A transient increase in Ca2+ concentration in sarcomeres is essential for their proper function. Ca2+ drives striated muscle contraction via binding to the troponin complex of the thin filament to activate its interaction with the myosin thick filament. In addition to the troponin complex, the myosin essential light chain and myosin-binding protein C were also found to be Ca2+ sensitive. However, the effects of Ca2+ on the function of the tropomodulin family proteins involved in regulating thin filament formation have not yet been studied. Leiomodin, a member of the tropomodulin family, is an actin nucleator and thin filament elongator. Using pyrene-actin polymerization assay and transmission electron microscopy, we show that the actin nucl...
Regulated thin filaments (RTFs) tightly control striated muscle contraction through calcium binding ...
Regulated thin filaments (RTFs) tightly control striated muscle contraction through calcium binding ...
The structures of muscle thin filaments reconstituted using skeletal actin and cardiac troponin and ...
Leiomodin proteins are vertebrate homologues of tropomodulin, having a role in the assembly and main...
Improper lengths of actin-thin filaments are associated with altered contractile activity and lethal...
Leiomodin is a potent actin nucleator related to tropomodulin, a capping protein localized at the po...
Leiomodin (Lmod) is a muscle-specific F-actin–nucleating protein that is related to the F-actin poin...
Striated muscle cells are composed of repeating contractile units known as sarcomeres. Contraction o...
How proteins sharing a common fold have evolved different functions is a fundamental question in bio...
The troponin (Tn) complex regulates the thin filament of striated muscle by transducing [Ca2+] fluct...
Muscle contraction is a finely tuned mechanism involving cyclical interactions between actin and my...
Contraction of skeletal and cardiac muscle is controlled by Ca2+ ions via regulatory proteins, tropo...
Tropomyosin and troponin are key regulatory proteins associated with muscle thin filaments. Regulati...
Contraction of striated muscles is regulated by tropomyosin strands that run continuously along acti...
Sarcomeres, the basic contractile units of striated muscle cells, contain arrays of thin (actin) and...
Regulated thin filaments (RTFs) tightly control striated muscle contraction through calcium binding ...
Regulated thin filaments (RTFs) tightly control striated muscle contraction through calcium binding ...
The structures of muscle thin filaments reconstituted using skeletal actin and cardiac troponin and ...
Leiomodin proteins are vertebrate homologues of tropomodulin, having a role in the assembly and main...
Improper lengths of actin-thin filaments are associated with altered contractile activity and lethal...
Leiomodin is a potent actin nucleator related to tropomodulin, a capping protein localized at the po...
Leiomodin (Lmod) is a muscle-specific F-actin–nucleating protein that is related to the F-actin poin...
Striated muscle cells are composed of repeating contractile units known as sarcomeres. Contraction o...
How proteins sharing a common fold have evolved different functions is a fundamental question in bio...
The troponin (Tn) complex regulates the thin filament of striated muscle by transducing [Ca2+] fluct...
Muscle contraction is a finely tuned mechanism involving cyclical interactions between actin and my...
Contraction of skeletal and cardiac muscle is controlled by Ca2+ ions via regulatory proteins, tropo...
Tropomyosin and troponin are key regulatory proteins associated with muscle thin filaments. Regulati...
Contraction of striated muscles is regulated by tropomyosin strands that run continuously along acti...
Sarcomeres, the basic contractile units of striated muscle cells, contain arrays of thin (actin) and...
Regulated thin filaments (RTFs) tightly control striated muscle contraction through calcium binding ...
Regulated thin filaments (RTFs) tightly control striated muscle contraction through calcium binding ...
The structures of muscle thin filaments reconstituted using skeletal actin and cardiac troponin and ...