Do muscle cells require more ATP than fat cells?

Do muscle cells require more ATP than fat cells?

Muscle cells are assiciated with a large number of mitochondria as they require more ATP (energy) to function than other cells. They need this because of their frequent contraction and relaxation, which requires more ATP than average cells.

Why is so little ATP stored in the muscle cells?

Creatine Phosphate (with oxygen) All muscle cells have a little ATP within them that they can use immediately – but only enough to last for about 3 seconds! So all muscle cells contain a high-energy compound called creatine phosphate which is broken down to make more ATP quickly.

Why doesn’t our body store large amounts of ATP for when energy is needed quickly?

The body only stores a very small quantity of ATP within its muscles cells, enough to fuel only a few seconds of exercise. Because of this the body must constantly synthesise new ATP in order to constantly fuel movement and without being dramatic… survive!

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Do muscle cells use fat to produce ATP?

During everyday activities and light exercise, the mitochondria of muscle fibers produce ATP in a process called aerobic respiration. Aerobic respiration requires the presence of oxygen to break down food energy (usually glucose and fat) to generate ATP for muscle contractions.

Why do muscle cells need more energy than fat cells?

Why do muscle cells have a high amount of mitochondria? Energy is produced by respiration, the production of energy taking place in mitochondria. Muscles need alot of energy to contract, relax.

Why do muscle cells require more mitochondria than fat cells?

That’s because ATP (energy) is too unstable and can’t survive long enough to be moved around the body. Muscle cells have more mitochondria because muscles use mitochondria to produce energy which allows for movement. Fat cells have many mitochondria as well, but fat cells store a lot of energy.

Why a lack of ATP would cause muscles to stay relaxed or contracted?

With each contraction cycle, actin moves relative to myosin. ATP can then attach to myosin, which allows the cross-bridge cycle to start again; further muscle contraction can occur. Therefore, without ATP, muscles would remain in their contracted state, rather than their relaxed state.

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What happens to muscles during low ATP?

Depletion of required substrates such as ATP or glycogen within a muscle result in fatigue as the muscle is not able to generate energy to power contractions.

Why doesn’t a cell have to store all of the ATP it needs?

You can’t put an arbitrary amount of ATP molecules into a cell, you ‘ll get into problems due to the osmotic pressure lots of molecules inside the cell would cause. Glucose is stored as glycogen in cells due to this effect, which makes one large glycogen molecule out of lots of glucose molecules.

Why is ATP not considered a storage form of energy?

ATP is not a storage molecule for chemical energy; that is the job of carbohydrates, such as glycogen, and fats. Available energy is contained in the bonds between the phosphates and is released when they are broken, which occurs through the addition of a water molecule (a process called hydrolysis).

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How do muscle cells make ATP?

Cellular respiration is the process by which cells make ATP by breaking down organic compounds from food. Muscle cells are able to produce ATP with oxygen, which is called aerobic respiration, or without oxygen, an anaerobic process called anaerobic glycolysis or fermentation.

How do muscles make energy?

Muscles need energy to produce contractions (Fig. 6). The energy is derived from adenosine triphosphate (ATP) present in muscles. Muscles tend to contain only limited quantities of ATP.