Measuring the kinetic and mechanical properties of non-processive myosins using optical tweezers
MJ Greenberg, H Shuman, EM Ostap - Optical Tweezers: Methods and …, 2017 - Springer
MJ Greenberg, H Shuman, EM Ostap
Optical Tweezers: Methods and Protocols, 2017•SpringerThe myosin superfamily of molecular motors utilizes energy from ATP hydrolysis to generate
force and motility along actin filaments in a diverse array of cellular processes. These motors
are structurally, kinetically, and mechanically tuned to their specific molecular roles in the
cell. Optical trapping techniques have played a central role in elucidating the mechanisms
by which myosins generate force and in exposing the remarkable diversity of myosin
functions. Here, we present thorough methods for measuring and analyzing interactions …
force and motility along actin filaments in a diverse array of cellular processes. These motors
are structurally, kinetically, and mechanically tuned to their specific molecular roles in the
cell. Optical trapping techniques have played a central role in elucidating the mechanisms
by which myosins generate force and in exposing the remarkable diversity of myosin
functions. Here, we present thorough methods for measuring and analyzing interactions …
Abstract
The myosin superfamily of molecular motors utilizes energy from ATP hydrolysis to generate force and motility along actin filaments in a diverse array of cellular processes. These motors are structurally, kinetically, and mechanically tuned to their specific molecular roles in the cell. Optical trapping techniques have played a central role in elucidating the mechanisms by which myosins generate force and in exposing the remarkable diversity of myosin functions. Here, we present thorough methods for measuring and analyzing interactions between actin and non-processive myosins using optical trapping techniques.
Springer
