CH/π,CH/O弱氢键在2,6-二(α-苯基苄基)-1,5-萘二酚主体分子包结物构筑中的作用

设计、合成了一种新的主体分子2,6-二(α-苯基苄基)-1,5-萘二酚(1).它可与许多有机小分子形成配位包合物.用IR和1HNMR表征了配位包结物,并测定了主客体分子的摩尔比:1?DMF(1∶1),1?DMSO(1∶2),1?吡啶(1∶1),1?喹啉(1∶2),1?N-甲基吡咯烷酮(1∶1).用单晶X衍射分析了包结物(1)?DMF的晶体结构,属三斜晶系,晶胞参数为P-1,a=0.9085(9)nm,b=0.9501(6)nm,c=2.0995(6)nm,α=99.59(3)°,β=90.13(4)°,γ=96.20(7)°,V=1.776(2)nm3,Dc=1.898g?cm-3.结果表明,主体分子间的CH/π弱氢键在决定主体分子的层状框架结构和客体分子在层间的填充方式中发挥了重要作用;两种不等效的客体分子与主体分子的作用方式是不同的,一种客体分子是通过CH/π,CH/O弱氢键与同层的不同主体分子相互作用,另一种是通过CH/π,CH/O弱氢键与相邻层的不同主体分子相互作用.

驱动蛋白的颈链结构与功能关系

驱动蛋白的颈链是驱动蛋白力产生的关键元件。颈链与驱动蛋白马达结构域的对接过程为驱动蛋白沿着微管的向前运动提供了驱动力。驱动蛋白的颈链由14～18个氨基酸组成，它连接着马达结构域和由缠绕螺旋组成的茎部。颈链与驱动蛋白马达结构域的对接过程是通过多种弱键相互作用实现的，这些弱键相互作用多数都直接或间接与水分子有关。颈链及其相关区域的极为巧妙的氨基酸结构使得这些弱键能够在细胞环境下有效地发挥作用。对颈链的结构与功能关系的认识大大提高了我们对驱动蛋白运动机制的理解。

一种salen镍配合物的合成与晶体结构(英文)

合成和表征了一种新的salen镍配合物,并报道了其单晶衍射数据.化合物4:[NiC28H20Cl2N2O2]·CH2Cl2,M=631.00,单斜,P21/c.a=1.1086(2)nm,b=1.7521(4)nm,c=1.4819(3)nm,β=105.06(3)°,Z=4.V=2.7795(10)nm3,Dc=1.508g/cm3,R1=0.0531.R2=0.1136.

Hydrothermal Synthesis and Structure Characterization of Compound Zn(Hpydc)_2(H_2O) (pydc=pyridine-2,5-dicarboxylate)

The hydrothermal reaction of ZnO, H3PO4(85%), (H2NCH2CH2)2NH and H2pydc results in the formation of a discrete mononuclear zinc(II) complex Zn(Hpydc)2(H2O). It crystallizes in monoclinic space group C2/c with a = 17.9947(8), b = 7.1875(3), c = 12.5895(4) , b = 110.802(2), V = 1522.14(10) 3, Z = 4, Mr = 415.61, (C14H10N2O9Zn), Dc = 1.814g/cm3, = 16.71cm-1, F(000) = 840, R = 0.0505, wR = 0.1144. Each zinc(II) is coordinated to two nitrogen and three oxygen atoms of which two nitrogen and two oxygen atoms are from two pydc ligands, and one oxygen atom from the coordinated water molecule to form an irregular polyhedral geometry. The complex is linked further into a three-dimensional structure through the weak interactions of hydrogen bonds between the two oxygen atoms. IR spectrum of the complex is also discussed.