Anatomy & Physiology: An Integrative Approach
2nd Edition
ISBN: 9780078024283
Author: Michael McKinley Dr., Valerie O'Loughlin, Theresa Bidle
Publisher: McGraw-Hill Education
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Chapter 3.2, Problem 5WDYL
For a biochemical reaction that involves simple
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For each pair of biomolecules, identify the type of reaction (oxidation‑reduction, hydrolysis, isomerization, group transfer, or internal rearrangement) required to convert the first molecule to the second. In each case, indicate the general type of enzyme and cofactor(s) or reactants required, and any other products that would result.
A(n) (hydrolysis, oxidation reduction, group transfer, isomerization, internal rearrangment) reaction converts glycerol to glycerol 3‑phosphate. This reaction requires (ADP and a kinase, ATP and a phosphatase, ATP and a kinase, ADP and a phosphatase).
For each pair of biomolecules, identify the type of reaction (oxidation‑reduction, hydrolysis, isomerization, group transfer, or internal rearrangement) required to convert the first molecule to the second. In each case, indicate the general type of enzyme and cofactor(s) or reactants required, and any other products that would result
A(n) (hydrolysis, oxidation reduction, group transfer, isomerization, internal rearrangment) reaction converts glycylalanine to glycine and alanine. This reaction requires (NAD+ and a peptidase or protease, ADP and a phosphatase, H2O and a phosphatase, H2O and a peptidase or a protease)
For each pair of biomolecules, identify the type of reaction (oxidation‑reduction, hydrolysis, isomerization, group transfer, or internal rearrangement) required to convert the first molecule to the second. In each case, indicate the general type of enzyme and cofactor(s) or reactants required, and any other products that would result
A(n) (hydrolysis, oxidation reduction, group transfer, isomerization, internal rearrangment) reaction converts glycerol to dihydroxyacetone. This reaction requires (NADH and a dehydrogenase, NADH and a phosphatase, NAD+ and a dehydrogenase, NAD+ and a phosphatase) and also produces (NAD+ and H+, NAD+ and H2O, NADH and H+, NADH and H2O).
Chapter 3 Solutions
Anatomy & Physiology: An Integrative Approach
Ch. 3.1 - Both the movement of Na+ down its concentration...Ch. 3.1 - Muscle contraction is an example of what form of...Ch. 3.1 - Prob. 3WDYLCh. 3.2 - Prob. 4WDYLCh. 3.2 - For a biochemical reaction that involves simple...Ch. 3.2 - What molecule is formed from exergonic reactions...Ch. 3.2 - Explain what occurs when the equilibrium is...Ch. 3.2 - Explain the effect a fever would have on chemical...Ch. 3.2 - What is the relationship of enzymes and activation...Ch. 3.3 - What is the active site of an enzyme and how does...
Ch. 3.3 - What is the mechanism of enzyme action, including...Ch. 3.3 - Explain how enzymes are generally named.Ch. 3.3 - How do changes in substrate concentration,...Ch. 3.3 - How are enzymes regulated through competitive and...Ch. 3.3 - Prob. 15WDYLCh. 3.3 - Prob. 16WDYLCh. 3.4 - Prob. 17WDYLCh. 3.4 - Prob. 18WDYLCh. 3.4 - Prob. 19WDYLCh. 3.4 - Prob. 20WDYLCh. 3.4 - Prob. 21WDYLCh. 3.4 - Prob. 22WDYLCh. 3.4 - Prob. 23WDYLCh. 3.4 - Prob. 24WDYLCh. 3.4 - Prob. 25WDYLCh. 3.4 - Prob. 26WDYLCh. 3.4 - Prob. 27WDYLCh. 3.4 - Prob. 28WDYLCh. 3 - Energy in ATP is used to power skeletal muscle...Ch. 3 - Prob. 2DYKBCh. 3 - Prob. 3DYKBCh. 3 - ATP inhibits phosphofructokinase by binding to an...Ch. 3 - All of the following are accurate about enzymes...Ch. 3 - Prob. 6DYKBCh. 3 - Prob. 7DYKBCh. 3 - All stages of cellular respiration are decreased...Ch. 3 - Prob. 9DYKBCh. 3 - Prob. 10DYKBCh. 3 - Prob. 11DYKBCh. 3 - Describe the different ways of classifying...Ch. 3 - Prob. 13DYKBCh. 3 - Describe the structure and mechanism of enzymes.Ch. 3 - Prob. 15DYKBCh. 3 - Prob. 16DYKBCh. 3 - In general terms, explain the fate of pyruvate if...Ch. 3 - Describe how oxygen becomes part of water during...Ch. 3 - Identify the source of carbon in carbon dioxide.Ch. 3 - Prob. 20DYKBCh. 3 - Prob. 1CALCh. 3 - Prob. 2CALCh. 3 - Another challenge to a patient with impaired...Ch. 3 - Prob. 4CALCh. 3 - Prob. 5CALCh. 3 - Prob. 1CSLCh. 3 - Prob. 2CSLCh. 3 - What occurs to the amount of product formed in a...
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- For each pair of biomolecules, identify the type of reaction (oxidation‑reduction, hydrolysis, isomerization, group transfer, or internal rearrangement) required to convert the first molecule to the second. In each case, indicate the general type of enzyme and cofactor(s) or reactants required, and any other products that would result A(n) (hydrolysis, oxidation reduction, group transfer, isomerization, internal rearrangment) reaction converts L‑leucine to D‑leucine. This reaction is catalyzed by a(n) (dehydrogenase, isomerase, kinase, protease).arrow_forwardDefine the following term (in relation to enzymes) Products?arrow_forwardWhich of the following is true about enzymes. a) Enzymes are catalysts and they increase the rate of a reaction while they are not altered by the reaction. b) Enzymes are proteins that can be denatured by changes in pH or temperature. c) Enzymes are highly specific for the substrates they react with and catalyze only one or a limited set of possible reactions with those substrates. d) All of these are true about enzymes e) None of these are true about enzymesarrow_forward
- b. Choose all true statements for enzymes below A) All enzymes are made up of amino acids. B) Enzymes can increase the equilibrium constant for a given reaction by a thousand-fold or more. C) Enzymes can increase the reaction rate for a given reaction by a thousand-fold or more. D) Their catalytic activity is independent of pH. E) They are generally equally active on R and S enantiomers of a given substrate. F) To be effective, enzymes must be present at the same concentration as their substrate. G) Enzyme activity is usually increased in the presence of denaturants like SDS and urea. H) Catalytic rate of enzymes cannot exceed what is dictated by the diffusion limit.arrow_forwardIn modern and recent application of a catalyst and an enzyme used in a chemical and biochemical reaction a) give the commercial or trade name of the catalyst and enzyme of both rxn b) the properties of the catalyst and enzyme (e.g., shape, size, colour, price).arrow_forwardWhich of the following would best explain how an enzyme catalyzes two different reactions? A) The enzyme contains a-helices and B-pleated sheets. B) The enzyme is subject to cooperativity C) Either the enzyme has two distinct active sites or the substrates involved in the two reactions have very similar structures D) The enzyme is subject to competitive inhibition and allosteric regulation E) The enzyme is composed of at least two subunitsarrow_forward
- Which of the following statements about enzymes are true? Choose all that apply. Group of answer choices: a) Enzymes are nonspecific b) Enzymes speed up the rates of chemical reactions c) Enzymes require a lot of energy to synthesize d) Enzymes are not important in biological systems E) Reactants in enzyme-catalyzed reactions are called substrates F) Enzymes lower the activation energy of reaction G) Enzymes change ∆G of reactions H) One enzyme usually catalyzes many types of reactions I answered for letters , B, E, anf F, and got a 1.5 out of 2, so I am missing one. Thank You!arrow_forwardWhich of the following statements helps best explain the reaction specificity of an enzyme? a) The shape and charge of the substrates are compatible with the active site of the enzyme. b) The free energy of the reactants is greater than the free energy of the products. c) The equilibrium constant of the reaction is much greater than 1. d) The concentration of the enzyme inside living cells is greater than the concentration of substrate.arrow_forwarda) What type of polymer is being formed in Reaction #3? b) Name an enzyme that can catalyze Reaction #3. c) What is △Go of Reaction #3? Show your work & clearly label your answer.arrow_forward
- give the properties of the enzyme (e.g., shape, size, colour, price). a) amylase b) invertasearrow_forwarda) Describe a specific chemical reaction that occurs within the human body and state the name of the enzyme involved, the substrate(s) of the reaction, and the specific product(s) formed. b) Enzymes are not used up in chemical reactions. So, what exactly does an enzyme do? In your answer you should refer to activation energy. c) Explain what is meant by the induced fit action of an enzyme, referring to the role of the active site, and to the activation energy of an enzyme-catalysed reaction.arrow_forwardThe figure below represents a reaction in the presence and absence of an enzyme catalyst. What can you conclude about this reaction? energy activation energy activation energy 1 uncatalysed reaction catalysed reaction A) It is endergonic in the absence of the enzyme. B) It will proceed more quickly in the presence of the enzyme. C) Once the reaction has reached equilibrium, there will be more product in the enzyme-catalyzed reaction. D) It has a negative AG. OE) Both B and D are truearrow_forward
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