Cardiac length-dependent activation driven by force-dependent thick-filament dynamics
The length-dependent activation (LDA) of maximum force and calcium sensitivity are
established features of cardiac muscle contraction but the dominant underlying mechanisms …
established features of cardiac muscle contraction but the dominant underlying mechanisms …
Cardiac length-dependent activation driven by force-dependent thick-filament dynamics
A Lewalle, G Milburn, KS Campbell… - Biophysical … - pubmed.ncbi.nlm.nih.gov
The length-dependent activation (LDA) of maximum force and calcium sensitivity are
established features of cardiac muscle contraction but the dominant underlying mechanisms …
established features of cardiac muscle contraction but the dominant underlying mechanisms …
Cardiac length-dependent activation driven by force-dependent thick-filament dynamics
A Lewalle, G Milburn, KS Campbell, SA Niederer - Biophysical Journal, 2024 - Elsevier
The length-dependent activation (LDA) of maximum force and calcium sensitivity are
established features of cardiac muscle contraction but the dominant underlying mechanisms …
established features of cardiac muscle contraction but the dominant underlying mechanisms …
Cardiac length-dependent activation driven by force-dependent thick-filament dynamics.
A Lewalle, G Milburn, KS Campbell… - Biophysical …, 2024 - europepmc.org
The length-dependent activation (LDA) of maximum force and calcium sensitivity are
established features of cardiac muscle contraction but the dominant underlying mechanisms …
established features of cardiac muscle contraction but the dominant underlying mechanisms …