Chapter 10 Review Quizzes

. Obligate anaerobes have difficulty living in environments containing:

Oxygen

Nitrogen

Argon

Carbon dioxide

Water

. The mechanism of damage done by free radicals (now called reactive oxygen species) to both physiological systems and to mechanical substances is still not fully understood, but the danger posed is substantial. ROSs are implicated in nasty processes from polymerization of gasoline to formation of varnishes which clog carburetors and injectors to formations of plaque which may cause arteries. Producers of foodstuffs worry about ROSs causing premature spoilage of foods, and often include free radical scavengers. Even some fitness waters contain free radical scavengers. Examine a box of cereal and find the antioxidant labeled there:

Vitamin B

Riboflavin

Thiamine pyrophosphate

BHA (butylated hydroxyanisole) or its cousin BHT (butylated hydroxytoluene)

Benzene

. During the terrible winter fighting conditions on the Eastern Front in Europe during WWII, many soldiers froze to death. In order to maintain higher body temperatures, some armies are reported to have been issued pills of 2,4-dinitrophenol. While use of this uncoupler of oxidative phosphorylation may have resulted in higher temperatures, it might have caused eventual organ failure. Which organ?

Lungs

Liver

Kidneys

Heart

Pancreas

. Formation of ATP is increased by:

A high ratio of ATP to ADP

A high ratio of ADP to ATP

A high ratio of ATP to AMP

A high ratio of ATP to phosphate

A high ratio of ATP to glucose

. If not otherwise dangerous, uncouplers would make good diet aids because:

They don't take part in the ETC

They don't block any other reactions

They lower redox potential

They are very inexpensive

They allow protons to pass through the mitochondrial membrane without ATP synthesis

. Formation of ATP as a result of passage of electrons through the ETC is sometimes called oxidative phosphorylation because:

As substrates are reduced, ADP is converted to ATP

As ADP is phosphorylated, glucose is reduced in mitochondria

The endoplasmic reticulum becomes oxidized due to the relatively oxidative environment of the nucleus

As substrates are oxidized, ADP is phosphorylated to form ATP

Mitochondria are easily ignited

. Long known to be protective against scurvy, Vitamin C owes at least some of its value to the fact that it acts as an antioxidant. This means that vitamin C itself is:

An oxidizing agent

An acid

A base

A reducing agent

A blocker of the electron transport chain which results in the loss of a great many electrons

. Dentists often examine the mouths of patients for signs of acatalasemia. In this illness, hydrogen peroxide produced by bacteria may oxidize the Fe⁺² of hemoglobin to Fe⁺³, forming methemoglobin which does not carry oxygen as well. Ordinarily, we are protected from this danger by the enzyme:

Glutathione peroxidase

Superoxide dismutase

Catalase

Transaminase

Glucose-6-phosphate dehydrogenase

. Both cyanide ion and hydrogen cyanide gas are highly toxic, blocking the movement of electrons through the ETC. Victims of cyanide poisoning often display rictus, a gaping grimace as though they were trying to take a bite out of the air. One reason why they might do this is:

The body senses that too much oxygen is available and compensates by hyperventilating

The body senses that too little ATP is available

Excess pyruvic acid accumulates and shuts down glycolysis by a feedback mechanism

Excess carbon dioxide results in a respiratory acidosis, with plasma pH falling below 7.35 and shutting down the proton pumps

Lack of an acceptor for electrons at the end of the ETC produces the same symptoms as oxygen deficiency

. Reactive oxygen species such as hydrogen peroxide and superoxide radicals may be generated by scavenger cells and used to destroy unwanted invaders or metabolic fragments. The ROS are generated by a process called the:

Oxidative burst

Photosynthetic burst

Thylakoid disk

Charge coupled inducer

Respiratory burst

. Among the important antioxidant molecules taken in with our food are:

α-Tocopherol, β-carotene, and ascorbic acid

Hydrogen peroxide and sodium chloride

Hypochlorous acid and nitric oxide

Nitroglycerine and FAD

Iron (III) chloride and lead (II) nitrate

. The endoplasmic reticulum usually functions in an oxidative environment. In ER stress, low oxygen concentration results in inability of the ER to properly facilitate protein folding. Which of the following reactions is likely to be compromised?

Ligase enzymes are unlikely to be able to link amino acids into peptides

Ligases are not able to form polynucleotides

Cysteine molecules between regions of the protein are not joined by disulfide bonds

Amino acids are unable to lose protons

Proteins gain too many protons due to the acidic environment

. Persons who suffer angina (chest pain associated with cardiac problems) sometimes place a small pill containing nitroglycerine under their tongue. As the nitroglycerine decomposes, a small amount of a substance is produced which lowers blood pressure, relieving the angina. The substance released by decomposing nitroglycerine is an important signaling molecule which helps to regulate blood pressure. Which of the following is the best candidate?

NO

HCN

H₂S

H₂O

CO₂

. Erythrocytes are fragile and may be damaged by illnesses such as hemolytic anemia, resulting in dark-colored urine. Normally, the erythrocytes are protected by:

Reduced glutathione

Reduced cystine

Oxidized glutathione

Hydrogen peroxide

Superoxide dismutase

. While selenium may be an important part of some enzyme systems, large quantities can be toxic. Both Marco Polo in his historic travels to China and present-day ranchers in Western Nebraska and Eastern Wyoming suffered livestock losses due to toxic levels of selenium in plants eaten by the animals. One route of absorption of selenium might be its incorporation in amino acids in the plant, and later release of the selenium upon digestion and metabolism of the amino acids. Which amino acid might be a good candidate to carry the selenium?

Glycine

Cysteine

Tryptophan

Alanine

Lysine

. The interior of the inner mitochondrial membrane is relatively impermeable to ionic substances because:

The membrane itself is ionic

The membrane is relatively polar

The outer portions of the membrane nearest the cytoplasm or mitochondrial matrix are relatively polar

The inside of the membrane is filled with water

The inside portion of the membrane is a lipid bilayer and relatively nonpolar

. The ATP synthase complex is often called the F₁Fo ATP synthase. This refers to the fact that the synthase enzyme is composed of:

A shaft or stator connecting an Fo motor and an F1 ATP generator

An Fo shaft connecting a stator motor and an F1 ATP generator

An F1 proton-powered motor and an Fo ATP generator

An Fo motor and an F1 ATP generator connected to a stator which can drive a small set of gears

A polynucleotide gel connected to the ER

. Glucose may be oxidized by a combination of several pathways and cycles. If the oxidation of glucose relied on glycolysis and the TCA cycle, how many moles of ATP could be produced by complete oxidation of a mole of glucose-6-phosphate?

2

15

48

22

30

. Depriving muscle tissue of oxygen is a dangerous process known as:

Paranoia

Hyperoxia

Reduction

Ischemia

Hypercatalasemia

. A single reduced molecule or NADH is considered to be equivalent in energy to 2.5 ATP molecules. Oxidation of a mole of FADH₂ yields 1.5 ATP. In chemical terms, this would mean that:

FADH₂ has a higher standard oxidation potential than NADH

FADH₂ has a higher standard oxidation potential than NAD⁺

NADH₂ has a higher standard oxidation potential than FADH₂

FADH₂ has a higher standard oxidation potential than NADH

NADH has a higher standard oxidation potential than FADH₂

. Mitchell's chemiosmotic theory suggested that a high concentration of protons outside the mitochondrial membrane:

Reduced the oxidation potential

Made the interior of the membrane highly acidic

Caused the exterior of the membrane to become highly basic

Generated a voltage and a protonmotive force which helped drive the ATP synthase

Generated a low electrical potential and proton equalization which caused protons to exit the mitochondria

. It's likely that your cereal boxes note on their labels that the contents include a small amount of BHT or BHA (butylated hydroxyanisole). Both BHT and BHA are antioxidants included not to make you healthy, but to make you happier than you would be if the long chain fatty acids in your food become rancid. They become rancid by oxidative processes which attack double bonds in unsaturated acids. The result would be unpleasant because:

The shorter-chain acids produced by oxidation would be poisonous and inedible

The shorter-chain acids produced by oxidation would be volatile and smelly

Long chain unsaturated fatty acids are essential for health

People would spontaneously combust

The antioxidants would have no other function

. Which is the correct order of decreasing size?

Eukaryotic cells, ATP synthase, mitochondria

Mitochondria, eukaryotic cells, ATP synthase

Eukaryotic cells, mitochondria, ATP synthase

ATP synthase, mitochondria, eukaryotic cell

ATP synthase, eukaryotic cells, mitochondria

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