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Inside Collection: Biochemistry Exercises
Summary: These are exercise test questions to help build your knowledge of carbohydrate and nitrogen lectures. This will help expand your knowledge on the topics to maximize learning at a deeper level, build confidence and help you succeed in the course.
| 1. Which of the following statements about glucose transporters is TRUE? | |
| A. | The transporter for red blood cells is an insulin-sensitive transporter. |
| B. | The transporter in spermatozoa function to transport fructose. |
| C. | The transporter for muscle is a glucose sensor transporter. |
| D. | The transporter for adipose tissue is a low affinity transporter. |
| E. | The transporter for the liver is a high affinity transporter. |
| 2. Which of the following statements BEST states the clinical significance of glucose transporters in the brain? | |
| A. | The passage of glucose across the endothelial cells of the blood brain barrier is fast, thus maintaining a balance of supply and demand, especially during systemic hypoglycemia and seizures. |
| B. | An ideal glucose level for normal neuronal function is 18-54 mg/dL and this prevents symptoms of light-headedness, dizziness or coma. |
| C. | The levels of GLUT1 and GLUT3 remain constant from birth to adulthood and this facilitates neuronal maturation and synaptic activity in the brain. |
| D. | Patients with Alzheimer's disease show reduced levels of GLUT1 and GLUT3 in regions that show deficits in cerebral glucose utilization. |
| E. | Studies of glucose transporters in the brain do not offer any useful information for diseases like diabetes, hypoxia/ischemia, epilepsy and neurodegenerative disorders. |
| 3. Which of the following statements about muscle protein degradation is INCORRECT? | |
| A. | An ubiquitin-proteasome complex targets proteins that contains rich region of proline, glutamate, serine and threonine (PEST). |
| B. | An active proteasome complex breaks down muscle proteins via a PA700 CAP with a PA28 subunit or a PA 28 subunit by itself. |
| C. | Lysosomes contain cathepsins enzymes which break down muscle proteins and release amino acids into circulation. |
| D. | Phagocytosis facilitates the intake and break down of muscle proteins in the inside of the lysosomes. |
| E. | Calpains are cytosolic calcium regulated enzymes capable of breaking muscle proteins into amino acids. |
| 4. Which of the following CANNOT be broken down into amino acids by any of the enzymes that degrade proteins in the body? | |
| A. | Muscle |
| B. | Plant Fiber |
| C. | Hemoglobin |
| D. | Digestive enzymes |
| E. | Sloughed off cells of the intestines |
| 5. Which of the following statements about GLUT4 is INCORRECT? | |
| A. | GLUT4 is a glucose transporter predominantly found in adipose tissue and heart and skeletal muscle. |
| B. | GLUT4 allows entrance of fructose inside the cells and expressed in cells with barrier functions. |
| C. | Binding of insulin to a cell receptor activates the GLUT4 transporter to allow glucose inside the cells. |
| D. | Insulin helps regulates the synthesis and activation of glycogen synthase for glycogen storage. |
| E. | GLUT4 is inactive as an intracellular vesicle during periods of fasting and activated during the feeding state by insulin. |
| 6. Which of the following is NOT a common problem associated with excessive secretion of insulin? | |
| A. | Hypoglycemia |
| B. | Depleted storage of glycogen |
| C. | High storage of glycogen |
| D. | Stimulation of synthesis of glycogen |
| E. | Inhibition of glycogen degradation |
| 7. Which of the following statements about the fate of amino acids during fasting conditions is INCORRECT? | |
| A. | In the fasting state, amino acids from the digestion of dietary proteins travel to the liver for the synthesis of proteins. |
| B. | In the intestines and lymphocytes, glutamine is converted to alanine and travels via circulation to the liver. |
| C. | Amino acids from muscle protein are converted to alanine and glutamine and these are the main forms of transport in the blood. |
| D. | The carbons of alanine are converted to glucose, CO2 and ketones bodies and the nitrogen is converted to urea in the liver. |
| E. | In the kidneys, glutamine releases ammonia for the formation of salts with metabolic acids in the renal tubules. |
| 8. Which of the following intestinal enzymes is responsible for the activation of other intestinal zymogens under basic conditions? | |
| A. | Pepsin |
| B. | Enteropeptidase |
| C. | Trypsin |
| D. | Chymotrypsin |
| E. | Aminopeptidase |
| 9. Which of the following statements is MOST ACCURATE about the catalytic function of chymotrypsin and carboxypeptidase A in the digestion of proteins in the small intestine? | |
| A. | Cleaves peptide bonds with Arg and Lys side groups amino acids |
| B. | Cleaves peptide bond in elastin and small side groups amino acids |
| C. | Cleaves peptide bonds with hydrophobic side groups amino acids |
| D. | Cleaves peptide bonds with basic side group amino acids |
| E. | Cleave peptide bonds one amino acid at a time at the N-terminus ends of proteins |
| 10. Which of the following protein complexes works simultaneously in both the tricarboxylic acid and the electron transport chain during ATP synthesis? | |
| A. | Complex I |
| B. | Complex II |
| C. | CoQ |
| D. | Complex III |
| E. | Complex IV |
| 11. Which of the following statements is INCORRECT about oxidation-reductions reactions in the electron transport chain? | |
| A. | Initial reduction reactions involve accepting electrons from electrons donors of the tricarboxylic acid pathway. |
| B. | The consumption of oxygen is a reduction reaction in which O2 accepts 4 electrons from complex IV and 4 protons from the proton wires. |
| C. | Oxidation-reductions reactions happen sequentially by proteins accepting and donating electrons in the electron transport chain. |
| D. | Oxidation-reduction reactions from electron transfer provide the energy necessary to pump protons out of the matrix. |
| E. | Oxidation-reduction reactions are bidirectional making the electron transport chain reversible when ATP needs decreases. |
| 12. Which of the following statements MOST LIKELY shows the effects of decreased oxygen and cyanide poisoning? | |
| A. | Depletes iron stores in the bone marrow by impairing hemoglobin synthesis and causing severe iron lost in the tissues. |
| B. | Maintains the amount of ATP nearly constant for metabolic needs of the tissues except for muscle. |
| C. | Restores the electrochemical gradient to increase proton pumping and electrons to meet the high demands for ATP. |
| D. | Causes cellular damage by directly affecting electron flow and proton pumping in the electron transport chain and ATP synthesis. |
| E. | Gets incorporated into maternal mitochondrial DNA and is passed 100% of the time to the offspring. |
| 13. Which of the following statements is MOST ACCURATE about resting muscle? | |
| A. | High demands for ATP depletes the protons in the electrochemical gradient stimulating both the rate of ATP synthesis and the electron transport chain. |
| B. | The buildup of electron carriers inhibits the enzymes of the tricarboxylic acid facilitating the export of intermediates of this pathway to other metabolic pathways. |
| C. | Need for ATP is linked to increase concentrations of both adenosine diphosphate and pyrophosphate and the influx of protons into the matrix. |
| D. | The amount remains nearly constant for all muscles in the body regardless whether muscle is contracting or resting. |
| E. | O2 consumption speeds up electron flow, thus increasing the electron carriers from the tricarboxylic acid to supply more electrons for the electron transport chain. |
| 14. Which of the following pathways is responsible for the formation of cataracts as a result of high levels of galactose and glucose in blood and urine? | |
| A. | Glycolysis |
| B. | Tricarboxylic acid |
| C. | Polyol Pathway |
| D. | Pentose Phosphate |
| E. | Beta Oxidation |
| 15. Which of the following statements MOST LIKELY states the difference between classical and non-classical galactosemia? | |
| A. | Increased levels of galactose in urine. |
| B. | Increased levels of galactose in blood. |
| C. | Accumulation of galactose-1-phosphate in the tissues. |
| D. | Formation of cataracts on the lenses of eyes via polyol pathway. |
| E. | Aldose reductase converts blood galactose into galactitol. |
| 16. Which of the following amino acids, produced from intermediates of glycolysis, is used for the synthesis of both purine bases for nucleic acids and porphyrin for the hemoglobin molecule? | |
| A. | Glutamine |
| B. | Glycine |
| C. | Aspartate |
| D. | Asparagine |
| E. | Alanine |
| 17. Which of the following statements about lactose synthesis is INCORRECT? | |
| A. | One important site for lactose synthesis is the mammary gland right after childbirth under the influence of prolactin. |
| B. | Lactose synthase is made up of two catalytic sites for the synthesis of lactose or glycoproteins based on hormonal stimuli. |
| C. | Galactosyltransferase adds a galactose to a glucose molecule via β-1, 4 glycosidic bonds. |
| D. | α-lactalbumin synthesizes glycoproteins when no prolactin is released and galactosyltransferase is inactive. |
| E. | Alpha-lactalbumin increases the production of lactose in order to meet the dietary needs of a lactating infant every two hours. |
| 18. Which of the following statements about the urea cycle is INACCURATE? | |
| A. | The main carriers of nitrogen to the liver to enter the urea cycle are the amino acids alanine and glutamine. |
| B. | The rate of ammonia (NH4+) formation speeds up the rate of the urea production to be sent to the kidneys for excretion. |
| C. | A diet rich in high proteins with periods of prolong fasting in between meals stimulates the synthesis of all the enzymes of the urea cycle. |
| D. | Increased synthesis of arginine facilitates the regeneration of ornithine and activates carbamoylphosphate synthetase I (CPSI). |
| E. | Ornithine is an amino acid with an mRNA codon that is degraded into urea in the last step of the urea cycle. |
| 19. Which of the following molecules DOES NOTaccumulate in bloodas a result of a defect in any of the enzymes of the urea cycle? | |
| A. | Any of the intermediates of the urea cycle |
| B. | Ammonia in the form of NH4+ |
| C. | Glutamine and alanine |
| D. | All the intermediates of glycolysis |
| 20. Which of the following statements about jaundice is INCORRECT? | |
| A. | Neonatal jaundice is caused by the breakdown of fetal hemoglobin and an immature bilirubin conjugation system in the liver. |
| B. | Unconjugated bilirubin is insoluble in plasma and accumulates in hydrophobic regions of the eyes and the skin. |
| C. | Laboratory tests measure the levels of bilirubin in blood as indirect bilirubin, direct bilirubin and total bilirubin. |
| D. | Yellow tinge of the skin and sclera of the eyes is seen when bilirubin blood levels are below 1 mg/dL. |
| E. | In adults, it is caused by liver failure to transport, store or conjugate bilirubin, thus accumulating bilirubin in blood. |
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This work is licensed by E. Pennington under a Creative Commons Attribution License (CC-BY 3.0), and is an Open Educational Resource.
Last edited by E. Pennington on Dec 15, 2011 12:14 pm -0600.
