Add to ORKGSignaling by reactive oxygen species has emerged as a major physiological process. Due to its high metabolic rate, striated muscle is especially subject to oxidative stress, and there are multiple examples in cardiac and skeletal muscle where oxidative stress modulates contractile function. Here we assessed the potential of cysteine oxidation as a mechanism for modulating contractile function in skeletal and cardiac muscle. Analyzing the cysteine content of the myofilament proteins in striated muscle, we found that cysteine residues are relatively rare, but are very similar between different muscle types and different vertebrate species. To refine this list of cysteines to those that may modulate function, we estimated the accessibility of ...
Muscle is made up of two main contractile proteins, myosin and actin. In this actomyosin complex, my...
Changes in ion distribution across skeletal muscle membranes during muscle activity affect excitabil...
Background: Heme released from red blood cells targets a number of cell components including the cyt...
Signaling by reactive oxygen species has emerged as a major physiological process. Due to its high m...
Signaling by reactive oxygen species has emerged as a major physiological process. Due to its high m...
Biological systems are frequently exposed to reactive oxygen species (ROS), which can be damaging to...
Given the association between high aerobic capacity and the prevention of metabolic diseases, elucid...
Age-related loss of muscle mass and function is associated with increased frailty and loss of indepe...
Muscles are responsible for producing force throughout the human body. Muscle tissue is divided into...
This research examines the functional and structural effects of oxidative modification in Dicty myos...
It is becoming increasingly evident that redox state leading to post-translational modifications of ...
In this study we investigated the molecular mechanism of glutathionylation on isolated human cardiac...
Protein S-glutathionylation is an important reversible post-translational modification implicated in...
Our previous studies demonstrated a relation between glutathionylation of cardiac myosin binding pro...
AbstractThe mechanisms that control cardiac contractility are complex. Recent work we conducted in v...
Muscle is made up of two main contractile proteins, myosin and actin. In this actomyosin complex, my...
Changes in ion distribution across skeletal muscle membranes during muscle activity affect excitabil...
Background: Heme released from red blood cells targets a number of cell components including the cyt...
Signaling by reactive oxygen species has emerged as a major physiological process. Due to its high m...
Signaling by reactive oxygen species has emerged as a major physiological process. Due to its high m...
Biological systems are frequently exposed to reactive oxygen species (ROS), which can be damaging to...
Given the association between high aerobic capacity and the prevention of metabolic diseases, elucid...
Age-related loss of muscle mass and function is associated with increased frailty and loss of indepe...
Muscles are responsible for producing force throughout the human body. Muscle tissue is divided into...
This research examines the functional and structural effects of oxidative modification in Dicty myos...
It is becoming increasingly evident that redox state leading to post-translational modifications of ...
In this study we investigated the molecular mechanism of glutathionylation on isolated human cardiac...
Protein S-glutathionylation is an important reversible post-translational modification implicated in...
Our previous studies demonstrated a relation between glutathionylation of cardiac myosin binding pro...
AbstractThe mechanisms that control cardiac contractility are complex. Recent work we conducted in v...
Muscle is made up of two main contractile proteins, myosin and actin. In this actomyosin complex, my...
Changes in ion distribution across skeletal muscle membranes during muscle activity affect excitabil...
Background: Heme released from red blood cells targets a number of cell components including the cyt...