Membrane Structure And Function Chapter.5 Test Bank

Biology, 13e (Mader)

Chapter 5 Membrane Structure and Function

1) The component of an animal cell membrane that regulates the fluidity by stiffening the membrane at higher temperatures and preventing the membrane from freezing at lower temperatures is

A) cholesterol.

B) lipid in nature.

C) a steroid.

D) All of the choices are correct.

2) Proteins in a membrane are

A) peripheral if they are on the inside surface held in place by the cytoskeleton.

B) integral if they are embedded in the membrane and protrude from either surfaces of the bilayer.

C) Both answer choices are true.

D) Neither answer choice is true.

3) Which of the following protein functions is not correctly associated with the correct integral protein?

A) carrier proteins—facilitate passage of molecules through the membrane

B) enzymatic proteins—catalyze a specific reaction

C) channel proteins—block the activity of carrier proteins

D) cell recognition proteins—recognize pathogens

4) Active transport

A) requires an input of ATP.

B) is involved in diffusion.

C) occurs in osmosis and facilitated transport.

D) All of the choices are correct.

5) Which channel protein assists the passage of water across the cell membrane?

A) ATP synthase.

B) aquaporin.

C) the sodium-potassium pump.

D) integrin.

6) Which of the following is true with respect to plant cell walls?

A) They contain n-acetylglutamic acid.

B) They all have secondary cell walls.

C) There is a greater amount of cellulose in secondary cell walls than in primary cell walls.

D) Lignin is found in primary cell walls of plants.

7) In a phospholipid bilayer, the

A) phosphate groups are hydrophobic.

B) fatty acid tails are ionized.

C) fatty acid tails are hydrophilic.

D) proteins are located only between the two layers.

E) phosphate heads are oriented toward the exterior of the cell or toward the cytoplasm.

8) Which statement is true about the plasma membrane?

A) The proteins make up the matrix of the membrane.

B) The model can be likened to a sandwich where phospholipids are like the bread and proteins are like the filling.

C) The fluid nature of the membrane is regulated by flip-flopping of the phospholipids from one side of the membrane to the other.

D) Proteins and phospholipids can move sideways within the plane of the membrane.

9) Which statement is NOT true about the proteins in the plasma membrane?

A) Proteins may be attached to the inner surface of the plasma membrane.

B) The hydrophobic portion of a protein is embedded within the membrane.

C) Some peripheral proteins are connected to cytoskeletal filaments.

D) Integral proteins are responsible for membrane functions.

E) Glycoproteins contain carbohydrate chains that are oriented toward the inner surface of the membrane.

10) Which sentence does NOT describe one of the functions of proteins of the plasma membrane?

A) Proteins of the plasma membrane can form a channel through the membrane.

B) Proteins of the plasma membrane can initiate the replication of the genetic material.

C) Proteins of the plasma membrane can bind to a substance to carry it through the membrane.

D) Proteins of the plasma membrane can act as a receptor for substances external to the cell.

E) Proteins of the plasma membrane can increase the rate of a chemical reaction.

11) Red blood cells come in many "blood types" including type A, type B, type AB, type O [lacking proteins A and B], Rh positive, Rh negative [lacking Rh+], and many others. If blood is transfused, the recipient detects any new or "foreign" proteins. These blood type proteins are

A) in the plasma where they have been secreted by the red blood cells.

B) inside the red blood cell cytoplasm.

C) on the outer surface of the red blood cell membrane.

D) evenly distributed throughout the cell contents and plasma.

E) in the red blood cell nucleus.

12) Whether a molecule can cross the plasma membrane depends upon

A) the size of the molecule.

B) the shape of the molecule.

C) the chemical properties of the molecule.

D) the charge of the molecule.

E) All of the choices are correct.

13) What will happen to a celery stick that is placed in a glass of water?

A) Salts will move into the celery cells from the surrounding solution.

B) Water will move into the celery cells from the surrounding solution.

C) Salts will move out of the celery cells into the surrounding solution.

D) Water will move out of the celery cells into the surrounding solution.

E) None of these choices will occur.

14) Which is the best definition of osmosis?

A) The movement of molecules from an area of their higher concentration to an area of their lower concentration.

B) The movement of water across a semipermeable membrane from an area of higher water concentration to an area of lower water concentration.

C) The movement of molecules from an area of their lower concentration to an area of their higher concentration.

D) The movement of water across a semipermeable membrane from an area of lower water concentration to an area of higher water concentration.

E) The movement of a substance against its concentration gradient through the release of energy from ATP.

15) Having similar ________ would allow tissues and organs to be transplanted easily.

A) cell recognition proteins

B) major histocompatibility complex proteins

C) carbohydrate chains in the cell membrane

D) All of the choices are involved in tissue transplantation.

16) Which type of molecule will require energy to cross the cell membrane?

A) Na+

B) nonpolar molecules

C) carbon dioxide

D) oxygen

17) Freshwater protozoans react to a/an ________ environment by removing water through ________.

A) hypertonic; turgor pressure

B) hypotonic; turgor pressure

C) isotonic; a contractile vacuole

D) hypertonic; a contractile vacuole

E) hypotonic; a contractile vacuole

18) Which of the following is NOT associated with animal cells?

A) an extracellular matrix

B) plasmodesmata

C) gap junctions

D) adhesion junctions (desmosomes)

E) tight junctions

19) Which of the following are major functions of the plasma membrane? Select all that apply.

A) separation of the fluid environments inside and outside the cell

B) regulation of molecules and ions that pass into and out of the cell

C) recognition and communication between different cells and tissues

D) maintaining connections between adjacent cells

E) production of proteins used in construction of the cell wall

20) Some parasites and disease agents regularly change their identity before our immune system can build up substantial antibodies. How can cells change their chemical identity on a regular basis?

A) Rapid evolution produces mutations.

B) A new phospholipid bilayer is generated to replace the old layer.

C) Because the membrane is "set," the cell must reproduce and then the cell with the old membrane must die.

D) Cells eliminate all surface proteins and present only a naked lipid bilayer.

E) Different glycolipids and glycoproteins are produced internally and moved into the plasma membrane.

21) Plants show turgor pressure when

A) cells are losing water from their water vacuoles.

B) cells contain water vacuoles that are full of water.

C) water is being used up in photosynthesis.

D) water is being evaporated from the leaves.

22) Which is the best definition of active transport?

A) movement of molecules from an area of their higher concentration to an area of their lower concentration

B) movement of water across a semi permeable membrane from an area of higher water concentration to an area of lower water concentration

C) movement of molecules from an area of their lower concentration to an area of their higher concentration

D) movement of water across a semi permeable membrane from an area of lower water concentration to an area of higher water concentration

E) movement of a substance against its concentration through the release of energy from ATP

23) Sugars and amino acids are carried into the cell by means of

A) facilitated transport.

B) diffusion.

C) endocytosis.

D) exocytosis.

24) The process by which cholesterol is transported into the cell by the binding of LDL to its receptor and the internalization of the receptor-LDL complex is

A) facilitated transport.

B) active transport.

C) cotransport.

D) receptor-mediated endocytosis.

E) exocytosis.

25) Design an experiment that illustrates how any one of these factors (temperature, pressure, molecule size) may affect the rate of diffusion.

26) A 10% glucose solution is placed in the thistle tube. The thistle tube is placed in a beaker that contains a 5% glucose solution. The solution in the thistle tube is ________ to the solution in the beaker.

A) hypertonic

B) hypotonic

C) isotonic

D) none of the answer choices

27) A 10% glucose solution is placed in the thistle tube. The thistle tube is placed in a beaker that contains a 5% glucose solution. Where is the highest concentration of water found?

A) in the 10% solution

B) in the 5% solution

C) the concentration of water is the same in both solutions

D) None of the answer choices

28) A 10% glucose solution is placed in the thistle tube. The thistle tube is placed in a beaker that contains a 5% glucose solution. There is a differentially permeable membrane across the broad end of the tube, which is permeable to water but not to the sugar glucose. What will occur over time to the water? To the solute?

29) A 10% glucose solution is placed in the thistle tube. The thistle tube is placed in a beaker that contains a 5% glucose solution. There is a differentially permeable membrane across the broad end of the tube, which is permeable to water but not to the sugar glucose. As diffusion occurs,

A) the 10% solution will become more concentrated and the 5% solution will become less concentrated.

B) both solutions will become more concentrated.

C) the 10% solution will become less concentrated and the 5% solution will become more concentrated.

D) both solutions will become less concentrated.

30) Study the series of pictures to identify the process as

A) facilitated transport.

B) active transport.

C) passive transport.

D) osmosis.

31) Study the series of pictures to identify the process through which materials are being transported across the membrane. Explain how you arrived at your answer.

32) A crystal of green dye is added to a beaker of water. Explain what will happen to the crystal of green dye. Define diffusion and state the ultimate outcome of diffusion.

33) Before boarding an airplane on a commercial flight, the traveler must show personal identification and a ticket to airport security. The traveler must then remove his shoes and place any carry-on items on the belt of an X-ray machine before walking through the checkpoint. How is the passage of molecules through a membrane similar to travelers passing through airport security?

34) Why do membranes self-assemble into their characteristic phospholipids bilayer?

35) Explain why the head of one phospholipid would never be found pointing to the tail of another phospholipid.

36) You are helping your roommate study for her biology exam. You ask her to draw a picture of a phospholipid bilayer. She draws the phosphate heads pointing inwards and the fatty acid tails pointing outward. Is her drawing accurate? Why or why not? Explain.

37) In the cell pictured, there is no net movement of water. The amount leaving the cell and entering the cell is the same. In what type of environment is this cell found?

A) hypertonic

B) hypotonic

C) isotonic

D) None of the above.

38) Is this cell an animal or plant cell? In what type of environment is this cell found? Is there a net movement of water into or out of the cell? Explain your answer.

39) Eukaryotic cells are substantially larger than bacterial cells and average over 20 times more volume-per-surface-area than bacterial cells. How can the eukaryotic cell membrane provide this higher rate of exchange of materials?

A) Plasma membrane folds increase the surface area.

B) Carrier proteins speed the rate at which a solute crosses the plasma membrane in the direction of decreasing concentration.

C) Mitochondria are concentrated near membranes to provide energy for active transport of molecules or ions.

D) Large molecules are engulfed by vesicle formation.

E) All of the choices are correct.

40) Imagine a person has a genetic disorder that prevents them from producing the protein collagen. What types of cellular issues will they be faced with?

A) The cell will not have the ability to divide properly.

B) The cell will not have the ability to regulate the movement of molecules through the membrane.

C) The cell would not be recognized by the body's immune system.

D) The cell would not have the ability to resist stretching.

E) All of the choices are plausible.

41) All life forms currently have a basic cell membrane so we hypothesize that the earliest cells also had membranes. It is likely that the primordial environment was acidic. In order for a cell to function in this type of environment, the cell membrane would have to include

A) a sodium (Na+) pump.

B) a proton (H+) pump.

C) mitochondria underneath in order to provide energy for active transport.

D) an acid-proof cell wall.

E) a totally nonpermeable membrane.

42) If a living plant were moved from a freshwater aquarium to a saltwater aquarium, which of the following would occur?

A) Nothing. The plant would be fine in either aquarium.

B) The plant's cells would take on ions.

C) The plant's cells would take on water and would lyse.

D) The plant's cells would lose water and plasmolysis would occur.

43) Which of the following is the reason why plants wilt if they are watered with a salt solution?

A) Wilting protects the leaves from full exposure to the salt solution.

B) Wilting results from an increase in turgor pressure.

C) Wilting results from the salt weakening the plant cell walls.

D) Wilting results from the loss of water.

44) Why can nonpolar molecules freely cross the cell membrane while polar molecules require energy?

45) Receptor-mediated endocytosis involves the use of specific proteins in the cell membrane.

46) Fluidity of a membrane increases as the percentage of unsaturated fatty acids in the phospholipids decreases.

47) In the cells that line the lumen of the small intestine, gap junctions keep materials from the digestive tract from slipping between the cells and entering the tissues.

48) In the sodium-potassium pump, sodium is transported into the cell and potassium is transported out of the cell using ATP energy.

49) The process by which a white blood cell or an amoeba engulfs bacteria is called pinocytosis.

50) An extracellular matrix helps some cells adhere to neighboring cells.

51) What type of transport mechanism is required to move sodium ions against their concentration gradient?

A) active

B) passive

C) diffusion

D) osmosis

52) Which scenario is most likely to occur if the mitochondria in the kidney cells were to decrease in function?

A) The kidneys would improve in function.

B) The kidneys would begin excreting large amounts of waste products.

C) The amount of active transport in the kidneys would significantly decrease.

D) The amount of active transport in the kidneys would increase.

53) Why is the energy expended during endocytosis worth it?

A) The cell increases the amount of ATP produced in order to complete endocytosis.

B) The contents drawn into the cell are isolated from the cytoplasm preventing them from altering cellular function.

C) The cell expends such a small amount of energy to run endocytosis it doesn't really matter.

D) There is no energy expenditure during endocytosis.

54) Which process is responsible for moving cellular wastes across the cell membrane and out of the cell?

A) endocytosis

B) exocytosis

C) pinocytosis

D) receptor-mediated endocytosis

55) Which of the following is an example of active transport through a cell membrane?

A) movement of carbon dioxide out of the bloodstream and into the lungs

B) movement of oxygen from the lungs into the bloodstream

C) movement of sweat onto the surface of your skin

D) The movement of chlorine ions from an area of low concentration on one side of the membrane to an area of high concentration on the other side of the membrane.

56) Which type of junctions will create a solid barrier to prevent molecules from moving between the cells?

A) gap

B) desmosomes

C) tight

D) plasmodesmata

57) Which cell junction will allow the movement of molecules between two plant cells?

A) plasmodesmata

B) gap

C) tight

D) adhesion

58) Which cell junction is unique to animals?

A) gap

B) tight

C) desmosomes

D) All are unique to animals.

59) Which of the following situations is most likely to produce a heart attack?

A) The gap junctions have collapsed and they do not allow the correct flow of ions from one cell to the next.

B) The plasmodesmata have collapsed and they do not allow the correct flow of ions from one cell to the next.

C) The tight junction has ripped and is allowing ions to leak through the membrane lining the heart.

D) The cell walls have broken down and are not able to support the heart.

60) Which type of cellular process will most likely be used by an amoeba in order to obtain food?

A) phagocytosis

B) pinocytosis

C) exocytosis

D) receptor-mediated endocytosis