You have to see what kind of enzyme it is.
Since enzyme is SPECIFIC of doing a certain reaction, what it matters is what the enzyme is.
For an example,
Starch ---amylase--> Maltose
Hydrogen Peroxide ---Catalyse---> Water (H2O) + Oxygen (O2)
Please refer to http://wiki.answers.com/Q/What_is_the_product_of_an_enzyme
Activation energy is lowered and bonds are changed.
It is organ, glands enzymes , substrate and the final product
Enzymes and substrates combine briefly to form a enzyme-substrate complex
An allosteric enzyme :D
The temporary complex formed after an enzyme acts on its substrate.
The substrates of cellulase is cellulose.
by rate of product formation
Product
In my understanding there are three types of feedback inhibition:SIMPLE: Enzyme inhibited by single end product.CUMULATIVE: More than one end product inhibits the same enzyme. That means that each product exerts partial inhibition and inhibition is cumulative.CONCERTED: More than one end product must bind the same enzyme simultaneously for any inhibition.I !
The temporary complex formed after an enzyme acts on its substrate.
what will happen to the rate if you decrease the enzyme concentration
substrate
A substrate
After the enzyme has converted the substrate to the product, it is now free to accept more substrate. The enzyme does not get changed or altered in a reaction.
An enzyme.
The substrate is the substance (or substances) that attaches to the enzyme's active site before the reaction occurs.The product is the substance (or substances) that is formed after the enzyme has worked on the substrate.///
The reactants of enzyme-catalyzed reactions. Or, A substance with which a enzyme binds itself and form a complex product, a chemical reaction takes place between enzyme and substrate.
Beta Lactumase enzyme
The substrates of cellulase is cellulose.
A substrate molecule needs to interact with the enzyme's active center (known as "active site") for the enzyme mediated catalytic conversion of substrate into product. Some times, this could or may bind to a second site of an enzyme named, "allosteric site" that would not form the product.
yes it can be. as the enzyme produces more of a product if that product becomes too many then one will bind to the allosteric site of the enzyme haulting its own production. (negative feedback). and the same thing can happen for positive feedback