈Por(Zn)。 各配合物对金黄色葡萄球菌的抑制作用比大肠杆菌大约高10%~20%。