Michael Rynkiewicz

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2015- Physiology & Biophysics Boston University, Boston, MA, United States 
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William J Lehman research scientist 2015- Boston University

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Creso JG, Gokhan I, Rynkiewicz MJ, et al. (2024) In silico and in vitro models reveal the molecular mechanisms of hypocontractility caused by M8R. Frontiers in Physiology. 15: 1452509
Rynkiewicz MJ, Childers MC, Karpicheva OE, et al. (2024) Myosin's powerstroke transitions define atomic scale movement of cardiac thin filament tropomyosin. The Journal of General Physiology. 156
Barry ME, Rynkiewicz MJ, Pavadai E, et al. (2024) Glutamate 139 of tropomyosin is critical for cardiac thin filament blocked-state stabilization. Journal of Molecular and Cellular Cardiology
Lehman W, Rynkiewicz MJ. (2023) Troponin-I-induced tropomyosin pivoting defines thin-filament function in relaxed and active muscle. The Journal of General Physiology. 155
Halder SS, Rynkiewicz MJ, Creso JG, et al. (2023) Mechanisms of pathogenicity in the hypertrophic cardiomyopathy-associated TPM1 variant S215L. Pnas Nexus. 2: pgad011
Doran MH, Rynkiewicz MJ, Rassici D, et al. (2023) Conformational changes linked to ADP release from human cardiac myosin bound to actin-tropomyosin. The Journal of General Physiology. 155
Doran MH, Rynkiewicz MJ, Pavadai E, et al. (2022) Myosin loop-4 is critical for optimal tropomyosin repositioning on actin during muscle activation and relaxation. The Journal of General Physiology. 155
Rynkiewicz MJ, Pavadai E, Lehman W. (2022) Modeling Human Cardiac Thin Filament Structures. Frontiers in Physiology. 13: 932333
Pavadai E, Rynkiewicz MJ, Yang Z, et al. (2022) Modulation of cardiac thin filament structure by phosphorylated troponin-I analyzed by protein-protein docking and molecular dynamics simulation. Archives of Biochemistry and Biophysics. 725: 109282
Teekakirikul P, Zhu W, Xu X, et al. (2022) Genetic resiliency associated with dominant lethal mutation causing atrial septal defect with high heritability. Cell Reports. Medicine. 3: 100501
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