吡嗪类碳酰肼化合物与CT-DNA相互作用及体外抑菌

以5-氯吡嗪-2-羧酸甲酯和水合肼为原料,经亲核取代和脱水缩合反应合成了3种新型吡嗪类碳酰肼化合物C13H14N6O(a)、C13H14N6O2(b)和C12H12N6O2(c)。采用元素分析与核磁共振氢谱对化合物a~c进行了表征,结果表明合成的产物即为目标化合物。通过溶剂挥发法培养得到了化合物a的单晶并利用X-射线单晶衍射测定化合物a的晶体结构为单斜晶系。根据紫外-可见光谱可知,化合物a~c均以插入模式与CT-DNA作用。利用微量热实验测定了化合物a~c与CT-DNA的相互作用,发现反应过程放热,热效应ΔH依次为-5.77×103、 -5.50×103和-5.96×103 kJ·moL-1,反应时间均小于40 min。通过分子对接模拟计算明确了化合物a和b与DNA的具体结合位点包括A链DC4和DG5以及B链DC4、 DG5和DA6,化合物c与DNA的具体结合位点包括A链DC4和DG5以及B链DC4和DG5。采用牛津杯法测定了化合物a~c对枯草芽孢杆菌、金黄色葡萄球菌、铜绿假单胞菌以及大肠杆菌四种细菌的抑菌活性,结果表明化合物a~c均对铜绿假单胞菌表现出优于阳性对照组四环素的抑菌活性。     

2-甲酰基呋喃苯乙酰腙及其Ni(Ⅱ)配合物的晶体结构及热化学性质

以苯乙酸甲酯、水合肼和呋喃甲醛为原料,合成了配体2-甲酰基呋喃苯乙酰腙(H₂L:C₁₃H₁₂N₂O₂),再与六水氯化镍反应,制得配合物Ni(HL)₂ (1),并对配体及配合物进行了元素分析和X射线单晶衍射结构表征,结果表明,配体晶体属单斜晶系,P2₁/c空间群,晶胞参数为:a=1.161 9(3) nm,b=1.359 8(3) nm,c=0.792 16(19) nm,β=109.307(4)°;Ni(Ⅱ)配合物晶体属三斜晶系,P1空间群,晶胞参数为:a=0.455 70(14) nm,b=1.094 7(3) nm,c=1.204 8(4) nm,β=98.302(5)°。利用热重实验研究了H₂L和1的热稳定性,并计算了各自热分解过程的表观活化能(E_a),发现配合物的热稳定性要远高于配体。采用微量热法研究了H₂L及1与小牛胸腺DNA(CT-DNA)的相互作用,实验结果表明,配合物的作用焓值(ΔH)要大于配体的焓值,说明配合物与CT-DNA的作用要比配体与CT-DNA的作用更强。     

2-呋喃甲醛-4-羟基苯甲酰腙及其Cu(Ⅱ)配合物的晶体结构及与CT-DNA的结合性能

通过2-呋喃甲醛与4-羟基苯甲酰肼缩合得到2-呋喃甲醛-4-羟基苯甲酰腙(H2L),并以其为配体与Cu(Ⅱ)配位得到了配合物[Cu(HL)2]·2H2O(1),采用元素分析和X射线单晶衍射对配体和配合物进行结构表征,结果表明配体属于正交晶系,Pna21空间群。配合物属于单斜晶系,P21/c空间群。利用热重实验研究了H2L和1的热稳定性,并计算了它们主要热分解过程的表观活化能,发现H2L和1的热稳定性都较高。通过紫外吸收光谱研究了H2L和1与CT-DNA的相互作用方式,并利用微量热计测量了其作用过程的热效应,结果表明H2L和1均以插入方式与CT-DNA结合,且作用过程放出的热量1大于H2L,说明配合物与CTDNA的结合能力强于配体。     

含卤素原子酰腙化合物的合成、表征及与CT-DNA的相互作用

以4-羟基苯乙酸甲酯、水合肼为原料合成4-羟基苯乙酰肼,再与卤代苯甲醛(X=F、Cl、Br)反应,获得3种含有卤素原子的新型酰腙化合物4-氟苯甲醛-4-羟基苯乙酰腙(Ⅰ)、4-氯苯甲醛-4-羟基苯乙酰腙(Ⅱ)和4-溴苯甲醛-4-羟基苯乙酰腙(Ⅲ),并培养得到上述化合物的单晶。通过元素分析和X-射线单晶衍射对它们进行了表征。结果表明,它们均属三斜晶系,P1空间点群,分子之间通过氢键相互作用,交错排列堆积。利用热重分析研究了它们的热稳定性,并分别计算了它们热分解过程的表观活化能(Ea),结果显示它们的热稳定性都较高。采用紫外光谱研究了它们与ct-DNA的相互作用,发现它们均是以插入模式与ct-DNA作用。通过微量热实验研究了化合物与ct-DNA相互作用过程的热效应(ΔH),化合物Ⅰ、Ⅱ和Ⅲ的ΔH分别为1.87、2.86和5.54 k J·mol-1,说明它们与ct-DNA相互作用的大小为:ⅢⅡⅠ。     

Crystal Structures,Thermal Behaviors and Biological Activities of Acylhydrazone Compounds Containing Pyrazine Rings and Halogen Atoms

Three new kinds of acylhydrazone compounds(C_(12)H_(10)FN_5O·H_2O,1;C_(12)H_(10)Cl N_5O·2CH_3COOH,2;C_(12)H_(10)Br N_5O,3)were synthesized by the reaction of 2-amino-3-pyrazinecarbohydrazide(C_5H_7N_5O)with halogenated benzaldehyde(C_7H_5OX,X=F,Cl,Br).The structures of the three compounds were characterized by elemental analysis,~1H NMR,IR and X-ray diffraction.X-ray single-crystal diffraction presents that the three compounds all belong to triclinic system,P1 space group.Thermal gravity analyses show that three compounds have excellent thermal stabilities and all the thermal decomposition temperature of maximum weight loss was around 300°C.The interactions of the compounds with CT-DNA were investigated by UV-Vis spectrum,fluorescence spectrum and viscosity measurement.All the results suggest that three compounds could bind with CT-DNA through intercalation.The fluorescence spectrum was also used to study the interactions of three compounds with BSA.It was proved that all the compounds could quench the intrinsic fluorescence of BSA via a static quenching process.Compound 2 displays the strongest binding ability both in the reaction with CT-DNA or BSA.Antimicrobial test was carried on Escherichia coli,Staphylococcus aureus and Salmonella,and 2 is more effective against S.aureus.But in MTT assay,1 shows better cytotoxity activity against A549cells.     

Crystal Structures,ct-DNA/BSA Binding Properties and Antibacterial Activities of Halogenated Pyridyl Hydrazones

Three new halogenated pyridyl hydrazones, namely 4-chlorobenzaldehyde-4-chloropyridine-2-formyl acylhydrazone(C(13)H9Cl2N3O, 3 a), 4-bromobenzaldehyde-4-chloropyridine-2-formyl acylhydrazone(C(13)H9BrClN3O, 3 b) and 4-iodobenzaldehyde-4-chloropyridine-2-formyl acylhydrazone(C(13)H9ClIN3O, 3 c), have been synthesized and characterized by elemental analysis, IR, 1 H NMR, and single-crystal X-ray diffraction. The X-ray diffraction analysis revealed that 3 a^3 c crystallize in monoclinic with space group Cc. The units of 3 a ~ 3 c were linked by intermolecular N–H...X(X = Cl, Br, I) hydrogen bonds into 2 D layered structures, which were further extended into 3 D networks by a series of π-π stacking interactions. Thermogravimetric analysis showed that all of them possessed higher thermal stabilities. The reactivities toward calf thymus DNA(ct-DNA) and bovine serum albumin(BSA) of 3 a^3 c were investigated by UV-vis and fluorescent spectroscopy as well as molecular docking simulation. Both theoretical and experimental results indicated that 3 a^3 c bound to ct-DNA in the mode of minor groove binding, and interacted with BSA through the hydrophobic cavity near TRP213. Besides, the orders of binding affinities of 3 a^3 c to ct-DNA and BSA were both 3 c > 3 b > 3 a, which were the same as that of antibacterial activities. Thus, the interactions of iodinated acylhydrazone with biological targets were stronger than that of chlorinated and brominated acylhydrazones, which provided a representative case for halogenation of lead compounds in rational drug design.     

Structure of Copper Chelate of 2-Hydroxy-4-methylthiobutanoic Acid as Trace Mineral Additive in Animal Feeding

The chelate complex of Cu2+ with 2-hydroxy-(4-methylthio)butanoate(MHA-H, the anion derived from the so-called methionine hydroxy-analogue, largely used in animal nutrition as a source of methionine, MHA) is an efficient, bioavailable trace mineral additive for animal feeding. The structure of MHA-H copper chelate was investigated by single-crystal X-ray diffraction. The crystal structure(C10H18Cu O6S2, 1, monoclinic, space group P21/c, Z = 2, a = 16.158(4), b = 4.9733(12), c = 9.159(2) ?, β = 104.786(4)°) exhibits that two MHA-H ligands coordinate with a CuII ion to form a square-planar environment completed to an octahedron through interaction with carbonyl oxygens of neighboring molecules, which expand to constitute a two-dimensional sheet coordination network. And a separation between the hydrophilic and lipophilic moieties like micelles was found in the packing structure. X-ray powder diffraction and thermogravimetric analysis were used to study the phase purity of the bulk sample and thermostability of complex 1, respectively.     

氯化钆与L-酪氨酸和甘氨酸三元固态配合物的热化学及热分解动力学研究

合成表征了氯化钆与L 酪氨酸和甘氨酸形成的三元固态配合物Gd(Tyr) (Gly) 3 Cl3 ·3H2 O .用具有恒温环境的溶解 -反应热量计 ,测定了配位反应GdCl3 ·6H2 O (s) +Tyr (s) +3Gly (s) =Gd(Tyr) (Gly) 3 Cl3 ·3H2 O (s) +3H2 O (l)在 2 98.15K时的反应焓为 ( 9.45 1± 0 .468)kJ·mol-1 .计算得配合物Gd(Tyr) (Gly) 3 Cl3 ·3H2 O (s)在 2 98.15K时的标准摩尔生成焓为ΔfH m =-( 4 2 69.7± 2 .3 )kJ·mol-1 .并用热分析手段对配合物进行了非等温热分解动力学研究 ,推断配合物第二步热分解反应机理为二级化学反应 ,其动力学方程为 :dα/dT =(A/β)exp( -E/RT) ( 1-α) 2 ,求得分解反应的表观活化能为E =2 15 .17kJ·mol-1 ,指前因子为 10 1 8.71 s-1 .     

新型含卤噻唑类酰腙化合物的合成及其与小牛胸腺DNA的相互作用

以2-氨基噻唑-4-甲酸乙酯和水合肼为原料,制得2-氨基噻唑-4-甲酰肼(2); 2与卤代(F, Cl, Br)对苯甲醛反应,合成了3种新型的含卤噻唑类酰腙化合物［C₁₁H₉N₄OSF(3a), C₁₁H₉N₄OSCl(3b)和C₁₁H₉N₄OSBr(3c)］,其结构和性能经元素分析,XRD和TG-DTG表征。结果表明：3a和3c属于三斜晶系,Pī空间群;3b属于单斜晶系,P2(1)/c空间群。3a~3c的热稳定性均较好,最大热分解过程的表观活化能均大于100 kJ·mol^-1。采用UV-Vis研究了3a~3c与小牛胸腺DNA(CT-DNA)的相互作用。结果表明：3a~3c与CT-DNA均以插入方式相互作用。     

2-吡咯类酰腙的合成、晶体结构及与小牛胸腺DNA的相互作用

以2-吡咯甲酰肼与2,4-二羟基苯甲醛和2-羟基-3-甲氧基苯甲醛经缩合反应合成2,4-二羟基苯甲醛-2-吡咯甲酰腙C₁₂H₁₁N₃O₃(Ⅰ)和2-羟基-3-甲氧基苯甲醛-2-吡咯甲酰腙C₁₃H₁₅N₃O₄(Ⅱ),并利用红外光谱、元素分析、¹H NMR、X射线单晶衍射和热重分析进行表征,结果表明晶体Ⅰ属单斜晶系,空间群为P2₁/c,Z=4,晶胞参数为a=1.2586(4) nm,b=0.8050(3) nm,c=1.1914(4) nm;晶体Ⅱ为正交晶系,空间群为P2₁2₁2₁,Z=4,晶胞参数为a=0.4756(2) nm,b=1.2491(6) nm,c=2.2145(11) nm。 热重结果显示,化合物Ⅰ和Ⅱ最大热分解峰分别出现在267.59和284.79 ℃,表观活化能分别为176.6和122.9 kJ/mol,表明化合物Ⅰ和Ⅱ具有较高的热稳定性。 利用粘度实验和微量热实验研究了化合物Ⅰ和Ⅱ与CT-DNA的相互作用,均显示两种化合物均与CT-DNA发生了插入作用,且相互作用过程放热,焓变值分别为ΔH(Ⅰ)=4.67 kJ/mol和ΔH(Ⅱ)=4.40 kJ/mol。