酪氨酸-溴酸钾-硫酸-丙酮在三邻菲啰啉合铁(Ⅱ)催化下的B-Z振荡反应

研究了酪氨酸 溴酸钾 硫酸 丙酮在三邻菲啉合铁 (Ⅱ )催化下的化学振荡反应 ,对振荡的影响因素进行了研究和讨论 .运用正交实验法确立了振荡反应进行的浓度范围 ,得到一个 4 0多次振荡寿命为 6 0min的振荡波 .获得振荡的诱导期和周期与反应物浓度之间的变化趋势曲线 ,以及振荡反应在诱导期和振荡期的表观活化能分别为Ein=4 9.0kJ/mol和E =5 7.0kJ/mol.根据反应过程中的现象和实验数据 ,建立了振荡反应的模型和反应机理 ,确定 [Br-]是振荡反应自发进行的关键因素 .     

Crystal Structures of Two Potential Tumor Imaging Agents and Therapeutic Agents Copper（Ⅱ） Ternary Complexes with Salicylidene-tyrosinato Schiff Base and Nitrogen-donor Chelating Lewis Base

The crystal structures of two potential tumor imaging agents and therapeutic agents -copper(Ⅱ) complexes with salicylidene-tyrosinato Schiff base and nitrogen-donor chelating Lewis base, [Cu(sal-tyr)(bipy)] 1 and [Cu(sal-tyr)(phen)]2CH3OH 2 are presented. Our work is helpful to get deep understanding of novel 64Cu tumor imaging agents and therapeutic agents.     

TrpH—TryOH肽链中电子的逆向转移

本文较详细的研究了色氨酰酪氨酸二肽（ＴｒｐＨ－ＴｙｒＯＨ）中的电子转移，电子该电子转移的速率，甚至电子转移的方向都强烈的依赖于溶液的ｐＨ。而且，该肽中的酪氨酸残基瞬态粒子浓度与色氨酸残基瞬态粒子浓度之比也强烈的依赖于ｐＨ。根据这种依赖性，求得了二肽中的ｐＫａ（ＴｒｐＨ＾＋）和ｐＫａ（ＴｙｒＯＨ），其值分别为６．２和１１．３。     

聚(酪氨酸酯对苯二甲酰胺)碳酸酯药物控制释放材料的研究

报道了一类生物可降解聚（酪氨酸酯对苯二甲酰胺）碳酸酯的合成和结构表征，研究了聚合物的性质和体外降解性能，并以５ 氟脲嘧啶和牛血清白蛋为模型，对它们作为药物控制释放材料的性能进行了初步评价．     

3-氨基-酪氨酸盐酸盐的合成与晶体结构(英)

CommentThebiologicalrelevanceoftyrosinenitrationisasubjectofmuchinterest,becauseextensiveevidencesupportsformationof3鄄nitrotyrosineinvivounderavarietyofdifferentpathologicalconditions.Nitratedtyrosineresiduesarewidelyconsideredasbiomarkersfortheinvolveme…     

蒙脱石修饰碳糊电极测定氨基酸的研究：Ⅱ.酪氨酸的测定

本文报道蒙脱石修饰碳糊电极测定酪氨酸，在０．００１ｍｏｌ／Ｌ ＫＣｌ－ＨＣｌ（ｐＨ＝２．０）溶液中开路富集，介质交换后微分脉冲阳极溶出伏安法测定，在０．５－２．５μｇ／ｍｌ范围内有线性，检测限为６３ｎｇ／ｍｌ。可避免其他氨基酸，微量元素和常量金属元素的干扰，直接用于氨基酸药物样品的分析，获得了满意的结果，还对酪氨酸在电极上的反应机理进行了探讨。     

AASI新型吸附树脂对芳香氨基酸的吸附、洗脱性能研究

用AASI新型吸附树脂来吸附苯丙氨酸、酪氨酸，研究了pH、温度，溶液中盐浓度对吸附性能的影响以及树脂结构与吸附性能间的关系，计算了树脂BET比表面的有效利用率。     

蛋白质酪氨酸硝化的研究

蛋白质酪氨酸硝基化是一种重要的蛋白质翻译后修饰,与多种病症相关.经由过氧亚硝酸根(ONOO-)和NO2-/H2O2/血红素过氧化物酶体系是促使蛋白质硝化最主要的两种途径,其反应为自由基机理.本文对体内蛋白质硝基化的途径、机制及其生物学意义作了综述,指出蛋白质的硝化具有选择性,特定酪氨酸残基发生硝化能够改变蛋白质的结构和功能,影响其免疫应答和可能涉及的信号转导过程,从而具有重要的生物学意义.     

DNA-HRP/聚M-酪氨酸共修饰电极的制备及其电化学性能的研究

以聚L-酪氨酸膜为载体,固载DNA和辣根过氧化物酶(HRP)制备过氧化氢生物传感器.该传感器对H2O2表现出良好的催化还原特性,具有灵敏度高,稳定性好且易于制作等特点.其线性响应范围为:2.0×10-6～1.1×10-2 mol/L,检出限为8.0×10-7 mol/L (S/N=3).     

Expression and Characterization of Catalytic Domain of T Cell Protein Tyrosine Phosphatase（△TC-PTP） —— Immunohistochemical Study of △TC-PTP Expression in Non-small Cell Lung Carcinomas

This study objective was to express and characterize the catalytic domain of the human T cell protein tyrosine phosphatase（△TC-PTP） and to study immunohistochemically the expression of △TC-PTP in human non-small cell lung cancers. △TC-PTP gene was PCR amplified with the cDNA of human TC-PTP as template, and cloned into the pT7 expression vector. The recombinant pT7-△TC-PTP was expressed in E. coli Rosetta （ DE3 ） host cells and puri- fied. The enzymatic characteristics of △TC-PTP including enzyme activity and kinetics assay were measured. The antiserum was prepared by immunizing rabbit with the purified recombinant △TC-PTP. Rabbit polyclonal antibody against △TC-PTP was purified by PVDF immobilized antigen affinity chromatography. Immunohistochemical staining of lung cancer tissues was performed with antibody against △TC-PTP protein. △TC-PTP gene was correctly cloned, expressed, and purified. The recombinant △TC-PTP had a highly catalytic activity of PTPase. Squamous cell lung carcinoma showed a significantly higher expression rate of △TC-PTP （76. 92%, 10/13 ） than adenocarcinoma （57.14%, 4/7） and normal lung tissue（20%, 1/5 ）. This study represents the first demonstration that △TC-PTP is highly expressed in human squamous cell lung carcinomas. In addition, this study provides an important basis for further studying the biological function of TC-PTP and its relationship with lung carcinomas and other diseases.