Which of the following statements is FALSE regarding oxidative phosphorylation? The pH is higher in the matrix relative to that in the inter-membrane space. A large positive difference in reduction potential is associated with a small negative free energy change. Electrons from FADH2 enter at complex II because the reduction potential of FADH2 is greater than that of redox centers in complex I. Oxidation and phosphorylation are coupled via a proton gradient.
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- Which of the following statements is FALSE regarding oxidative phosphorylation? Which of the following statements is FALSE regarding oxidative phosphorylation? Oxidation and phosphorylation are coupled via a proton gradient. A large positive difference in reduction potential is associated with a small negative free energy change. Electrons from FADH2 enter at complex II because the reduction potential of FADH2 is greater than that of redox centers in complex I. The pH is higher in the matrix relative to that in the inter-membrane space.Glucose is phosphorylated to glucose-6-phosphate by hexokinase in the first step of the glycolytic pathway to trap it in the cell, as G6P cannot diffuse across the lipid bilayer. This reaction also decreases the concentration of free glucose, favoring additional import of the molecule. However, this has a postive standard free energy of 3 kcal per mole. To favor this reaction, hydrolysis of ATP is coupled, which has a standard free energy of -7 kcal per mole. Determine the actual free energy change in kcal/mole for the following conditions: Glucose concentration: 4.5 mM ATP conc: 3.79 mM G6P conc. 0.052 mM ADP conc: 0.12 mM inorganic phosphate conc: 1.3 mM temperature: 313 K Ans. in 3 SFs.Arrange the sequence of events in Oxidative Phosphorylation. (1-5) As the H+ ions move through the ATP synthase it'll provide the power to make the ATP synthase to turn. As it turns, a phosphate group is added to an ADP, forming a proton gradient-energy as ATP. With the help of a channel protein called ATP synthase, these H* ions are transferred back to the matrix. The electrons are passed to another electron carrier called cytochrome C (cyt C), which carries the = electrons to enzyme complex IV. Here, the last batch of H* ions are pumped into the intermembrane space. Enzyme complexes I and Il then transport the electrons through ubiquinone (Q), a mobile electron carrier. Q is reduced to QH, in the process and delivers the electrons to enzyme complex III. As this happens, more H* ions are pumped into the intermembrane space. The NADH and FADH2 produced from the previous stages of cellular respiration bring electrons across the transport chain to initiate the oxidative phosphorylation.
- Although the outer mitochondrial membrane is permeable to all small molecules, the inner mitochondrial membrane is essentially impermeable in the absence of specific transport proteins. Consider this information answer: If the inner mitochondrial membrane were rendered as permeable as the outer membrane, how would that affect oxidative phosphorylation? Which specific processes would stop and which remain?In the presence of excess oxygen, a complete oxidation of seven molecules of glucose into carbon dioxide and water, by a yeast cell, would produce approximately ATP molecules via oxidative phosphorylation only. (Consider NADH = 3 ATP and FADH2 = 2 ATP)Anaerobic glycolysis of glucose potentially produces a fewer number of ATPs per glucose moleculein red blood cells than in muscle cells, because -Red blood cells contain bisphosphoglycerate mutase -Red blood cells lack phosphoglycerate kinase -Red blood cells do not have mitochondria -Red blood cells do not have a nucleus Which of the following is likely to be correct if all mutases are completely inhibited? -Removal of glucosyl residues from nonreducing ends of glycogen in the liver is compromised;therefore, release of free glucose into blood from the liver would decrease -Glycerol can be efficiently converted into glucose but cannot be efficiently converted into glucosylresidues in glycogen in the liver -Both A and B -Neither A nor B
- Copper is a cofactor in several enzymes, including lysyl oxidase and superoxide dismutase.Ceruloplasmin, a deep-blue glycoprotein, is the principal copper-containing protein in blood. It isused to transport Cu2+ and maintain appropriate levels of Cu2+ in the body’s tissues.Ceruloplasmin also catalyzes the oxidation of Fe2+ to Fe3+, an important reaction in ironmetabolism. Because the metal is widely found in foods, copper deficiency is rare in humans.Deficiency symptoms include anemia, leukopenia (reduction in blood levels of white blood cells),bone defects, and weakened arterial walls. The body is partially protected from exposure toexcessive copper (and several other metals) by metallothionein, a small, metal-binding protein thatpossesses a large proportion of cysteine residues. Certain metals (most notably zinc and cadmium)induce the synthesis of metallothionein in the intestine and liver.In Menkes syndrome intestinal absorption of copper is defective. How can affected infants…The reaction shown below occurs in glycolysis. Which of the following is false about this reaction? [Note: only major metabolites are given] 2-0, PO 天 H-C-OH CH₂OPO,²- H-C-OH CH₂OPO The substrate gets oxidized during this reaction. This particular reaction uses phosphorylase enzyme. The substrate gets phosphorylated during this reaction. This particular reaction uses kinase enzymeDCCD (diocyclohexylcarbodiimide) inhibits oxidative phosphorylation when the substrate is mitochondrial NADH. DCCD is a drug that binds to ATP synthase and blocks proton transport through the ion channel. a) Explain what the consequences of DCCD on cellular energy production are. b) Suggest at least one other cellular effect of DCCD and explain this effect.
- match the cofactor with its function in the citric acid cycle by entering the number corresponding with the function. A given function may be used more than one time or not at all. Use from the following list of functions to fill in the table below: carries O2 carries small carbon-containing molecules carries e- carries small nitrogen-containing molecules Cofactor Function NAD+/NADH FAD/FADH2 CoA thiamine biotinDescribe, in simple diagrams and a few words, the chemiosmotic theory for coupling oxidation to phosphorylation in mitochondria.A poison that prevents the transfer of electrons from the last [Fe-S] cluster of Complex I to coenzyme Q is added to a suspension of actively respiring mitochondria. Which of the following will be observed? ATP production would be impaired due to the uncoupling of oxidative phosphorylation from electron transport. ATP production would be reduced due to inhibition of the CoQ subunit of ATP synthase. ATP production would be reduced due to a decrease in the number of protons pumped out of the mitochondrial matrix. ATP production would be halted completely due to the block in electron transport through the electron transport chain.