Richard L Moss Person

academic article

• Deletion of Enigma Homologue from the Z-disc slows tension development kinetics in mouse myocardium.  Journal of General Physiology.  151:670-679. 2019
• Recovery of left ventricular function following in vivo reexpression of cardiac myosin binding protein C.  Journal of General Physiology.  151:77-89. 2019
• Acting on an impulse (or two): Advantages of high-frequency tetanic onset in skeletal muscle.  Journal of General Physiology.  149:297-300. 2017
• Cardiac MyBP-C Regulates the Rate and Force of Contraction in Mammalian Myocardium.  Circulation Research.  116:183-192. 2015
• Phosphorylation of Cardiac Myosin-Binding Protein-C Is a Critical Mediator of Diastolic Function.  Circulation: Heart Failure.  8:582-594. 2015
• Dissociation of Structural and Functional Phenotypes in Cardiac Myosin-Binding Protein C Conditional Knockout Mice.  Circulation.  126:1194-1205. 2012
• Myosin binding protein-C phosphorylation is the principal mediator of protein kinase A effects on thick filament structure in myocardium.  Journal of Molecular and Cellular Cardiology.  53:609-616. 2012
• Differential roles of regulatory light chain and myosin binding protein-C phosphorylations in the modulation of cardiac force development: X-ray studies of RLC phosphorylation in skinned murine cardiac muscle.  Journal of Physiology.  588:981-993. 2010
• Regulation of contraction in mammalian striated muscles—the plot thick-ens.  Journal of General Physiology.  136:21-27. 2010
• Mutation that dramatically alters rat titin isoform expression and cardiomyocyte passive tension.  Journal of Molecular and Cellular Cardiology.  44:983-991. 2008
• Overexpression of TEAD-1 in Transgenic Mouse Striated Muscles Produces a Slower Skeletal Muscle Contractile Phenotype.  Journal of Biological Chemistry.  283:36154-36167. 2008
• Protein Kinase A–Mediated Phosphorylation of cMyBP-C Increases Proximity of Myosin Heads to Actin in Resting Myocardium.  Circulation Research.  103:244-251. 2008
• Radial Displacement of Myosin Cross-bridges in Mouse Myocardium due to Ablation of Myosin Binding Protein-C.  Journal of Molecular Biology.  367:36-41. 2007
• Ablation of Myosin-Binding Protein-C Accelerates Force Development in Mouse Myocardium.  Biophysical Journal.  90:4119-4127. 2006
• Activation Dependence of Stretch Activation in Mouse Skinned Myocardium: Implications for Ventricular Function.  Journal of General Physiology.  127:95-107. 2006
• Cytoplasmic γ-Actin Is Not Required for Skeletal Muscle Development but Its Absence Leads to a Progressive Myopathy.  Developmental Cell.  11:387-397. 2006
• Myosin Light Chain 2 Into the Mainstream of Cardiac Development and Contractility.  Circulation Research.  99:225-227. 2006
• Basal myosin light chain phosphorylation is a determinant of Ca ²⁺ sensitivity of force and activation dependence of the kinetics of myocardial force development.  American Journal of Physiology: Heart and Circulatory Physiology.  287:H2712-H2718. 2004
• Expression of cardiac troponin T with COOH-terminal truncation accelerates cross-bridge interaction kinetics in mouse myocardium.  American Journal of Physiology: Heart and Circulatory Physiology.  287:H1756-H1761. 2004
• Myosin Crossbridge Activation of Cardiac Thin Filaments: Implications for Myocardial Function in Health and Disease.  Circulation Research.  94:1290-1300. 2004
• Frank-Starling Relationship: Long on Importance, Short on Mechanism.  Circulation Research.  90:13-Nov. 2002
• Cooperative Mechanisms in the Activation Dependence of the Rate of Force Development in Rabbit Skinned Skeletal Muscle Fibers.  Journal of General Physiology.  117:133-148. 2001
• Cross-bridge interaction kinetics in rat myocardium are accelerated by strong binding of myosin to the thin filament.  Journal of Physiology.  530:263-272. 2001
• PKA accelerates rate of force development in murine skinned myocardium expressing α- or β-tropomyosin.  American Journal of Physiology: Heart and Circulatory Physiology.  280:H2732-H2739. 2001
• Aging-dependent depression in the kinetics of force development in rat skinned myocardium.  American Journal of Physiology: Heart and Circulatory Physiology.  276:H1511-H1519. 1999
• Role of myosin heavy chain composition in kinetics of force development and relaxation in rat myocardium.  Journal of Physiology.  513:171-183. 1998
• Strong Binding of Myosin Modulates Length-Dependent Ca ²⁺ Activation of Rat Ventricular Myocytes.  Circulation Research.  83:602-607. 1998