enzyme catalyze the biochemical reactions by lowering their activation energy. An enzyme which take part in such reaction wont be lost or gained any chemical structure and it would be the same after the reaction.
hOwever the systematical equations make this answer irrelevent
At low concentration of substrate , rate of enzyme action is directly proportional to conc. of substrate .
Shape of substrate, shape of the enzyme, Competitive, noncompetitive and allosteric inhibitors.
When an enzyme is saturated the amount of substrate added no longer as an effect on the rate of the reaction.
If you have just learned that a chemical you work with is a mutagen What effect does this chemical have?
Ahh... A fine question. The answer: When a substrate acts as an effector there are homotropic effects. The substrate binds to the active site and induces allosteric-like effects.
Basically there are two types of chemical bonding- Ionic bonding and covalent bonding, their sub classes include coordinate covalent bonding , metallic bonding and secondary type of bonding includes Hydrogen bonding , Vander waal's bonding, Dipole-Dipole interaction and London's dispersion effect.
Basically there are two types of chemical bonding- Ionic bonding and covalent bonding, their sub classes include coordinate covalent bonding , metallic bonding and secondary type of bonding includes Hydrogen bonding , Vander waal's bonding, Dipole-Dipole interaction and London's dispersion effect.
Kishorkumar Ratilal Shah has written: 'Radiation induced chemical bonding' -- subject(s): Effect of radiation on, Materials, Chemical bonds, Ceramic to metal bonding
Chemical processes have no effect on the nucleus otherwise we would be in deep trouble
For the enzyme to work, its particles must collide with the particles of the substrate. The more particles there are per unit volume, the more frequent the collisions will be. Thus changing the concentration of either chemical will have the same effect.
The use of substrate in Field Effect Transistors is for it to serve as insulating material between the gate and the source.
At low concentration of substrate , rate of enzyme action is directly proportional to conc. of substrate .
Shape of substrate, shape of the enzyme, Competitive, noncompetitive and allosteric inhibitors.
Temperature, pH, substrate concentration
it combines two or more molecules when bonding
A substrate doesn't 'know' anything. The interaction of enzymes with substrates depends on random collisions to take effect.
Stops substrate from getting to the active site