Disease Biophysics Group
The Disease Biophysics Group (DBG) at Harvard University is an interdisciplinary team of biologists, physicists, engineers and material scientists actively researching the structure/function relationship in cardiac, neural, and vascular smooth muscle tissue engineering.
Recent Publications
2025
164 ., Wang Y, Liu J, Peters MM, Ishii R, Wang D, Chowdhury S, Parker KK, and Shakhnovich EI. 2025. “Entropy-Driven Denaturation Enables Sustainable Protein Regeneration through Rapid Gel-Solid Transition”. Nature Communications, 16, 6907
164 ., Wang Y, Liu J, Peters MM, Ishii R, Wang D, Chowdhury S, Parker KK, and Shakhnovich EI. 2025. “Entropy-Driven Denaturation Enables Sustainable Protein Regeneration through Rapid Gel-Solid Transition”. Nature Communications, 16, 6907
163 ., Yang H, Wang Y, Jang Y, Shani K, Jiao Q, Peters MM, Parker KK, and Vlassak JJ. 2025. “Biomimetic Hierarchical Fibrous Hydrogels With High Alignment and Flaw Insensitivity”. Matter, 8, 6
163 ., Yang H, Wang Y, Jang Y, Shani K, Jiao Q, Peters MM, Parker KK, and Vlassak JJ. 2025. “Biomimetic Hierarchical Fibrous Hydrogels With High Alignment and Flaw Insensitivity”. Matter, 8, 6
162 ., Lu F, Liou C, Ma Q, Wu Z, Xue B, Xia Y, Xia S, Trembley MA, Ponek A, Xie W, Shani K, Bortolin RH, Prondzynski M, Berkson P, Zhang X, Naya FJ, Bedi KC, Margulies KB, Zhang D, Parker KK, and Pu WT. 2025. “Virally Delivered CMYA5 Enhances the Assembly of Cardiac Dyads”. Nature Biomedical Engineering , 8, 9, Pp. 109-26
162 ., Lu F, Liou C, Ma Q, Wu Z, Xue B, Xia Y, Xia S, Trembley MA, Ponek A, Xie W, Shani K, Bortolin RH, Prondzynski M, Berkson P, Zhang X, Naya FJ, Bedi KC, Margulies KB, Zhang D, Parker KK, and Pu WT. 2025. “Virally Delivered CMYA5 Enhances the Assembly of Cardiac Dyads”. Nature Biomedical Engineering , 8, 9, Pp. 109-26
161 ., Yoshinaga D, Craven I, Feng R, Prondzynski M, Shani K, Tharani Y, Mayourian J, Joseph M, Walker D, Bortolin RH, Carreon CK, Boss B, Upton S, Parker KK, Pu WT, and Bezzerides VJ. 2025. “Dysregulation of N-Terminal Acetylation Causes Cardiac Arrhythmia and Cardiomyopathy”. Nature Communications, 16, 3604
161 ., Yoshinaga D, Craven I, Feng R, Prondzynski M, Shani K, Tharani Y, Mayourian J, Joseph M, Walker D, Bortolin RH, Carreon CK, Boss B, Upton S, Parker KK, Pu WT, and Bezzerides VJ. 2025. “Dysregulation of N-Terminal Acetylation Causes Cardiac Arrhythmia and Cardiomyopathy”. Nature Communications, 16, 3604
160 ., Florindi C, Jang Y, Shani K, Moretti P, Bertarelli C, Lanzani G, Parker KK, Lodola F, and . 2025. “A Cardiac Microphysiological System for Studying Ca2+ Propagation via Non-Genetic Optical Stimulation”. Journal of Visualized Experiments, 217
160 ., Florindi C, Jang Y, Shani K, Moretti P, Bertarelli C, Lanzani G, Parker KK, Lodola F, and . 2025. “A Cardiac Microphysiological System for Studying Ca2+ Propagation via Non-Genetic Optical Stimulation”. Journal of Visualized Experiments, 217
159 ., Zimmerman JF, Drennan DJ, Ikeda J, Jin Q, Ardoña HAM, Kim SL, Ishii R, and Parker KK. 2025. “Bioinspired Design of a Tissue-Engineered Ray With Machine Learning”. Science Robotics, 10, 99
159 ., Zimmerman JF, Drennan DJ, Ikeda J, Jin Q, Ardoña HAM, Kim SL, Ishii R, and Parker KK. 2025. “Bioinspired Design of a Tissue-Engineered Ray With Machine Learning”. Science Robotics, 10, 99