Liver cells have a high concentration of mitochondria. They can also be found nestled between myofibrils of muscle.
in your brain
In metabolically very active cells.Very good examples are cardiac and muscle cells
It would be found in cells that are very active because ATP is produced by mitochondria.
In very active cells. They need much energy
In active cells obviously.They need much energy
You would expect to find many mitochondria in a muscle cell. This is because the mitochondria makes the energy fo a cell, and muscle cells need alot of energy to do their job. The more energy a cell needs to do its job, the more mitochondria it has.
Because mitochondria are used for oxidative phosphorylation, which doesn't occur in anaerobic respiration
You do find mitochondria in both plant and animal cells as eukaryote cells made this symbiotic bargain with free ranging bacteria that became mitochondria. Both plants and animals use the product of mitochondria, ATP, to do cellular work.
Well, I suppose that since mitochondria are the the main production centers of ATP and Active Transport requires ATP, that these two are directly proportional. The more mitochondria a cell has, the more ATP it can make, and the more it can do Active Transport
Muscle cells are very active relatively to the skin cell. So it has more mitochondria
You would expect to find many mitochondria in a muscle cell. This is because the mitochondria makes the energy fo a cell, and muscle cells need alot of energy to do their job. The more energy a cell needs to do its job, the more mitochondria it has.
MITOCHONDRIA
would you expect skin cells to contain more or fewer mitochondria than muscle cell?
Because mitochondria are used for oxidative phosphorylation, which doesn't occur in anaerobic respiration
Mitochondria
The muscle cell
At least 10 in each cell.
You do find mitochondria in both plant and animal cells as eukaryote cells made this symbiotic bargain with free ranging bacteria that became mitochondria. Both plants and animals use the product of mitochondria, ATP, to do cellular work.
Muscles cells, of course!
Well, I suppose that since mitochondria are the the main production centers of ATP and Active Transport requires ATP, that these two are directly proportional. The more mitochondria a cell has, the more ATP it can make, and the more it can do Active Transport
Muscle cells are very active relatively to the skin cell. So it has more mitochondria
You would expect to find a large number of mitochondria in an eukaryotic cell that needs to produce a large amount of ATP. Mitochondria are the powerhouses of the cell and are responsible for producing ATP through cellular respiration. They are abundant in cells with high energy demands, such as muscle cells.