Physiologically Induced High Gaussian Curvature Drives Nuclear Lamina Rupture and Cytoskeletal Displacement-Contributing to Downstream Dysfunction

MLA

Tobin, Michael and University of Pennsylvania. Physiologically Induced High Gaussian Curvature Drives Nuclear Lamina Rupture and Cytoskeletal Displacement-Contributing to Downstream Dysfunction. [Philadelphia, Pennsylvania] : University of Pennsylvania, 2022.

APA

Tobin, M. & University of Pennsylvania. (2023). Physiologically Induced High Gaussian Curvature Drives Nuclear Lamina Rupture and Cytoskeletal Displacement-Contributing to Downstream Dysfunction. [Philadelphia, Pennsylvania] : University of Pennsylvania.

Chicago

Tobin, Michael and University of Pennsylvania. Physiologically Induced High Gaussian Curvature Drives Nuclear Lamina Rupture and Cytoskeletal Displacement-Contributing to Downstream Dysfunction. [Philadelphia, Pennsylvania] : University of Pennsylvania, 2022.