학술논문
A vertebrate myosin-I structure reveals unique insights into myosin mechanochemical tuning.
Document Type
Article
Author
Source
Subject
*MECHANICAL chemistry
*OPTICAL tweezers
*MOLECULAR motor proteins
*MYOSIN
*ORGANELLES
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*
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Language
ISSN
0027-8424
Abstract
Myosins are molecular motors that power diverse cellular processes, such as rapid organelle transport, muscle contraction, and tension-sensitive anchoring. The structural adaptations in the motor that allow for this functional diversity are not known, due, in part, to the lack of high-resolution structures of highly tension-sensitive myosins.We determined a 2.3-Å resolution structure of apo-myosin-Ib (Myo1b), which is the most tension-sensitive myosin characterized. We identified a striking unique orientation of structural elements that position the motor's lever arm. This orientation results in a cavity between the motor and lever arm that holds a 10-residue stretch of N-terminal amino acids, a region that is divergent among myosins. Single-molecule and biochemical analyses show that the N terminus plays an important role in stabilizing the post power-stroke conformation of Myo1b and in tuning the rate of the force-sensitive transition. We propose that this region plays a general role in tuning the mechanochemical properties of myosins. [ABSTRACT FROM AUTHOR]