EMIG, Ramona, KNODT, Wiebke, KRUSSIG, Mario J., ZGIERSKI-JOHNSTON, Callum M., GORKA, Oliver, GROSS, Olaf, KOHL, Peter, RAVENS, Ursula und PEYRONNET, Remi, 2021. Piezo1 channels contribute to the regulation of human atrial fibroblast mechanical properties and matrix stiffness sensing. Freiburg: Universität.

Emig, R., Knodt, W., Krussig, M.J., Zgierski-Johnston, C.M., Gorka, O., Groß, O., Kohl, P., Ravens, U., Peyronnet, R., 2021. Piezo1 channels contribute to the regulation of human atrial fibroblast mechanical properties and matrix stiffness sensing. Universität, Freiburg. https://doi.org/10.3390/cells10030663

Emig, R., Knodt, W., Krussig, M. J., Zgierski-Johnston, C. M., Gorka, O., Groß, O., Kohl, P., Ravens, U., & Peyronnet, R. (ca. 2021). Piezo1 channels contribute to the regulation of human atrial fibroblast mechanical properties and matrix stiffness sensing [Cd]. Universität. https://doi.org/10.3390/cells10030663

Emig R, Knodt W, Krussig MJ, Zgierski-Johnston CM, Gorka O, Groß O, Kohl P, Ravens U, Peyronnet R (2021) Piezo1 channels contribute to the regulation of human atrial fibroblast mechanical properties and matrix stiffness sensing. Universität, Freiburg

Emig, Ramona/ Knodt, Wiebke/ Krussig, Mario J./ Zgierski-Johnston, Callum M./ Gorka, Oliver/ Groß, Olaf/ Kohl, Peter/ Ravens, Ursula/ Peyronnet, Remi, Piezo1 channels contribute to the regulation of human atrial fibroblast mechanical properties and matrix stiffness sensing, Freiburg 2021.