DYNAMIC EVENTS IN MYOSIN DURING CONTRACTION OF MUSCLE

肌肉收缩期间肌球蛋白的动态事件

• 批准号: 6604305
• 负责人: EMIL REISLER
• 金额: $ 48.73万
• 依托单位: UNIVERSITY OF CALIFORNIA LOS ANGELES
• 依托单位国家: 美国
• 财政年份: 1978
• 资助国家: 美国
• 起止时间: 1978-07-01 至 2005-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6604305
• 关键词: actins; active sites; adenosinetriphosphatase; bioenergetics; biophysics; chemical binding; chemical kinetics; conformation; crosslink; intermolecular interaction; ionic bond; ionic strengths; laboratory rabbit; microfilaments; muscle contraction; mutant; myosins; physical model; protein structure function; tropomyosin; troponin

The long-term goal of this research is to elucidate the mechanism of muscle contraction. This grant will support work on three projects that focus on critical aspects of actomyosin function and its regulation in the cross-bridge cycle. The following specific aims will be pursued in the three projects: I. Strongly Bound Acto-S1 States: (i) to test the hypothesis for a specific role of loop 2 on myosin heads (S1) and actin's N-terminus in the transition from the weakly to strongly bound acto-S1 states; (ii) to test the role of sequence 50-58 on actin in acto-S1 interactions; (iii) to test and refine the models of the acto-S1 structure by mutations to cysteine on actin and S1, and the subsequent cross-linking (disulfide and other) and mapping of the acto-S1 interface. II. Dynamic Transitions and Couplings in S1: (i) to map the conformational states of the S1 relay region in the nucleotide and actin bound states of S1; (ii) to compare the flexibility of the SH1-SH2 helix in scallop and skeletal S1 by modifications and cross-linking of their SH1 and SH2 groups; (iii) to test and map several coupling pathways in S1: between the SH1-SH2 helix, the relay region, the converter, loops 1 and 2, and other sites on S1. III. Structure, Dynamics and Regulation of F-actin: (i) to test and refine the models of F- actin structure and the intermolecular interfaces in F-actin through disulfide cross-linkings of cysteine yeast actin mutants and the subsequent model calculations; (ii) to test the role of the hydrophobic plug (residues 262-274) in actin polymerization; (iii) to crystallize cross-linked (Q41-C374) alpha-skeletal actin dimers bound to segment 1 of gelsolin; (iv) to document the role of dynamic changes on F-actin in its function and regulation. The proposed research will combine the powerful approach of mutational substitutions in proteins with solution measurements of actomyosin function (acto-S1 binding, ATPase activity, regulation, in vitro motility, and force generation) and with the studies of F-actin, S1, and acto-S1 structure and dynamics through labeling, cross-linking, fluorescence measurements, and computational modeling. Key components of the proposed research are the preparation of mutant proteins, and the collaborative integration of the work on myosin and actin. The results of this work will contribute to the understanding of muscle function and malfunction, especially in the growing number of genetically identified cardiac and skeletal muscle myopathies.

这项研究的长期目标是阐明肌肉收缩的机制。 这笔赠款将支持三个项目的工作，重点是肌动球蛋白功能及其在跨桥周期中的调节的关键方面。 这三个项目的具体目标如下：强结合的Acto-S1状态：（i）检验肌球蛋白头（S1）和肌动蛋白N-末端上的环2在从弱结合到强结合的Acto-S1状态的转变中的特定作用的假设;（ii）检验肌动蛋白上的序列50-58在Acto-S1相互作用中的作用;（iii）通过肌动蛋白和S1上的半胱氨酸突变，以及随后的交联（二硫化物和其他）和acto-S1界面的绘图，测试和改进acto-S1结构的模型。 二. S1中的动态转换和偶联：（i）绘制S1的核苷酸和肌动蛋白结合状态中S1中继区的构象状态;（ii）通过修饰和交联S1和S1中的SH 1和SH 2基团，比较扇贝和骨骼S1中SH 1-SH 2螺旋的灵活性;（iii）测试和绘制S1中的几种偶联途径：SH 1-SH 2螺旋之间、中继区域、转换器、环路1和2以及S1上的其他站点。 三. F-肌动蛋白的结构、动力学和调控：（i）通过半胱氨酸酵母肌动蛋白突变体的二硫键交联和随后的模型计算，测试和完善F-肌动蛋白结构和F-肌动蛋白分子间界面的模型;（ii）测试疏水塞的作用（残基262-274）在肌动蛋白聚合;（iii）结晶交联（Q41-C374）α-骨架肌动蛋白二聚体结合凝溶胶蛋白的片段1;（iv）记录F-肌动蛋白的动态变化在其功能和调节中的作用。拟议的研究将结合联合收割机的强大的方法突变取代蛋白质与解决方案测量肌动球蛋白功能（acto-S1结合，ATP酶活性，调节，在体外运动，和力的产生），并与F-肌动蛋白，S1和acto-S1的结构和动力学的研究，通过标记，交联，荧光测量和计算建模。 拟议研究的关键组成部分是突变蛋白的制备，以及肌球蛋白和肌动蛋白工作的协作整合。 这项工作的结果将有助于了解肌肉功能和功能障碍，特别是在越来越多的基因鉴定的心脏和骨骼肌肌病。