Mitocondria
Muscle requires a lot of ATP , mitochondria produces ATP
In muscle cells, chemical energy stored in ATP molecules is converted into mechanical energy during muscle contraction. This process involves the hydrolysis of ATP to release energy that powers the interactions between proteins within muscle cells, leading to muscle movement.
Yes, ATP is the primary energy source for muscle contraction. During intense exercise, ATP stored within the muscle cells is rapidly depleted and must be regenerated through metabolic pathways to sustain muscle contractions.
No, it's probably a better way of getting a muscle cramp.
lactic acid fermentation
Muscle requires a lot of ATP , mitochondria produces ATP
the amount of ATP in the muscle cells
ATP
Cells with high-energy demands like muscle cells, heart cells, and brain cells require the most ATP in the body. These cells require ATP for functions such as muscle contractions, maintaining ion gradients for nerve function, and powering biochemical processes for brain function.
Muscle cells require a lot of energy to function, especially during physical activity. Mitochondria are the main energy producers in cells, so muscle cells have more mitochondria to meet their high energy demands. This allows them to generate ATP efficiently to power muscle contractions.
Muscle cells running low on ATP, muscle cells running low on O2, and lactate build-up in the muscle cells.
ATP (adenosine triphosphate) carries energy to all living cells, including muscle cells. When you work out (or use your muscles), the muscle cells take up ATP and through a complicated biochemical process, they extract energy from it, and return it to other cells to replenish it. The amount of ATP is regulated by your body automatically, and is fairly constant.
In muscle cells, chemical energy stored in ATP molecules is converted into mechanical energy during muscle contraction. This process involves the hydrolysis of ATP to release energy that powers the interactions between proteins within muscle cells, leading to muscle movement.
ATP
fat
no
Fueled by the metabolism of sugar, the ATP byproducts (ADP) are reconstituted into ATP molecules. Use of ATP energy requires no oxygen - when the ATP is depleted the muscle cells must use cellular respiration to obtain energy and once the muscle is at rest the ATP stores are replenished.