Free Response Questions

Slides:

Advertisements

Similar presentations

Advertisements

Enzymes: “Helper” Protein molecules

 Definition of metabolism  Definition of a substrate  Characteristics of metabolic pathways  Why we need metabolic pathways.

Enzymes An introduction to metabolism. The purpose of an enzyme in a cell is to allow the cell to carry out chemical reactions very quickly. These reactions.

Enzymes Functions and Control. Enzyme Terms  Substrate - the material and enzyme works on.  Enzyme names: Ex. Sucrase - ase name of an enzyme - ase.

Slide 1 of 50 Enzymes  Enzymes are biological catalysts  Proteins  Catalyst  Lower activation energy  Increases the rate of the reaction  Affects.

Catalysts of Life. Review of Chemical Reactions A chemical reaction is a process that changes, or transforms, one set of chemicals into another Reactants.

Chapter 6 Enzymes. Metabolic Reactions Metabolism – All the reactions that happen in the cell – Reactions have two sides 1.What goes into the reaction.

I can explain the effect of a catalyst on activation energy.

Why are enzymes important to living things?

Enzymes. n Catalytic proteins n Catalyst - a chemical agent that changes the rate of reaction, without being consumed by the reaction.

 I can describe the structure and explain the significance and functions of enzymes in biological systems › I can describe why an investment of activation.

Enzymes Proteins in Action. Enzymes are Proteins Most enzymes are globular proteins. Like all proteins, enzymes are made up of chains of amino acids.

 Enzymes are made up of proteins.  Enzymes act as a catalyst in living organisms.  A catalyst is a substance that speeds up chemical reactions.  SO,

ENZYMES and Activation Energy

Enzymes All chemical reactions convert reactants to products. All chemical reactions convert reactants to products. Ex. 2 HCl + Mg  MgCl 2 + H 2 Ex. 2.

Themes: Structure meets Function

Protein Structure Primary - sequence of amino acids Secondary – folding into pleated sheets or alpha helix Tertiary – 3-D structure, completely folded.

Enzymes AP Biology. General Information Globular proteins Unique 3 dimensional shape Active site: pocket or groove where substrate binds.

ENZYMES & ENERGY ACADEMIC BIOLOGY. __________________________________________________________________________________________________________________________________________________.

Enzymes. Enzymes are… Proteins that act as catalysts (accelerate reactions) by creating a new reaction pathway Are specific for what they catalyze and.

Chemical Reactions in Cells The molecule you start with is called the SUBSTRATE (also known as the reactant). The molecule you end up with is called the.

Enzymes. What is an enzyme? Organic catalyst Protein molecule.

Enzymes An introduction to metabolism. The purpose of an enzyme in a cell is to allow the cell to carry out chemical reactions very quickly. These reactions.

 Enzymes are Proteins o Made at ribosome o Monomer: AA o Peptide bonds.

Agenda 1/8 Enzyme Notes Enzyme modeling activity Turn in: Water POGIL ONLY Homework: Enzyme graphing worksheets, enzyme video and notes 1.

Enzymes Chemical Reactions. Chemical reactions are constantly taking place in your cells Reactants  Products Chemical reactions involve making and breaking.

8.2.  Chemical reactions are continually occurring in our bodies to keep us alive.  These chemical reactions must occur at low temperatures so that.

Lesson 5 Enzymes. Catalyst: something that increases the rate of reactions Enzymes are biological catalysts Often ends with –ase Most enzymes are proteins.

Eleni Hadjipanteli Substrate Enzyme. What are Enzymes? Organic molecules; Proteins *Globular *suffix –ase Catalysts that help speed up reactions Power.

Enzymes Chapter 8.

Chemical Reactions and Enzymes

Enzymes Page 23.

Sec 2.3 Chemical Reactions and Enzymes

AP Biology Serrano High School

Graphs to show the effects of Inhibitors on Enzyme Action

Proteins as Enzymes.

ENZYME Enzyme Reaction Energy of reaction Factors affect rate Other.

Presentation transcript:

Free Response Questions

Warm-up Create a flow chart to show how the following words are related to each other: allosteric regulation enzyme protein structure structure and function

1. Discuss the lock-and-key theory of enzyme- substrate interaction giving a specific example to illustrate the theory. Include in your discussion the effects of each of the following: a. Substrate concentration b. pH shifts c. Temperature shifts d. Competitive inhibition

1. Answer -Explanation of lock-and-key fit -Specific example given -Substrate concentration: more substrate = more binding at active site of enzyme = more reactants per unit time. Saturation point is the point at which more substrate does not increase reaction rate -pH and temperatures can denature enzymes -denaturation = change in structure, which changes active binding site -competitive inhibition site- it competes w/substrate to bind to enzyme

2. Describe the chemical composition and configuration of enzymes and discuss the factors that modify enzyme structure and/or function

2. Answer -enzymes are catalytic proteins; thus, are made of amino acids -enzymes have active binding cites that are specific to the substrate shape -Enzymes function in lowering energy to activation, and the shape of the active binding site must fit the substrate -Factors that modify enzyme structure, each one must be described: -changes in pH and temperature -competitive inhibitors prevent substrate binding, and thus affect its function. They bind on the binding site -noncompetitive inhibition; bind on enzyme, but not at active site4; affect function -coenzymes/cofactors: non-enzyme factors that bind to the enzyme to give it its functional shape so that substrates can bind to the active site

3. You have 15 minutes to finish this.

Enzyme video https://www.youtube.com/watch?v=ok9esggzN18

4.

5.