| 期刊全稱 | Actin-based Motility | | 期刊簡稱 | Cellular, Molecular | | 影響因子2023 | Marie-France Carlier | | 視頻video | http://file.papertrans.cn/145/144096/144096.mp4 | | 發(fā)行地址 | Covers insights coming from the various disciplines (cell biology, biochemistry, biophysics and theoretical modelling) that have contributed, in the past ten years, in understanding actin-based motili | | 圖書封面 |  | | 影響因子 | Since the discovery of actin by Straub in the 1950’s and the pioneering work of Oosawa on actin self-assembly in helical laments in the 1960’s, many books and conference proceedings have been published. As one of the most essential p- teins in life, essential for movement in organisms rangingfrom bacteria to higher eukaryotes, it is no surprise that actin has fascinated generations of scientists from many different elds. Actin can be considered as a “l(fā)iving treasure” of biology; the kinetics and thermodynamics of self-assembly, the dissipative nature of actin po- merization, the molecular interactions of monomeric and polymerized actin with regulators, the mechanical properties of actin gels, and more recently the force p- ducing motile and morphogenetic processes organized by the actin nanomachine in response to signaling, are all milestones in actin research. Discoveries that directly derive from and provide deeper insight into the fundamental properties of actin are constantly being made, making actin an ever appealing research molecule. At the same time, the explosion in new technologies and techniques in biological sciences has served to attract researchers from an expanding n | | Pindex | Book 2010 |
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