well they react by the enzyme starting to dense together. creating a sort of "chemical reaction". example- Justin Bieber and Selena Gomez. THEY SUCKK. i mean she is JUST using him. but he's caught in her LOVE gameee. so you are the H 2 my O LOOL getit? LMFAO bye
enzyme catalysis is usually homogeneous because the substrate and enzyme are present in aqueous solution
A cofactor refers to a macromolecule that attaches to an enzyme to assist in catalysis. This can be a metal ion or a coenzyme.
A substrate binds to the enzyme and plays a role in catalysis by undergoing a chemical reaction with the enzyme. This interaction allows the enzyme to convert the substrate into a product, usually by lowering the activation energy required for the reaction to occur. Additionally, cofactors or coenzymes may also bind to the enzyme to assist in catalysis by providing or accepting functional groups during the reaction.
no, because enzymes are specific which they only catalyze one type of reactions.
The substrate is the molecule on which the enzyme acts. It binds to the active site of the enzyme, leading to catalysis of the chemical reaction. The shape and chemical properties of the substrate are important in determining which enzyme can act on it.
enzyme catalysis is usually homogeneous because the substrate and enzyme are present in aqueous solution
This varies per enzyme and what it catalyzes but chemical reactions that result in an increase in temperature often speed up enzyme catalysis.
A cofactor refers to a macromolecule that attaches to an enzyme to assist in catalysis. This can be a metal ion or a coenzyme.
strictly speaking soluble enzymes are homogeneous catalysts and membrane-bound enzymes are heterogeneous.
Some researchable topics in chemistry focusing on the keyword "catalysis" include: Enzyme catalysis in biological systems Heterogeneous catalysis in industrial processes Homogeneous catalysis in organic synthesis Photocatalysis for environmental applications Nanocatalysts for energy conversion processes
A substrate binds to the enzyme and plays a role in catalysis by undergoing a chemical reaction with the enzyme. This interaction allows the enzyme to convert the substrate into a product, usually by lowering the activation energy required for the reaction to occur. Additionally, cofactors or coenzymes may also bind to the enzyme to assist in catalysis by providing or accepting functional groups during the reaction.
Catalysis Nature of. Reactant Temperature Concentration
Sishi Tang has written: 'Computer modeling of enzyme catalysis and inhibition'
Myron L. Bender has written: 'Catalysis and enzyme action'
no, because enzymes are specific which they only catalyze one type of reactions.
The substrate is the molecule on which the enzyme acts. It binds to the active site of the enzyme, leading to catalysis of the chemical reaction. The shape and chemical properties of the substrate are important in determining which enzyme can act on it.
Cofactors and coenzymes are the inorganic non-protein components that participate in enzyme catalysis by assisting in catalyzing reactions. Coenzymes are organic molecules that usually function as temporary carriers of specific functional groups, whereas cofactors are typically inorganic ions or molecules that assist in enzyme function.