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Communication
Sylvia Fechner, Isabel D’Alessandro, Lingxin Wang, Calvin Tower, Li Tao, Miriam B. Goodman
Animal physiology depends on degenerin, epithelial sodium, and acid-sensing ion channels (DEG/ENaC/ASICs). By measuring the sensitivity of three C. elegans DEG/ENaC/ASICs to amiloride analogs and NSAIDs, Fechner et al. show that individual channels have distinct pharmacological footprints.
Article
Pedro L. Martinez-Espinosa, Chengtao Yang, Xiao-Ming Xia, Christopher J. Lingle
Martinez-Espinosa et al. show that FGF14 and the voltage-dependent Na+ channel Nav1.3 are the main regulators of rapidly inactivating currents and Nav channel availability in mouse adrenal chromaffin cells. Their results uncover a role for FGF14 in regulating Nav channel function.
Article
Laurin M. Hanft, Daniel P. Fitzsimons, Timothy A. Hacker, Richard L. Moss, Kerry S. McDonald
Cardiac myosin-binding protein C (cMyBP-C) is thought to regulate cardiac muscle and heart contraction. Hanft et al. show that cMyBP-C phosphorylation regulates length dependence of power output in murine permeabilized cardiac myocytes, which translates to in vivo Frank–Starling relationships.
Article
Pedro L. Martinez-Espinosa, Alan Neely, Jiuping Ding, Christopher J. Lingle
Martinez-Espinosa et al. show that fast and slow recovery of voltage-dependent Na+ (Nav) channels in rat adrenal chromaffin cells depends on two independent inactivation pathways. Competition between these pathways regulates changes in Nav channel availability.
Methods and Approaches
Thomas A. Bunch, Victoria C. Lepak, Kellan M. Bortz, Brett A. Colson
Bunch et al. describe a new assay to rapidly evaluate binding of cMyBP-C to F-actin (with or without tropomyosin) in solution. Changes in labeled actin fluorescence lifetime due to cMyBP-C phosphorylation and/or HCM mutations were consistent with measurements obtained using cosedimentation assays.
Article
Masataka Kawai, Robert Stehle, Gabriele Pfitzer, Bogdan Iorga
In this study, Kawai et al. address the role of inorganic phosphate in muscle cross-bridge kinetics using a subcellular structure called myofibrils. They demonstrate that phosphate binding is a key determinant of oscillatory work and suggest that it may also compete with ATP for binding to the myosin head.
Article
Jasmine Giles, Daniel P. Fitzsimons, Jitandrakumar R. Patel, Chloe Knudtsen, Zander Neuville, Richard L. Moss
Giles et al. show that the phosphorylation status of cardiac myosin-binding protein-C (cMyBP-C) modulates Ca2+ activation–dependent unloaded shortening velocity of skinned myocardium. The results suggest that cMyBP-C phosphorylation regulates cooperative binding of myosin to actin, and thus the activation state of the thin filament.

Related Articles from Rockefeller University Press

Issue Cover
Current Issue
Volume 153,
Issue 3,
March 1, 2021
Reviews & Opinions
Editorial
Richard L. Moss, Christine Cremo, Henk L. Granzier
The March 2021 issue of JGP is a collection of peer-reviewed articles focused on the function and dynamic regulation of contractile systems in muscle and non-muscle cells.
Review
Lu Wang, Pasquale Chitano, Chun Y. Seow
This review article focuses on how intra- and extracellular factors influence myosin filament formation and how the assembly state of myosin determines contractile function in smooth muscle.
Research News
Ben Short
JGP microscopy study supports the idea that the region linking myosin head and tail domains can be peeled away from filament backbone to prevent actin-attached heads from impeding filament movement.

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