Lecture Eight - Enzyme Kinetics: Michaelis -Menten Equation

Beschreibung

Exam One
Marissa Alvarez
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Marissa Alvarez
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Zusammenfassung der Ressource

Frage Antworten
Concepts to understand What is enzyme, enzyme terminology, and its function The Six Classes of Enzymes Michaelis—Menten Equation Special cases of low and high (saturation) substrate concentrations Lineweaver—Burk Equation and its use to determine v max and K
Enzymes ___ most of the biochemical reactions: Rate increase & Activity regulation Do not get ____ during the reaction Specificity (very ___) Systematic name: substrate name + type of reaction + 'ase' catalyzes consumed ' specific
Enzyme ___ activation energy barrier to speed up reaction Enzyme is a catalyst that does NOT get ___ in reaction Enzyme does NOT change ____ constants Enzyme does NOT change the ___ energy difference between reactanct & products lowers used equilibrium Gibbs
Enzyme terminology Substrate: The molecule on which an enzyme acts. Catalytic center or Active site: The specific site where the substrate ___ to an enzyme. Transition state: Substrate and enzyme form a ___. -->Complex energy is ___ compared to that of the substrate and products. Enzyme-substrate complex transforms into Enzyme-product complex to form final ____ _____: Molecules or ions that are essential for the catalytic activity, includes metals or small organic molecules, e.g., heme. binds complex higher products Cofactors
The Six Classes of Enzymes Oxidoreductase: ___ -____ reactions Transferases: ___ transfer Hydrolases: ___ breakdown Lyases: ___ of groups by a mechanism other than hydrolysis and leaving behind double bonds Isomerases: Interconversion of ___ Ligases: Ligation or ___ of two substrates Oxidation-reduction Group Hydrolytic Removal isomers joining
Oxidoreductase: Oxidation-reduction reactions electrons are transferred Oxidation = __ electrons (lose H) Reduction = ___ electrons (gain H) lose gain
Transferases = group transfer
Hydrolases: Hydrolytic breakdown (bonds are broken by using H2O)
Lyases = REMOVAL of groups by mechanism OTHER than hydrolysis
Isomerases = interconversion of isomers -->EX: D-alanine is used/produced by some bacteria
Ligases = ligation or joining of two substrates
Michaelis - Menten Case [S] --> 0 Km ___ [S] so Km + [S] is about = Km Vo is about equal to __ / ___ First Order = V = k[S] = k[S]^1 rate equals ___ >> Vmax/Km[S] k[S]
Michaelis - Menten Case [S] --> infinity , Saturation km ___ [S] so Km + [S] is about equal to [S} Vo = Vmax = K2[E]total Zero Order = V = k [S]^0 Rate = k Vo = ___ << k Vmax
Michaelis - Menten Case [S] ---> infinity Vmax = kn[E]total = kcat[E]total kcat = ___ constant catalytic
Michaelis - Menten Case vo =Vmax/2 where rate = 1/2 [S] = ___ High Km = ___ affinity km low
Double reciprocal Lineweaver-Burk Plot = Permitted experimental ____ of Km and Vmax without the use of a computer estimation
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