Cell Membrane And Transport MCQ Quiz With Answers

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Lindsey Block, PhD (Cellular & Molecular Biology) |
Lecturer | Molecular Biologist | Reproductive Scientist
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Lindsey, Ph.D. in cellular and molecular biology from the University of Wisconsin-Madison, specializes in Zika's impact on conception and preterm birth biomarkers. She completed courese on Advanced Cell Biology at the University of Illinois at Urbana-Champaign and Advanced Virology at University College Cork. Lindsey's accolades include three first-author papers, three fellowships, and active participation in five conference presentations. Currently associated with the University of Pennsylvania through a T32 NIH Postdoctoral Fellowship, she continues to contribute significantly to her field, combining academic rigor with practical research to advance understanding in reproductive health and prenatal care. Currently, she is a full time lecturer at Northwestern University - The Feinberg School of Medicine.
 , PhD (Cellular & Molecular Biology)
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Cell Membrane And Transport MCQ Quiz With Answers - Quiz

The Membrane Transport Quiz is designed to assess your understanding of how substances move across cell membranes. In biology, membrane transport is a crucial concept that explains the mechanisms by which cells exchange materials with their surroundings.

This cell membrane and transport quiz will cover key topics such as passive and active transport, including diffusion, osmosis, and the role of transport proteins. It also explores processes like endocytosis and exocytosis, which are important for how cells intake and expel molecules. By taking this quiz, you will test your knowledge of how cells maintain homeostasis, control the flow of ions Read moreand molecules, and ensure proper cellular function.

Cell Membrane And Transport Questions and Answers

  • 1. 

    What is the cell membrane composed of?

    • A.

      Phospholipid bilayer with many other organic compounds

    • B.

      Long amino acid chains

    • C.

      Just a phospholipid bilayer

    • D.

      Cytosol and eukaryotes

    Correct Answer
    A. Phospholipid bilayer with many other organic compounds
    Explanation
    The cell membrane is composed of a phospholipid bilayer, which consists of two layers of phospholipids. These phospholipids have a hydrophilic (water-loving) head and a hydrophobic (water-fearing) tail, which arrange themselves in a way that the heads face outward towards the watery environment both inside and outside the cell, while the tails face inward, creating a barrier. In addition to phospholipids, the cell membrane also contains many other organic compounds such as proteins, cholesterol, and carbohydrates, which play various roles in maintaining the structure and function of the membrane.

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  • 2. 

    What does the term "selective permeability" mean?

    • A.

      Selective transport

    • B.

      Cell Membrane

    • C.

      Selective permeability

    • D.

      Active Transport

    Correct Answer
    C. Selective permeability
    Explanation
    The term "Selective permeability" refers to the property of the cell membrane that allows certain substances to enter or exit the cell while restricting others. This means that the cell membrane acts as a selective barrier, controlling the movement of molecules and ions. It only permits the passage of specific substances through various mechanisms such as diffusion, facilitated diffusion, and active transport. Therefore, "selectively permeable" is the best definition for the given word.

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  • 3. 

    What is the polar head of a phospholipid made of?

    • A.

      Fatty Acids

    • B.

      Vesicles

    • C.

      Proteins

    • D.

      Glycerol

    Correct Answer
    D. Glycerol
    Explanation
    The polar head of a phospholipid is made of glycerol. Phospholipids are composed of a hydrophilic (water-loving) head and a hydrophobic (water-repelling) tail. The head group is typically made up of glycerol, which contains hydroxyl (-OH) groups that interact with water molecules. This polar head allows phospholipids to form the outer layer of cell membranes, with the hydrophobic tails oriented towards the interior of the membrane and the polar heads facing the aqueous environment.

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  • 4. 

    What biomolecule may be part of the cell membrane depending on the cell’s function?

    • A.

      Phospholipids

    • B.

      Carbohydrates

    • C.

      Proteins

    • D.

      Waxes

    Correct Answer
    C. Proteins
    Explanation
    The specific structure of the cell membrane depends on the function of the cell. Proteins play a crucial role in cell membrane structure and function. They are embedded within the phospholipid bilayer and serve various functions such as transporting molecules across the membrane, acting as receptors for signaling molecules, and providing structural support. Different cells have different protein compositions in their cell membranes, depending on their specific functions and needs. Therefore, certain cells may not require the same types or amounts of proteins as other cells.

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  • 5. 

    In the phospholipid bilayer, which way do the nonpolar tails face?

    • A.

      Towards the interior

    • B.

      Towards the exterior

    • C.

      The directions are scattered.

    • D.

      No tails exist in the phospholipid bilayer.

    Correct Answer
    A. Towards the interior
    Explanation
    The nonpolar tails of phospholipids in the bilayer face towards the interior. This is because the nonpolar tails are hydrophobic, meaning they repel water. By facing towards the interior, they are shielded from the surrounding aqueous environment, which is polar and water-filled. This arrangement helps to stabilize the bilayer structure and maintain the integrity of the cell membrane.

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  • 6. 

    What is the cytoplasm made of?

    • A.

      Microfibers

    • B.

      The liquid cytosol

    • C.

      Carbon dioxide and iron

    • D.

      Plasma membrane

    Correct Answer
    B. The liquid cytosol
    Explanation
    The cytoplasm is made up of the liquid cytosol. The cytosol is a gel-like substance that fills the cell and surrounds the organelles. It contains various molecules such as proteins, ions, and nutrients that are essential for cell functions. The cytosol provides a medium for cellular processes to occur and supports the organelles within the cell. It also acts as a transportation system, allowing molecules to move within the cell. Therefore, the liquid cytosol is a major component of the cytoplasm.

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  • 7. 

    Where are peripheral proteins attached?

    • A.

      The surface of the cell membrane

    • B.

      The rough endoplasmic reticulum

    • C.

      The Golgi apparatus

    • D.

      The interior of the cell membrane

    Correct Answer
    A. The surface of the cell membrane
    Explanation
    Peripheral proteins are attached to the surface of the cell membrane. These proteins are not embedded within the lipid bilayer of the membrane, but rather loosely bound to it through non-covalent interactions. They can be easily detached from the membrane without disrupting its integrity. Peripheral proteins play various roles in cell signaling, transport of molecules across the membrane, and structural support. Their attachment to the cell membrane allows them to interact with other molecules on the cell surface and participate in important cellular processes.

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  • 8. 

    Are proteins embedded in the cell membrane?

    • A.

      True

    • B.

      False

    Correct Answer
    B. False
    Explanation
    The statement "Proteins are not embedded in the cell membrane" is false. Proteins are indeed embedded in the cell membrane. The cell membrane is composed of a phospholipid bilayer, and proteins are embedded within this bilayer. These proteins play crucial roles in various cellular processes, such as transporting molecules across the membrane, serving as receptors for signaling molecules, and providing structural support to the cell membrane.

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  • 9. 

    What structures are included in integral/transmembrane proteins?

    • A.

      Pumps

    • B.

      Cell membrane

    • C.

      Protein channels and carrier proteins

    • D.

      Vesicles

    Correct Answer
    C. Protein channels and carrier proteins
    Explanation
    Integral/transmembrane proteins are proteins that are embedded within the cell membrane. They span across the lipid bilayer, with parts of the protein exposed on both sides of the membrane. These proteins play crucial roles in transporting molecules and ions across the membrane. Protein channels are specific integral proteins that form pores or channels, allowing the selective passage of molecules or ions. Carrier proteins, on the other hand, bind to specific molecules and undergo conformational changes to transport them across the membrane. Therefore, the correct answer is protein channels and carrier proteins.

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  • 10. 

    What organic compound is often attached to integral proteins?

    • A.

      Carbohydrates

    • B.

      Proteins

    • C.

      Lipids

    • D.

      RNA

    Correct Answer
    A. Carbohydrates
    Explanation
    Carbohydrates are often attached to integral proteins in a process known as glycosylation. This modification plays a crucial role in various cellular processes, including cell adhesion, signaling, and immune response. By attaching carbohydrates to integral proteins, cells can enhance their functionality and recognition by other cells. Therefore, carbohydrates are the organic compound that is commonly attached to integral proteins.

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  • 11. 

    What is the main purpose of a cell?

    • A.

      No real purpose

    • B.

      To house little tiny elves

    • C.

      Keep organisms structured

    • D.

      To maintain homeostasis

    Correct Answer
    D. To maintain homeostasis
    Explanation
    The main purpose of a cell is to maintain homeostasis. Homeostasis refers to the ability of an organism or cell to maintain a stable internal environment despite external changes. Cells regulate various factors such as temperature, pH, and nutrient levels to ensure optimal conditions for their functioning. This balance is crucial for the survival and proper functioning of the cell and the organism as a whole.

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  • 12. 

    What is the best definition of equilibrium?

    • A.

      Slightly higher concentration outside the cell compared to the inside of the cell.

    • B.

      Equal amounts of a cell in different parts of an organism.

    • C.

      Equal concentrations of a substance inside and outside of the cell.

    • D.

      Slightly lower concentration inside the cell compared to the outside of the cell

    Correct Answer
    C. Equal concentrations of a substance inside and outside of the cell.
    Explanation
    Equilibrium refers to a state in which there is a balance or equal distribution of a substance inside and outside of a cell. In this state, there is no net movement of the substance across the cell membrane, as the concentration is the same on both sides. This is important for the proper functioning of cells, as it allows for the maintenance of homeostasis and the exchange of necessary molecules and ions.

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  • 13. 

    What is one of the most important ways in which cells maintain homeostasis?

    • A.

      Keeping the amount of cytoplasm at a certain level

    • B.

      Keeping all the organelles of the cell healthy

    • C.

      Controlling what the organelles in the cell do

    • D.

      Controlling what moves across the cell membrane

    Correct Answer
    D. Controlling what moves across the cell membrane
    Explanation
    Cells maintain homeostasis by controlling what moves across the cell membrane. The cell membrane acts as a selective barrier, allowing certain substances to enter or leave the cell while preventing others from doing so. This control over the movement of molecules and ions is crucial for maintaining the internal environment of the cell and ensuring that the necessary nutrients and molecules are present in the right concentrations. By regulating the movement of substances across the cell membrane, cells are able to maintain the balance and stability required for proper functioning.

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  • 14. 

    Molecules prefer to congregate in one area.

    • A.

      True

    • B.

      False

    Correct Answer
    B. False
    Explanation
    Molecules tend to disperse or spread out evenly in a given space rather than congregate in one area. This tendency is governed by the principle of diffusion, where molecules move from regions of higher concentration to regions of lower concentration until equilibrium is reached.

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  • 15. 

    What does the concentration gradient determine?

    • A.

      How fast a molecule crosses the membrane

    • B.

      How fast the cell will fill up

    • C.

      How fast the cell can move

    • D.

      How fast the flagellum will be able to grab onto an object

    Correct Answer
    A. How fast a molecule crosses the membrane
    Explanation
    The concentration gradient determines how fast a molecule crosses the membrane because it refers to the difference in concentration of a substance on either side of the membrane. This difference creates a driving force for molecules to move from an area of higher concentration to an area of lower concentration, which is known as diffusion. The steeper the concentration gradient, the faster the molecules will move across the membrane through diffusion. Therefore, the concentration gradient directly affects the rate at which molecules can cross the membrane.

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  • 16. 

    When concentrations are vastly different, how do molecules move, and how do they move when concentrations are similar?

    • A.

      Slowly/quickly

    • B.

      Quickly/slowly

    • C.

      Quickly/at the same speed

    • D.

      At the same speed/slowly

    Correct Answer
    B. Quickly/slowly
    Explanation
    If the concentrations of molecules are vastly different, they will move quickly. This is because there is a greater concentration gradient, causing molecules to move from an area of high concentration to an area of low concentration more rapidly. On the other hand, if the concentrations are similar, the molecules will move slowly. This is because there is a smaller concentration gradient, resulting in a slower rate of diffusion as molecules have less distance to travel to reach equilibrium.

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  • 17. 

    Do molecules stop moving when equilibrium is reached?

    • A.

      True

    • B.

      False

    Correct Answer
    A. True
    Explanation
    When equilibrium is reached, it means that the rate of molecules moving in one direction is equal to the rate of molecules moving in the opposite direction. However, this does not mean that the molecules will stop moving altogether. Even at equilibrium, the molecules will continue to move, albeit in a random and constant manner. This movement is known as thermal motion and is a fundamental property of matter. Therefore, the statement that substance molecules will not stop moving when equilibrium is reached is true.

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  • 18. 

    What are the three types of passive transport?

    • A.

      Simple diffusion, facilitated diffusion, and pumps

    • B.

      Exocytosis, endocytosis, pumps

    • C.

      Exocytosis, endocytosis, osmosis

    • D.

      Simple diffusion, facilitated diffusion, and osmosis

    Correct Answer
    D. Simple diffusion, facilitated diffusion, and osmosis
    Explanation
    The correct answer is simple diffusion, facilitated diffusion, and osmosis. Passive transport refers to the movement of substances across a cell membrane without the use of energy. Simple diffusion involves the movement of molecules from an area of high concentration to an area of low concentration. Facilitated diffusion involves the movement of molecules with the help of transport proteins. Osmosis is the movement of water molecules across a semipermeable membrane from an area of lower solute concentration to an area of higher solute concentration. These three types of passive transport play a crucial role in maintaining the balance of substances within a cell.

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  • 19. 

    When does simple diffusion occur?

    • A.

      When something moves from a higher concentration to a lower concentration, randomly

    • B.

      When something moves from a lower concentration to a higher concentration

    • C.

      When something stays the same concentration

    • D.

      When something starts to eat away at the cell membrane

    Correct Answer
    A. When something moves from a higher concentration to a lower concentration, randomly
    Explanation
    Simple diffusion occurs when something moves from a higher concentration to a lower concentration, randomly. This process happens due to the random movement of particles, where they naturally move from an area of high concentration to an area of low concentration until equilibrium is reached. It does not require any external energy or assistance to occur.

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  • 20. 

    Does active transport require energy?

    • A.

      When energy is needed to feed the cell

    • B.

      When no energy is needed to help substances move

    • C.

      When energy is needed to move a substance across the cell membrane

    • D.

      When small bits of energy are needed to make the cell move more quickly

    Correct Answer
    C. When energy is needed to move a substance across the cell membrane
    Explanation
    Active transport occurs when energy is needed to move a substance across the cell membrane. This process requires the cell to expend energy in order to transport molecules or ions against their concentration gradient, from an area of lower concentration to an area of higher concentration. This is in contrast to passive transport, where substances move across the cell membrane without the need for energy. Active transport is essential for maintaining proper cell function and allowing the cell to take up necessary nutrients or remove waste products.

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  • 21. 

    Active transport requires energy.

    • A.

      True

    • B.

      False

    Correct Answer
    A. True
    Explanation
    Active transport is a process in which substances are moved across a cell membrane against their concentration gradient, from an area of lower concentration to an area of higher concentration. This movement requires the expenditure of energy in the form of ATP (adenosine triphosphate). Therefore, the statement that active transport requires energy is true.

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  • 22. 

    Which of the following are major modes of active transport?

    • A.

      Endocytosis

    • B.

      Exocytosis

    • C.

      Osmosis

    • D.

      Pumps

    • E.

      Vacuoles

    Correct Answer(s)
    A. Endocytosis
    B. Exocytosis
    D. Pumps
    Explanation
    The correct answer includes the major modes of active transport, which are endocytosis, exocytosis, and pumps. Endocytosis is the process by which cells take in materials from the outside by engulfing them. Exocytosis is the opposite process, where cells release materials to the outside by fusing vesicles with the cell membrane. Pumps are proteins that actively transport molecules across the cell membrane against their concentration gradient. Therefore, these three options are the major modes of active transport.

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  • 23. 

    What is a pump in cellular transport?

    • A.

      A vesicle

    • B.

      A carrier protein

    • C.

      A channel protein

    • D.

      A vacuole

    Correct Answer
    B. A carrier protein
    Explanation
    A pump is a type of carrier protein. Carrier proteins are membrane proteins that facilitate the transport of molecules across cell membranes. They bind to specific molecules, such as ions or small molecules, and undergo conformational changes to transport them across the membrane. Pumps are a specific type of carrier protein that use energy, such as ATP, to actively transport molecules against their concentration gradient.

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  • 24. 

    Is the sodium-potassium pump one of the most important membrane pumps in animal cells?

    • A.

      True

    • B.

      False

    Correct Answer
    A. True
    Explanation
    The sodium-potassium pump is indeed one of the most important membrane pumps in animal cells. It helps maintain the proper balance of sodium and potassium ions inside and outside the cell, which is crucial for various cellular processes such as nerve impulse transmission and muscle contraction. This pump actively transports three sodium ions out of the cell for every two potassium ions it brings in, using ATP as an energy source. This constant pumping action is essential for maintaining the cell's resting membrane potential and overall cell function.

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  • 25. 

    Where are sodium ions more concentrated, and where are potassium ions more concentrated?

    • A.

      Inside/outside

    • B.

      Outside/inside

    • C.

      Inside/inside

    • D.

      Outside/outside

    Correct Answer
    B. Outside/inside
    Explanation
    Sodium ions are usually more concentrated outside of the cell because they are actively pumped out of the cell by the sodium-potassium pump. On the other hand, potassium ions are usually more concentrated inside the cell because they are actively pumped into the cell by the same pump. This concentration gradient is important for various cellular processes, including the generation of electrical signals and the maintenance of cell volume.

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  • 26. 

    Does the sodium-potassium pump transport both sodium and potassium ions against their concentration gradients?

    • A.

      True

    • B.

      False

    Correct Answer
    A. True
    Explanation
    The sodium-potassium pump is a vital membrane protein that maintains the concentration gradients of sodium and potassium ions across the cell membrane. It actively transports three sodium ions out of the cell for every two potassium ions it brings in, against their respective concentration gradients. This process requires energy in the form of ATP. Therefore, the statement that the sodium-potassium pump transports both ions against their concentration gradients is true.

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  • 27. 

    Why is the sodium-potassium pump important?

    • A.

      It prevents the cytoplasm from being clogged.

    • B.

      It prevents the inside of the cell from having too many sodium ions.

    • C.

      It prevents the cell from lacking oxygen.

    • D.

      It prevents the outside of the cell from having too many sodium ions attached.

    Correct Answer
    B. It prevents the inside of the cell from having too many sodium ions.
    Explanation
    The sodium-potassium pump is important because it prevents the inside of the cell from having too many sodium ions pile up. This pump actively transports sodium ions out of the cell and potassium ions into the cell, maintaining the proper balance of these ions. This balance is crucial for various cellular processes, such as maintaining the cell's resting membrane potential and facilitating nerve impulse transmission.

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  • 28. 

    What do many cells use the sodium ion concentration to achieve?

    • A.

      To provide the cell with ATP for energy.

    • B.

      To help the cell move.

    • C.

      Move other substances, such as glucose, across the cell membrane.

    • D.

      To assist in chemical reactions.

    Correct Answer
    C. Move other substances, such as glucose, across the cell membrane.
    Explanation
    Cells use the sodium ion concentration to move other substances, such as glucose, across the cell membrane. Sodium ions play a crucial role in the process of active transport, where they create a concentration gradient that allows the movement of other molecules against their concentration gradient. This process is essential for the uptake of nutrients like glucose into the cell, as well as the removal of waste products. By utilizing the sodium ion concentration, cells are able to regulate the movement of substances in and out of the cell, maintaining homeostasis and supporting various cellular functions.

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  • 29. 

    When substances are too large to move across the cell membrane using carrier proteins, what assists them?

    • A.

      Phospholipids

    • B.

      Vacuoles

    • C.

      Proteins stored in the cell membrane

    • D.

      Vesicles

    Correct Answer
    D. Vesicles
    Explanation
    Vesicles assist substances that are too big to move across the cell membrane with carrier proteins. Vesicles are small, membrane-bound sacs that transport substances within cells. They can fuse with the cell membrane, allowing the substances to be released outside the cell or taken into the cell. This process, known as endocytosis and exocytosis, enables the movement of large molecules or particles across the cell membrane.

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  • 30. 
    What mode of active transport is shown in the pictures above? - ProProfs

    What mode of active transport is shown in the pictures above?

    • A.

      Endocytosis

    • B.

      Exocytosis

    • C.

      Pumps

    • D.

      The pictures represent a mode of passive transport.

    Correct Answer
    B. Exocytosis
    Explanation
    The pictures depict exocytosis, which is a mode of active transport. Exocytosis is the process by which cells release substances from their cytoplasm into the extracellular space. In exocytosis, vesicles containing the substances fuse with the cell membrane and release their contents outside the cell. This process requires energy and is therefore considered active transport.

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  • 31. 

    How can phagocytosis, a type of endocytosis, be described?

    • A.

      Shrinking

    • B.

      Folding

    • C.

      Cell eating

    • D.

      Cell drinking

    Correct Answer
    C. Cell eating
    Explanation
    Phagocytosis is a process in which cells engulf and internalize solid particles or microorganisms. It is often referred to as "cell eating" because the cell surrounds the particle with its membrane and forms a vesicle called a phagosome. The phagosome then fuses with lysosomes, where the ingested material is broken down and digested. This process is important for immune defense and the removal of debris or pathogens from the body.

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  • 32. 

    Is receptor-mediated endocytosis when the cell membrane folds inward to form protein-coated pits that form vesicles?

    • A.

      True

    • B.

      False

    Correct Answer
    A. True
    Explanation
    Receptor-mediated endocytosis is a process in which the cell membrane folds inward to form protein-coated pits that ultimately form vesicles. This process allows the cell to selectively take in specific molecules or particles from the extracellular environment. The protein-coated pits contain specific receptors that bind to the target molecules, facilitating their internalization into the cell. Therefore, the statement "Receptor-mediated endocytosis is when the cell membrane folds inward to form protein-coated pits that form vesicles" is true.

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  • 33. 

    What is a hypertonic solution?

    • A.

      Same free water molecule concentration as the cytosol

    • B.

      Lower free water molecule concentration than the cytosol

    • C.

      Higher free water molecule concentration than the cytosol

    Correct Answer
    B. Lower free water molecule concentration than the cytosol
    Explanation
    A hypertonic solution has a lower free water molecule concentration than the cytosol. In other words, the solution has a higher solute concentration compared to the cytosol. This difference in concentration creates an osmotic pressure that causes water to move out of the cytosol and into the hypertonic solution, resulting in cell shrinkage or dehydration.

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  • 34. 
      What type of solution does this cell represent? - ProProfs

      What type of solution does this cell represent?

    • A.

      Hypertonic solution

    • B.

      Hypotonic solution

    • C.

      Isotonic solution

    Correct Answer
    B. Hypotonic solution
    Explanation
    This cell represents a hypotonic solution. A hypotonic solution has a lower concentration of solutes compared to the cell. When a cell is placed in a hypotonic solution, water moves into the cell through osmosis, causing the cell to swell and potentially burst.

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  • 35. 

    Do plant cells prefer an isotonic solution?

    • A.

      True

    • B.

      False

    Correct Answer
    B. False
    Explanation
    Plant cells actually prefer a hypotonic solution, not an isotonic one. In a hypotonic solution, the concentration of solutes outside the cell is lower than inside the cell, causing water to move into the cell through osmosis. This influx of water helps maintain turgor pressure, which is important for plant cell structure and function. In an isotonic solution, the concentration of solutes is equal inside and outside the cell, resulting in no net movement of water.

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  • 36. 

    What kind of solution do animal cells prefer to be in?

    • A.

      Hypertonic

    • B.

      Hypotonic

    • C.

      Isotonic

    Correct Answer
    C. Isotonic
    Explanation
    Animal cells prefer to be in an isotonic solution because it allows for a balanced exchange of water and solutes between the cell and its environment. In an isotonic solution, the concentration of solutes outside the cell is equal to the concentration inside the cell, resulting in no net movement of water across the cell membrane. This ensures that the cell maintains its shape and normal functioning without losing or gaining excessive amounts of water. Hypertonic solutions have a higher solute concentration than the cell, causing water to leave the cell and potentially leading to cell shrinkage. Hypotonic solutions have a lower solute concentration than the cell, causing water to enter the cell and potentially leading to cell swelling or bursting.

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  • 37. 
    What does the illustration represent? - ProProfs

    What does the illustration represent?

    • A.

      Vesicle moving

    • B.

      A sodium-Glucose cotransport

    • C.

      A sodium-potassium pump

    Correct Answer
    C. A sodium-potassium pump
    Explanation
    The illustration most likely represents a sodium-potassium pump. This is because a sodium-potassium pump is a type of active transport mechanism that moves sodium ions out of a cell and potassium ions into the cell. The pump uses energy from ATP to perform this task, and it helps maintain the electrochemical gradient across the cell membrane. The other options, vesicle moving and sodium-glucose cotransport, do not involve the specific mechanism of a sodium-potassium pump.

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  • 38. 

    How does the sodium-potassium pump contribute to maintaining the resting membrane potential in neurons?

    • A.

      By allowing the passive diffusion of sodium ions into the cell

    • B.

      By exporting three sodium ions out of the cell and importing two potassium ions into the cell using ATP

    • C.

      By importing three sodium ions into the cell and exporting two potassium ions out of the cell using ATP

    • D.

      By creating an equal concentration of sodium and potassium ions inside and outside the cell

    Correct Answer
    B. By exporting three sodium ions out of the cell and importing two potassium ions into the cell using ATP
    Explanation
    The sodium-potassium pump is an active transport mechanism that uses ATP to move three sodium ions out of the cell and two potassium ions into the cell, against their concentration gradients. This action helps maintain the resting membrane potential by ensuring a higher concentration of sodium ions outside the cell and a higher concentration of potassium ions inside the cell, making the inside of the cell more negatively charged relative to the outside. The other options do not accurately describe this process.

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  • 39. 

    Which of the following correctly describes the process of pinocytosis?

    • A.

      The cell engulfs solid particles.

    • B.

      The cell takes in large molecules through receptor proteins.

    • C.

      The cell engulfs extracellular fluid and dissolved substances. 

    • D.

      The cell releases waste products outside the membrane.

    Correct Answer
    C. The cell engulfs extracellular fluid and dissolved substances. 
  • 40. 

    What role does the sodium-potassium pump play in secondary active transport?

    • A.

      It directly uses ATP to transport glucose across the membrane.

    • B.

      It creates an ion gradient that drives the movement of other substances. 

    • C.

      It equalizes the concentrations of sodium and potassium ions inside and outside the cell.

    • D.

      It prevents water loss through the cell membrane.

    Correct Answer
    B. It creates an ion gradient that drives the movement of other substances. 
Lindsey Block |PhD (Cellular & Molecular Biology) |
Lecturer | Molecular Biologist | Reproductive Scientist
Lindsey, Ph.D. in cellular and molecular biology from the University of Wisconsin-Madison, specializes in Zika's impact on conception and preterm birth biomarkers. She completed courese on Advanced Cell Biology at the University of Illinois at Urbana-Champaign and Advanced Virology at University College Cork. Lindsey's accolades include three first-author papers, three fellowships, and active participation in five conference presentations. Currently associated with the University of Pennsylvania through a T32 NIH Postdoctoral Fellowship, she continues to contribute significantly to her field, combining academic rigor with practical research to advance understanding in reproductive health and prenatal care. Currently, she is a full time lecturer at Northwestern University - The Feinberg School of Medicine.

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  • Current Version
  • Nov 27, 2024
    Quiz Edited by
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    Expert Reviewed by
    Lindsey Block
  • Nov 29, 2010
    Quiz Created by
    BiologyTests

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