Add to ORKGRationale: Protein kinase C (PKC) regulates contractility of cardiac muscle cells by phosphorylating thin- and thick- filament–based proteins. Myocardial sarcomeres also contain a third myofilament, titin, and it is unknown whether titin can be phosphorylated by PKC and whether it affects passive tension. Objective: The purpose of this study was to examine the effect of PKC on titin phosphorylation and titin-based passive tension. Methods and Results: Phosphorylation assays with PKC revealed that titin is phosphorylated in skinned myocardial tissues; this effect is exacerbated by pretreating with protein phosphatase 1. In vitro phosphorylation of recombinant protein representing titin’s spring elements showed that PKC targets the proline ...
AbstractPassive tension in striated muscles derives primarily from the extension of the giant protei...
Rationale: The giant protein titin plays key roles in myofilament assembly and determines the passiv...
Titin-based myofilament stiffness is largely modulated by phosphorylation of its elastic I-band regi...
Diastolic performance is regulated by net myocardial stiffness, which is determined by the mechano-s...
Protein Kinase C-alpha (PKCalpha) was recently reported to increase myocardial stiffness, an effect ...
The giant sarcomeric protein titin spans the length of the half sarcomere and contains an I-band spa...
The giant protein titin performs structure-preserving functions in the sarcomere and is important fo...
Protein kinase C (PKC) is a family of serine/threonine protein kinases, and alterations have been fo...
Titin-based passive stiffness is post-translationally regulated by several kinases that phosphorylat...
Titin-based passive stiffness is post-translationally regulated by several kinases that phosphorylat...
The PEVKdomain of the giant muscle protein titin is a proline-rich sequence with unknown secondary/t...
Rationale: The giant protein titin plays key roles in myofilament assembly and determines the passiv...
The PEVKdomain of the giant muscle protein titin is a proline-rich sequence with unknown secondary/t...
The PEVKdomain of the giant muscle protein titin is a proline-rich sequence with unknown secondary/t...
Objective: In human heart failure β-adrenergic-mediated protein kinase A (PKA) activity is down-regu...
AbstractPassive tension in striated muscles derives primarily from the extension of the giant protei...
Rationale: The giant protein titin plays key roles in myofilament assembly and determines the passiv...
Titin-based myofilament stiffness is largely modulated by phosphorylation of its elastic I-band regi...
Diastolic performance is regulated by net myocardial stiffness, which is determined by the mechano-s...
Protein Kinase C-alpha (PKCalpha) was recently reported to increase myocardial stiffness, an effect ...
The giant sarcomeric protein titin spans the length of the half sarcomere and contains an I-band spa...
The giant protein titin performs structure-preserving functions in the sarcomere and is important fo...
Protein kinase C (PKC) is a family of serine/threonine protein kinases, and alterations have been fo...
Titin-based passive stiffness is post-translationally regulated by several kinases that phosphorylat...
Titin-based passive stiffness is post-translationally regulated by several kinases that phosphorylat...
The PEVKdomain of the giant muscle protein titin is a proline-rich sequence with unknown secondary/t...
Rationale: The giant protein titin plays key roles in myofilament assembly and determines the passiv...
The PEVKdomain of the giant muscle protein titin is a proline-rich sequence with unknown secondary/t...
The PEVKdomain of the giant muscle protein titin is a proline-rich sequence with unknown secondary/t...
Objective: In human heart failure β-adrenergic-mediated protein kinase A (PKA) activity is down-regu...
AbstractPassive tension in striated muscles derives primarily from the extension of the giant protei...
Rationale: The giant protein titin plays key roles in myofilament assembly and determines the passiv...
Titin-based myofilament stiffness is largely modulated by phosphorylation of its elastic I-band regi...