An enzyme will specifically bind its substrate because of a tight lock and key b
ID: 892799 • Letter: A
Question
An enzyme will specifically bind its substrate because of a tight lock and key binding mechanism. a high number of hydrophobic amino acids in the center of the protein. a large number of weak interactions at the active site. additional nonprotein cofactors. None of the above Examples of cofactors include Zn^+2, Mg^+2, and Ni^+2. biotin and thiamine pyrophosphate. pyridoxal phosphate and coenzyme A. All of the above. The rate of a reaction, or how fast a reaction will proceed, is best determined by Delta G Delta G Delta G Delta H None of the above The relationship between Delta G degree and Delta G is best described as determined by the temperature described by changes in K_eq differ from standard state to physiological or actual concentrations of reactants and products dependent on the reaction mechanism of the reaction differ only in terms of the types of reactions used for each value The molecular structure that is short-lived and neither substrate nor product is known as substrate analog transition state free energy stabilization state catalysis state equilibrium intermediateExplanation / Answer
3) A)-a tight lock and key mechanism will bind the enzyme with site.
4) A) Zn2+, Mg2+, and Ni2+ are considered as cofactors.
5) B) - The kinetics oof the reaction is given by DG++.
6) C)
7) B- transition state.
7)