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Nicholls P, Bujalowski PJ, Epstein HF, et al. (2014) Chaperone-mediated reversible inhibition of the sarcomeric myosin power stroke. Febs Letters. 588: 3977-81
Kwartler CS, Chen J, Thakur D, et al. (2014) Overexpression of smooth muscle myosin heavy chain leads to activation of the unfolded protein response and autophagic turnover of thick filament-associated proteins in vascular smooth muscle cells. The Journal of Biological Chemistry. 289: 14075-88
Bujalowski P, Nicholls P, Kaiser CM, et al. (2013) Analysis of Myosin Motor Domain Interactions with its Chaperone UNC-45 at the Single Molecule Level Biophysical Journal. 104: 570a
Epstein HF, Benian GM. (2012) Paradigm shifts in cardiovascular research from Caenorhabditis elegans muscle. Trends in Cardiovascular Medicine. 22: 201-9
Kaiser CM, Bujalowski PJ, Ma L, et al. (2012) Tracking UNC-45 chaperone-myosin interaction with a titin mechanical reporter. Biophysical Journal. 102: 2212-9
Chen D, Li S, Singh R, et al. (2012) Dual function of the UNC-45b chaperone with myosin and GATA4 in cardiac development. Journal of Cell Science. 125: 3893-903
Benian GM, Epstein HF. (2011) Caenorhabditis elegans muscle: a genetic and molecular model for protein interactions in the heart. Circulation Research. 109: 1082-95
Ni W, Hutagalung AH, Li S, et al. (2011) The myosin-binding UCS domain but not the Hsp90-binding TPR domain of the UNC-45 chaperone is essential for function in Caenorhabditis elegans. Journal of Cell Science. 124: 3164-73
Guo W, Chen D, Fan Z, et al. (2011) Differential turnover of myosin chaperone UNC-45A isoforms increases in metastatic human breast cancer. Journal of Molecular Biology. 412: 365-78
Lee CF, Melkani GC, Yu Q, et al. (2011) Drosophila UNC-45 accumulates in embryonic blastoderm and in muscles, and is essential for muscle myosin stability. Journal of Cell Science. 124: 699-705