Theoretical study of nonlinear triatomic molecular potential energy surfaces: Lie algebraic method

Triatomic molecular potential energy surfaces (PES) are obtained by using coherent state to take the classical limits of algebraic Hamiltonian. The algebraic Hamiltonian for bent tria-tomic molecules can be obtained using Lie algebraic method (the expansion coefficients are obtained by fitting spectroscopic data). This PES is applied to H2O molecule, and good results are obtained.     

A one-bead, one-stock solution approach to chemical genetics: part 2

BACKGROUND: Chemical genetics provides a systematic means to study biology using small molecules to effect spatial and temporal control over protein function. As complementary approaches, phenotypic and proteomic screens of structurally diverse and complex small molecules may yield not only interesting individual probes of biological function, but also global information about small molecule collections and the interactions of their members with biological systems. RESULTS: We report a general high-throughput method for converting high-capacity beads into arrayed stock solutions amenable to both phenotypic and proteomic assays. Polystyrene beads from diversity-oriented syntheses were arrayed individually into wells. Bound compounds were cleaved, eluted, and resuspended to generate 'mother plates' of stock solutions. The second phase of development of our technology platform includes optimized cleavage and elution conditions, a novel bead arraying method, and robotic distribution of stock solutions of small molecules into 'daughter plates' for direct use in chemical genetic assays. This library formatting strategy enables what we refer to as annotation screening, in which every member of a library is annotated with biological assay data. This phase was validated by arraying and screening 708 members of an encoded 4320-member library of structurally diverse and complex dihydropyrancarboxamides. CONCLUSIONS: Our 'one-bead, multiple-stock solution' library formatting strategy is a central element of a technology platform aimed at advancing chemical genetics. Annotation screening provides a means for biology to inform chemistry, complementary to the way that chemistry can inform biology in conventional ('investigator-initiated') small molecule screens.     

Treatment of Anomalous Vapor Diffusion in Polymers

The mechanics of thermally-activated gaseous diffusion in polymers have long been studied for development of theoretical understanding of the interactive forces responsible for the non-linear nature of diffusion and the resultant enthalpic changes in the polymer. Methodologies and calculations have been developed in this work for treatment of experimental data for elimination of thickness-related anomalies in water vapor diffusion and for delineation of pressure effects. Linearized data for different polymer thicknesses and the attendant internal thermal effects have been generated by using calculated single molecule diffusion values. Equally linear data are obtained for different pressures by the use of a graphical method from which identical diffusion values are obtained, independent of material thickness and external pressure. True comparisons and classification of polymers as to their diffusivities are thus possible for development of barrier materials for food and drug packaging and for protective encapsulation of electronic devices. Results will be reported for three structurally different polymers. This revised version was published online in July 2006 with corrections to the Cover Date.     

蛋白质分子中生物能量传输基本方程椭圆波解的讨论

在庞小峰关于蛋白质分子能量传输基本方程的基础上,求出了该方程的另一类解析解－－椭圆皮解。并验证了孤子解的存在性。还获得了椭圆波解的质量、动量和能量表达工。     

A Rule to Design High Spin Molecules with Hetero spin Centers

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分子印迹技术

分子印迹是国外近几十年才发展起来的一种新的研究方法,它主要是利用所合成的印迹高分子内含有的特殊结构对所使用的印迹分子的高选择性来进行各方面研究。目前,在手性分离,催化,传感器方面分子印迹的研究已取得了突破性进展。     

Chemical Characterization of Single Cells and Single Molecules

Advances in sensitive optical measurement schemes have led to the detection and the physical and chemical characterization of single biological cells and individual molecules. These technological achievements are much more than the ultimate milestone in low-level monitoring. Potential applications include DNA sequencing at high speeds, probing microscale environments, monitoring environmental pollution, studying the variability of molecular conformations, detecting disease infection at an early stage, and devising molecular-scale imaging probes.     

The Wigner molecule in a 2D quantum dot

The charge density and pair correlation function of three interacting electrons confined within a two-dimensional disc-like hard-wall quantum dot are calculated by full numerical diagonalization of the Hamiltonian. The formation of a Wigner molecule in the form of equilateral triangular configuration for electrons is observed as the size of the dot is increased.     

药物小分子穿越磷脂双层膜输运过程中的时滞效应

本文基于扩散动力学,建立了一种新的药物小分子穿越磷脂双层膜输运的理论模型,研究药物小分子穿越磷脂双层膜输运的动态过程,考察药物小分子跨膜输运过程中的时间延迟(时滞)效应。研究发现,药物小分子在数分钟内穿越磷脂双层膜各区域进入细胞,由于时滞效应,穿膜过程呈现了周期性演化特性。当药物小分子数量增加到一定程度,磷脂分子层会出现微小孔,让积累的药物小分子快速通过。通过分析模型中各参数的敏感性,我们还发现,药物小分子在磷脂双层膜内不同区域的扩散特性,以及输运过程的时滞性,都会对药物小分子穿越磷脂双层膜的动力学有较大程度的影响。理论结果符合模拟、实验观测,进一步深刻揭示了药物小分子穿越磷脂双层膜的穿膜特性,可为设计确切的疗法药物提供必要的参考和新方案。