Destabilization of F-actin by Mechanical Stress Deprivation or Tpm3.1 Inhibition Promotes a Pathological Phenotype in Tendon Cells

MLA

Kameron L. Inguito, et al. Destabilization of F-Actin by Mechanical Stress Deprivation or Tpm3.1 Inhibition Promotes a Pathological Phenotype in Tendon Cells. Feb. 2022. EBSCOhost, https://doi.org/10.1101/2022.02.15.480605.

APA

Kameron L. Inguito, Mandy M. Schofield, Arya D. Faghri, Ellen T. Bloom, Marissa Heino, Dawn M. Elliott, & Justin Parreno. (2022). Destabilization of F-actin by Mechanical Stress Deprivation or Tpm3.1 Inhibition Promotes a Pathological Phenotype in Tendon Cells. https://doi.org/10.1101/2022.02.15.480605

Chicago

Kameron L. Inguito, Mandy M. Schofield, Arya D. Faghri, Ellen T. Bloom, Marissa Heino, Dawn M. Elliott, and Justin Parreno. 2022. “Destabilization of F-Actin by Mechanical Stress Deprivation or Tpm3.1 Inhibition Promotes a Pathological Phenotype in Tendon Cells,” February. doi:10.1101/2022.02.15.480605.