EP ESSENTIAL ORG.CHEM.-MOD.MASTERING
EP ESSENTIAL ORG.CHEM.-MOD.MASTERING
3rd Edition
ISBN: 9780133858501
Author: Bruice
Publisher: PEARSON CO
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Chapter 19.6, Problem 9P
Interpretation Introduction

Interpretation:

The group that gets reduced in conversion of pyruvate to lactate should be determined.

Concept introduction:

  Glycolysis: It is pathway which describes conversion of one molecule of glucose into 2 pyruvate molecules.  It involves totally 10 set of reactions with it.

NAD+Molecule: It is the oxidized form of Nicotinamide adenine dinucleotide (NAD) which exists in all cells and needed for activation of enzymes.

NADHmolecule: It is coenzyme which gets oxidized on reducing another compound. The oxidized form of NADHisNAD+.

Kinase: It is enzyme which serves as a catalyst in reaction of transferring phosphoryl group into the substrate.

Substrate: The molecule where the reaction takes place with help of enzymes.

Coenzyme: They are non-proteins molecules which helps enzymes for catalyzing the reaction.

Enzyme: The proteins that helps chemical reaction to occur.

Oxidation: The oxidation is reaction that involves addition of oxygen atom or loss of electrons or removal of hydrogen atom present in the chemical compound.

Reduction: It involves removal of oxygen or addition of hydrogen to the chemical compound.

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During the overall process of glycolysis, in which of the following occurs for each glucose molecule processed. net loss of two ATP molecules net loss of four ATP molecules net gain of two ATP molecules net gain of four ATP molecules
Fatty acids and triglycerides are an important source of nutrition and a dense form of stored energy. Digestion of fats yields more energy per gram than digestion of carbohydrates. Each turn on the B-oxidation spiral results in the formation of a new acetyl COA molecule. This molecule can then be used to generate more energy in A) fatty acid synthesis B) ketolysis C) glycolysis D) tricarboxylic acid cycle E) oxidative phosphorylation
How many electron carrier molecules (both NADH and FADH₂) are made per glucose put in to glycolysis? How many electron carrier molecules (both NADH and FADH₂) are made per pyruvate put in to the Krebs Cycle? How many electron carrier molecules (both NADH and FADH₂) are made by the Krebs Cycle per glucose consumed by the organism? How many electron carrier molecules in total (both NADH and FADH₂) have been made from a single glucose after both glycolysis and the Krebs Cycle? How many electrons are being carried from glucose at this point (Hint: 2 per molecule)?
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