Metabolic enzymes are the most active for human cells. The reason for this is because they regulate each biochemical reaction.
yes.
Substrate a reactant molecule that binds to an enzyme. It has a specific shape that is complementary in shape to the active site of the enzyme. Product the substance or substances produced by the reaction between the enzyme and substrate.
The function of polar regions of amino acids on the active site of the enzyme is that it allows the reaction to take place more easily. The active site is the place where the actual chemical reaction takes place.
A being quite more active than B. Cell A is part of an organ that does more work than Cell B. Cell B does less work than Cell A.
Active Transport!
True
Muscle cells are very active relatively to the skin cell. So it has more mitochondria
They are in active cells. Some like muscle and cardiac cells
Substrate a reactant molecule that binds to an enzyme. It has a specific shape that is complementary in shape to the active site of the enzyme. Product the substance or substances produced by the reaction between the enzyme and substrate.
The Mitochondria
If the muscle cell in question is part of a muscle the active person uses regularly, the cell will be bigger and have more nuclei than a less active muscle cell.
An active cell will contain more mitochondria than an inactive cell. Mitochondria produce ATP, the main form of energy for cells.
amylase see more at the related link
If you select one cell, it will be active. However, if you select multiple cells at once, only one can be the active cell. That is usually the cell you select first.
False. Enzymes are reusable.
The function of polar regions of amino acids on the active site of the enzyme is that it allows the reaction to take place more easily. The active site is the place where the actual chemical reaction takes place.
Enzymes can have varying concentrations inside a cell. If the need for an enzyme is small then few enzymes will be in the cell however if there a signal to the cell that would cause a drastic need for more enzymes then the production and thus the concentration would increase.