Department of Electrical Engineering Electronics, University of Liverpool, L69 3GJ, United Kingdom;
Department of Electrical Engineering Electronics, University of Liverpool, L69 3GJ, United Kingdom;
Department of Electrical Engineering Electronics, University of Liverpool, L69 3GJ, United Kingdom;
School of Natural Sciences, Linnaeus University, 39182 Kalmar, Sweden;
School of Natural Sciences, Linnaeus University, 39182 Kalmar, Sweden;
Department of Electrical Engineering Electronics, University of Liverpool, L69 3GJ, United Kingdom;
Myosin; motility; electrophoresis; actin; in vitro motility assay; electric field; molecular motors;
机译:肌动蛋白丝运动性引起的共振频率和刚度变化的聚合物表面的石英晶体微天平研究
机译:肌动蛋白丝的运动性引起的共振频率和聚合物表面刚性的变化的石英晶体微量天平研究
机译:肌动蛋白丝的运动性引起的共振频率和聚合物表面刚性的变化的石英晶体微量天平研究
机译:肌动蛋白长丝对肌蛋白官能化表面的动力的电场调节
机译:通过调制PKC(epsilon)肌动蛋白结合基元受损的转移能力:细胞基质粘附和运动性的影响。
机译:电场对肌动蛋白丝的限制和操纵
机译:电场对肌动蛋白丝的限制和操纵
机译:正电子寿命调制电场诱导金表面形成正电子。