We covered in lecture that the complete oxidation of glucose (all the way to CO2 andH₂O and "cashed in" via the ETC) could yield up to 32 ATP. However, a moleculedoes not always need to start at glucose to be broken down.Answer the following questions if you started with a single molecule of 1,3-bisphosphoglycerate.23Starting at a single molecule of 1,3-bisphosphoglycerate, how much ATP wouldbe made in glycolysis alone?How much FADH₂ would be produced in the PDC reaction?DalHow much total NADH would be produced from the complete oxidation of 1,3-bPG (re-read the prompt if necessary to consider what complete oxidationmeans)?Using the appropriate ATP equivalents for NADH and FADH2, how much totalATP (and/or ATP equivalents) would the complete oxidation of 1,3-bisphosphoglycerate yield?--DO

There are three essential pathways that carry out the complete oxidation of 1 molecule of glucose.…

Answered: We covered in lecture that the complete…

Biochemistry

9th Edition

ISBN:9781319114671

Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Chapter1: Biochemistry: An Evolving Science

Section: Chapter Questions

Problem 1P

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The average cell, at rest, hydrolyzes 10,000, 000 ATP molecules per second. You are studying the stem cell population found in the intestinal Crypts. In the intestine there are s total 5 x 1011 cell number. The stem cells have a 85% higher metabolism than an average resting cell. ATP hydrolysis yield 7.4 kCal/ Mole ATP. (Avogadro’s number is 6.023 x 1023) 1) How many moles of ATP are hydrolyzed per second? A) 15.3 moles/ sec. B) 7.06 x 10-6 moles/ sec. C) 5.4 x 10-2 moles/ sec. D) 25 moles/ sec. E) 225 moles/hour F) none of these
The primary role citric acid cycle is to collect high energy electrons from the oxidation of carbons in the form of NADH and FADH2. If the electron transport chain is inhibited, would you expect the citric acid cycle to be more active or lessactive? Explain your answer.
Having now learned how to conduct basic cell culture, you are ready to complete your first experiments. Below is a portion of the respiration pathway in O.Extremus in which electrons are transferred from NADH to O2; the energy of this reaction is coupled to the pumping of H+, and ultimately ATP production. O.Extremus displays abnormally high activity levels of an enzyme called ATPase. This results in increased hydrolysis of ATP to ADP and later AMP. What effect would this have on the overall metabolic rate in these cells? Explain your reasoning.
= Cellular Respiration Glucose (Cs) 2 G3P (Cs) 2 U Cs) 2 GTP- GDP (Cs) 2 acetyl CoA (___Cs) 1½/202 iii H₂O iv 2 Fill out the diagram as indicated by instructions below. Label processes g. A, B, and C. h. Some reactions are labeled with numbers in blue ovals. (Some of these are "collected" reactions, i.e. they stand for all reactions of the same type that occur in the same part of the pathway.) Among these reactions, write in reactants and products for all reactions that involve ATP and ADP. i. Reactions 6 and 8 involve FADH₂. Write in reactants and products for these reactions. j. Among the reactions labeled with numbers in blue ovals, write in reactants and products for all reactions that involve NAD+ and NADH. k. Below, write in the molecules that correspond to each of the following labels (iv is a molecule moving through the protein, indicated with an arrow): i: ii: iii: iv: 1. The blank in front of molecule (i) that you identified above is to indicate how many copies of this…
the maximum amount of ATP that could be generated by the full oxidation of the compound ((CH3(CH2)4COOH 43 O 45 O 131 O 36 O 129 O
This is from the practice problem for finals but the answer key will be uploaded the day before finals (on sunday) so I need help. Can you match the following options
A student every morning consumes one glass of sweet milk From the results of the analysis of carbohydrate compounds, each of the compounds has a mass of 85.5 gramsCalculate the number of ATP and NADH produced on oxidation ( the oxidation until the formation of acetyl KOA)
NADH pills can be purchased over the counter and are often taken by sufferers of chronic fatigue syndrome (CFS). How might these pills benefit a CFS patient? They would decrease the rate of alcoholic fermentation. They would decrease the rate of glycolysis. They would increase the number of electrons provided to the electron transport chain. They would increase energy by creating more FADH2.
The average cell at rest hydrolyzes 10,000,000 ATP molecules per second.You are studying the stem cell population found in intestinal Crypts.In the intestine there are s total 5*1011 cell.The stem cells have a 85% higher metabolism than an average resting cell.ATP hydrlysis yield 7.4 kCal/Mole ATP(Avogadro's number is 6.023*1023) How many Kcal of energy are used per day by this population of cells? Assuming 32 ATP per glucose oxidative metabolically how many moles of glucose are consumed per day?
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Across electrons and another loses electrons 2. 13 4 19.) first step in respiration converts glucose to pyruvate 20.) process in inner mitochondrial membrane that produces majority of ATP for cel (3 words 7 18 6. 10 11 12 13 14 Down not require oxygen 15 12.) process of forming ATP from ADP & P through electron transfer by using a proton pump across the mitochondrial membrane 16 17 18 19 17.) final electron acceptor in electron transport chain aerobic respiration 20 5.
A cell is grown on minimal media containing only 3-phosphoglyceric acid as a source of carbon and energy. What is the most likely place this compound would enter the metabolic cycle? O Glycolysis O Conversion of Pyruvate to Acetyl-CoA O The TCA Cycle The Electron Transport Chain

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