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eLife Sciences Publications, Ltd

Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction

Publication ,  Preprint
Haertter, D; Hauke, L; Driehorst, T; Nishi, K; Zimmermann, W-H; Schmidt, CF
May 7, 2026
Published version (DOI) Publisher Link

Duke Scholars

Christoph F. Schmidt
Author Christoph F. Schmidt Physics

DOI

10.7554/elife.97321.2

Publication Date

May 7, 2026
 

Citation

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Haertter, D., Hauke, L., Driehorst, T., Nishi, K., Zimmermann, W.-H., & Schmidt, C. F. (2026). Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction. eLife Sciences Publications, Ltd. https://doi.org/10.7554/elife.97321.2
Haertter, Daniel, Lara Hauke, Til Driehorst, Kengo Nishi, Wolfram-Hubertus Zimmermann, and Christoph F. Schmidt. “Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction.” ELife Sciences Publications, Ltd, May 7, 2026. https://doi.org/10.7554/elife.97321.2.
Haertter D, Hauke L, Driehorst T, Nishi K, Zimmermann W-H, Schmidt CF. Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction. eLife Sciences Publications, Ltd. 2026.
Haertter, Daniel, et al. “Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction.” ELife Sciences Publications, Ltd, 7 May 2026. Crossref, doi:10.7554/elife.97321.2.
Haertter D, Hauke L, Driehorst T, Nishi K, Zimmermann W-H, Schmidt CF. Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction. eLife Sciences Publications, Ltd. 2026.

DOI

10.7554/elife.97321.2

Publication Date

May 7, 2026