Enzymes study time

2. enzymes in the red blood cells convert carbon dioxide into _________
4. law that states when energy is transferred, there will be less energy available at the end of the transfer process than at the beginning
5. A graph depicting potential energy where the potential energy of the reactants is less than the potential energy of the products
7. a model for enzyme-substrate interaction suggesting that the enzyme and the substrate possess specific complementary geometric shapes that fit exactly into one another
9. A graph depicting potential energy where the potential energy of the reactants is greater than the potential energy of the products
10. _______, PH, Concentration, and salinity are the main factors that affect enzyme activity
11. The ability of an enzyme to select a specific substrate from a range of chemically similar compounds
13. _______________ occurs when molecules very similar to the substrate molecules bind to the active site and prevent binding of the actual substrate

1. A description of a chemical reaction that absorbs heat energy from its surroundings
3. ____________ occurs when an inhibitor binds to an allosteric site resulting in decreased efficacy of the enzyme
6. a model for enzyme–substrate interaction to describe that the substrate is capable of inducing the proper alignment of the active site of the enzyme
8. A description of a chemical reaction that releases heat energy to its surroundings
9. Catalase, helicase, polymerase, and polymerase are all ________
12. Enzymes provide a site where the reactants can be brought together to react. Such a site reduces the ______ needed for the reaction
14. the ability to cause some kind of change