Motor Proteins and Molecular Motors

Rezensionen / Stimmen

"Life is a motion!" (p. xvii) opens this volume that endeavors to provide a physical-chemical framework for understanding the working principles of motor proteins...The first part of the book introduces the physical foundations, starting with diffusion and then discusses a number of techniques, including stopped flow, force spectroscopy, and super-resolution microscopy. The second part covers fundamental physical and chemical concepts, starting with equilibrium approaches before moving to nonequilibrium approaches and enzyme kinetics. Two pleasing touches are biographical details of the scientists who established the founding principles, and the inclusion of questions important to the motors field that are used to frame the discussion of the theoretical concepts.

In the third and defining section of the volume, the author presents two theoretical approaches for modeling molecular motors: Continuum Ratchets and Discrete-State Stochastic models. Having published a number of papers using both approaches, Kolomeisky is the ideal person to present the foundations as well as the strengths and weaknesses of each approach...Overall, the volume is clearly written and will be of value to graduate students and researchers across multiple disciplines related to mechanobiology and nanotechnology. The treatment of modeling approaches is unique and the strongest aspect of the book, but the coverage of fundamental experimental and theoretical concepts underlying motor protein research will also be of value for researchers spanning cell biology, biophysics, and applied mathematics. Most importantly, this volume focuses most on the physical-chemical fundamentals of motor proteins, which will remain foundational as the field moves forward."

-William O. Hancock, Pennsylvania State University, in THE QUARTERLY REVIEW OF BIOLOGY, Volume 93, June 2018

"As a chemical physicist dabbling in molecular biophysics, I am particularly intimidated by th