Concept explainers
Interpretation: To identify the step in that
Concept introduction: Electron transport chain is a sequence of biochemical reactions in which electrons and hydrogen atoms from the citric acid cycle are transferred to various intermediate carriers and finally reacts with molecular oxygen to form a water molecule. The reaction of the formation of the water is:
There are four complexes associated with the electron transport chain that is present in the inner mitochondrial membrane. The four complexes that help in the electron transfer in the electron transport chain are:
Complex I:
Complex II:
Complex III:
Complex IV:
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- What is the substrate that initially interacts with protein complex II in the electron transport chain a. NADH b. FADH2 c. CoQ d. no correct responsearrow_forwardIn which of the following listings of citric acid cycle intermediates are the compounds listed in the order in which they arc encountered in a turn of the cycle? a. isocitrate, oxaloacetate, succinate b. succinate, malate, oxaloacetate c. citrate, oxaloacetate, fumarate d. no correct responsearrow_forwardWhich of the following stages in the biochemical energy production process immediately precedes the citric acid cycle? a. digestion b. acetyl group formation c. electron transport chain d. no correct responsearrow_forward
- Which of the following citric acid cycle intermediates is a C4 species? a. citrate b. succinate c. -ketoglutarate d. no correct responsearrow_forwardQuestion 15 Glycogen storage disease type I (GSD I) or von Gierke's disease, is the most common of the glycogen storage diseases. This genetic disease results from deficiency of the enzyme glucose-6-phosphatase. The metabolic outcomes of GSD I are likely to include: O Low blood glucose, increased blood pH, increased glycogen storage in liver and kidneys O High blood glucose, decreased blood pH, decreased glycogen storage in liver and kidneys O Low blood glucose, increased blood pH, decreased glycogen storage in liver and kidneys O Low blood glucose, decreased blood pH, decreased glycogen storage in liver and kidneys High blood glucose, decreased blood pH, increased glycogen storage in liver and kidneys O High blood glucose, increased blood pH, increased glycogen storage in liver and kidneys O High blood glucose, increased blood pH, decreased glycogen storage in liver and kidneys O Low blood glucose, decreased blood pH, increased glycogen storage in liver and kidneysarrow_forward24. In the following diagram, the rate of an enzyme-catalyzed reaction is graphed on the y (or vertical) axis versus another quantity on the x axis. What quantity is graphed on the x axis? a. substrate concentration Ob. reaction pH Oc. reaction temperature Od. more than one response is correct e. no correct responsearrow_forward
- What is the intermediate compound in the two-step first stage of glycerol metabolism? a. glycerol 2-phosphate b. glycerol 3-phosphate c. dihydroxyacetone phosphate d. no correct responsearrow_forwardEXERCISES 1. Explain why a liver cell mitochondrion contains fewer cristae than a mitochondrion from a heart muscle cell.arrow_forward6. The enzyme common name maltase indicates which of the following? a. the substrate it acts on O b. the specific reaction catalyzed c. the general reaction catalyzed d. the functional group of the substrate e. no correct responsearrow_forward
- General, Organic, and Biological ChemistryChemistryISBN:9781285853918Author:H. Stephen StokerPublisher:Cengage LearningOrganic And Biological ChemistryChemistryISBN:9781305081079Author:STOKER, H. Stephen (howard Stephen)Publisher:Cengage Learning,