Review your understanding of glycolysis, the Krebs cycle, and oxidative phosphorylation by classifying each characteristic belowaccording to its pathway for cellular energy transfer.Enzyme location: MitochondrialmatrixFinal product: Pyruvate (underaerobic conditions)Entering substrates: Acetylcoenzyme A and some amino acidintermediatesATP production: 3 ATP from eachNADH + H+ and 2 ATP from eachFADH2Entering substrates: glucose andother monosaccharidesFinal product 2 CO2 for eachacetyl coenzyme AFinal product: Intermediates usedfor amino acid/organic moleculesynthesisEnzyme location: CytosolCoenzyme production: 3 NADH +3H- and 1 FADH2Coenzyme production: 2 NADH +2 H (under aerobic conditions)ATP production: 2 per glucosemoleculeATP production: 1 GTP formeddirectly can be converted to ATPEntering substrates Hydrogenions and molecular oxygenFinal product H2O - one moleculefor each pair of hydrogen ionsEnzyme location: Innermitochondrial membraneFinal product Lactate (underanaerobic conditions)GlycolysisKrebs CycleOxidative PhosphorylationEntering substrates: glucose andother monosaccharidesFinal product 2 CO2 for eachacetyl coenzyme AEnzyme location: MitochondrialmatrixEnzyme location: CytosolEntering substrates: Hydrogenions and molecular oxygenFinal product: Pyruvate (underaerobic conditions)

Glycolysis is a catabolic process in which glucose is broken down into pyruvate molecules…

Answered: Review your understanding of…

Human Physiology: From Cells to Systems (MindTap Course List)

9th Edition

ISBN:9781285866932

Author:Lauralee Sherwood

Publisher:Lauralee Sherwood

Chapter2: Cell Physiology

Section: Chapter Questions

Problem 3SQE

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DRAW IT The graph here showsthe pH difference across theinner mitochondrial membraneover time in an actively respiringcell. At the time indicated by thevertical arrow, a metabolic poisonis added that specifically andcompletely inhibits all function ofmitochondrial ATP synthase. Drawwhat you would expect to see forthe rest of the graphed line, andexplain your graph.
ATP generationinvolves electron transport chains and the enzyme ATPsynthase, which are embedded in the mitochondrion’s______ membrane.
Beside each compound listed, indicate what stage or stages of cellular respiration it is associated with by placing an 'X' in each applicable box. Compound Glycolysis Pyruvate Oxidation Kreb's Cycle ETC/Chemiosmosis a. ATP b. Acetyl-CoA c. Citric Acid d. Coenzyme A e. Glucose f. Pyruvate g. FADH2 h. ATP synthase i. CO2 j. H2O k. O2
dtermoine numberof ATPS GENERATED FROM COMPLETE oxidation of fructose-6-phosphate isocitrate stearidonic acid [18 carbons triangle 6,9,12,15] indicate where everything comes from ex ATPS FROM GLYCOLYSIS , NADH FROM TCA ETC LIST ALL
please draw1 10. Diagram in detail the oxidative phosphorylation stage of cellular respiration demonstrating how the bulk of the ATP is made during that stage. Accompanying your diagram should be a paragraph explaining the ATP production process
(a) Hexokinase (HK), phoshofructokinase (PFK) and pyruvate kinase are three regulatory enzymes that regulate metabolic reaction in glycolysis. Elaborate how equilibrium conditions would be controlled by these enzymes. PLEASE FAST AND RIGHT CLEER.
Determine the ATP production of glucose catabolism by glycolysis and Krebs Cycle using the following information: 1. Glycolysis: Net 2 ATP, 2 NADH + H+2. Pyruvate --> acetyl CoA: Produces 2 NADH + H+/glucose3. Krebs Cycle --> 2 FADH2 + 2 ATP + 6 NADH + H+/glucose 2.5 ATP are produced/NADH + H+ delivered electron to the electron transport system1.5 ATP are produced/FADH2 delivered electron to the electron transport system
Briefly outline the electron flow in oxidative phosphorylation to describe how its function is directly coupled to ATP synthesis. Be sure to include where the electrons that feed into oxidative phosphorylation come from in your answer.
Apply your understanding of the various components of the electron transport chain to evaluatehow the roles of ubiquinone and cytochrome c differ from those of the other components. Whatrole does NADH and FADH2 play in redox reactions?
Give the Steps, Enzyme/s involved, Electron carriers, ATP Generation, End product and significance of the following metabolic pathway: Oxidative Phosphorylation (explain in 1-3 sentences only) P.S add row if necessary
I really need help with this please In the space below, list ALL redox reactions that occurduring cellular respiration. At the end of your list, how many ATP areGenerated from these redox reactionsFor your answer, use this format:reactant, product, enzyme, electron carrier generated, number of electroncarriers generated per glucose moleculeNo short forms - use correct chemical names! example e.g. Reactant A, Product B, ABC dehydrogenase, electron carrier X'4 molecules generated
Based on your knowledge of how living organisms can do this chemistry list the cofactor or subclass of enzyme that would be in each box. 1: 2: 3: 4: 5: 6: 7: 8: b) Draw the missing intermediate. Upload the picture here: c) Based on your understanding of Biochemistry, how would the electrons from the alkane to alkene oxidation enter the Electron transport chain? Include generic types of enzymes involved, and locations in the mitochondria, and initial electron acceptor in the ETC.

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