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机译:基于内在无序蛋白的分子生物传感系统
Department of Chemistry and Chemical Biology Indiana University Purdue University Indianapolis 402 N. Blackford Street Room LD 326 Indianapolis IN 46217 USA;
Department of Chemistry and Chemical Biology Indiana University Purdue University Indianapolis 402 N. Blackford Street Room LD 326 Indianapolis IN 46217 USA;
Department of Chemistry and Chemical Biology Indiana University Purdue University Indianapolis 402 N. Blackford Street Room LD 326 Indianapolis IN 46217 USA;
Department of Chemistry and Chemical Biology Indiana University Purdue University Indianapolis 402 N. Blackford Street Room LD 326 Indianapolis IN 46217 USA;
Department of Chemistry and Chemical Biology Indiana University Purdue University Indianapolis 402 N. Blackford Street Room LD 326 Indianapolis IN 46217 USA;
Bioanalytical methods; Biosensors; Fluorescence; Intrinsically disordered protein (IDP); Breast cancer protein (BRCA1); p53;
机译:基于内在无序蛋白的分子生物传感系统
机译:基于拓扑的内在无序蛋白建模:平衡内在折叠和分子间相互作用。
机译:基于分子函数预测本质上无序蛋白的无序区域
机译:疾病相关的固有紊乱蛋白(IDP)的分子动力学模拟
机译:全基因组预测内在疾病;固有紊乱蛋白的序列比对
机译:研究主题:从结构生物学到分子系统生物学:揭示癌症和神经变性中激酶活性调节机制的实验和计算方法:分子内相互作用稳定Sic1内在无序的激酶抑制剂结构域的紧密构象:分子动力学研究
机译:Alzheimer和Parkinson疾病分子模拟的分子机制见解:了解人工和病理畸变突变在与病理学相关的本质无序蛋白质中的作用