Microbiology By Body System Chapter 3

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Questions and Answers
  • 1. 

    Using a microscope, you observe an amoeba moving toward a food source. This is an example of  

    • A.

      Metabolism

    • B.

      Cellular structure

    • C.

      Responsiveness

    • D.

      Growth

    • E.

      Reproduction

    Correct Answer
    C. Responsiveness
    Explanation
    The observation of an amoeba moving toward a food source indicates responsiveness. Responsiveness is the ability of an organism to detect and respond to changes in its environment. In this case, the amoeba is able to sense the presence of the food source and move towards it, demonstrating its responsiveness to the stimulus.

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  • 2. 

    Which of the following is NOT a component of bacterial flagella?  

    • A.

      Hook

    • B.

      Basal body

    • C.

      Filament

    • D.

      Flagellin

    • E.

      Tubulin

    Correct Answer
    E. Tubulin
    Explanation
    Tubulin is not a component of bacterial flagella. Tubulin is a protein that forms microtubules, which are structural components of eukaryotic cells, not bacterial cells. Bacterial flagella are composed of three main components: the filament, hook, and basal body. The filament is the long, helical structure that extends from the cell surface and is made up of flagellin protein. The hook connects the filament to the basal body, which anchors the flagellum to the cell membrane and acts as a motor to rotate the flagellum.

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  • 3. 

    Which of the following statements concerning the characteristics of life is FALSE?  

    • A.

      Viruses have some, but not all, of the characteristics of living things.

    • B.

      Organisms may not exhibit all of the characteristics of life at all times.

    • C.

      Reproduction can occur asexually or sexually in living things.

    • D.

      Reproduction is defined as an increase in the size of an organism.

    • E.

      Living things store metabolic energy in the form of chemicals such as ATP.

    Correct Answer
    D. Reproduction is defined as an increase in the size of an organism.
    Explanation
    Reproduction is not defined as an increase in the size of an organism. Reproduction refers to the production of offspring or the creation of new individuals of the same species. It does not necessarily involve an increase in size.

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  • 4. 

    Bacterial pili can be described as  

    • A.

      Composed of tubulin

    • B.

      Composed of peptidoglycan

    • C.

      Solid, rigid protein structures.

    • D.

      A means of locomotion.

    • E.

      Specialized fimbriae.

    Correct Answer
    E. Specialized fimbriae.
    Explanation
    Bacterial pili are specialized fimbriae. Fimbriae are thin, hair-like structures that extend from the surface of bacteria. They play a crucial role in attachment to surfaces, such as host tissues or other bacteria, and are involved in processes like biofilm formation and colonization. Unlike tubulin or peptidoglycan, which are components of the bacterial cytoskeleton and cell wall respectively, pili are not solid or rigid protein structures. While pili can aid in bacterial movement, they are primarily known for their adhesive properties and are considered specialized fimbriae.

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  • 5. 

    Which of the following bacterial cell structures plays an important role in the creation of biofilms?  

    • A.

      Glycocalyces

    • B.

      Fimbrae

    • C.

      Pili

    • D.

      Flagella

    • E.

      Both fimbrae and glycocalyces

    Correct Answer
    E. Both fimbrae and glycocalyces
    Explanation
    Both fimbrae and glycocalyces play an important role in the creation of biofilms. Fimbrae are short, hair-like structures on the surface of bacterial cells that help them adhere to surfaces and each other, promoting the formation of biofilms. Glycocalyces are gelatinous, sticky substances that surround bacterial cells, providing protection and aiding in attachment to surfaces. Together, fimbrae and glycocalyces enhance the ability of bacteria to form biofilms, which are communities of bacteria that adhere to surfaces and can be difficult to remove.

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  • 6. 

    Short, hairlike structures used only by eukaryotic cells for movement are called  

    • A.

      Pili

    • B.

      Flagella

    • C.

      Fimbriae

    • D.

      Cilia

    • E.

      Pseudopodia

    Correct Answer
    D. Cilia
    Explanation
    Cilia are short, hairlike structures found on the surface of eukaryotic cells that are used for movement. They are typically present in large numbers and work together in a coordinated manner to create a wave-like motion, allowing the cell or surrounding fluid to move. Cilia are found in various organisms, including single-celled organisms like paramecia and multicellular organisms like humans. They play important roles in processes such as the movement of mucus in the respiratory tract, the propulsion of sperm, and the movement of fluid in the reproductive system.

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  • 7. 

    A bacterial cell moving toward light would be an example of  

    • A.

      Positive phototaxis.

    • B.

      Negative phototaxis.

    • C.

      Positive chemotaxis.

    • D.

      Negative chemootaxis.

    • E.

      Tumbles

    Correct Answer
    A. Positive phototaxis.
    Explanation
    A bacterial cell moving toward light would exhibit positive phototaxis because it is being attracted to the light source. Phototaxis refers to the movement of an organism in response to light, and positive phototaxis specifically indicates movement towards the light.

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  • 8. 

    Which of the following statements concerning prokaryotic flagella is FALSE?  

    • A.

      Treponema is an example of a bacterium that has an endoflagellum.

    • B.

      Prokaryotic flagella are anchored to the cell wall by means of the basal body.

    • C.

      A ʺrunʺ results from counterclockwise movement of the flagellum.

    • D.

      Prokaryotic flagella are composed of tubulin.

    • E.

      Prokaryotic flagella can rotate 360 degrees.

    Correct Answer
    D. Prokaryotic flagella are composed of tubulin.
    Explanation
    Prokaryotic flagella are not composed of tubulin. Tubulin is a protein that makes up the cytoskeleton in eukaryotic cells, not prokaryotic cells. Prokaryotic flagella are composed of a protein called flagellin.

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  • 9. 

    Which of the following statements concerning pili is FALSE?  

    • A.

      A bacterial cell will usually have only one or two pili.

    • B.

      Pili facilitate the transfer of DNA among bacterial cells

    • C.

      Not all bacteria have pili.

    • D.

      Pili are long, hollow tubules.

    • E.

      Pili are longer than fimbriae and flagella.

    Correct Answer
    E. Pili are longer than fimbriae and flagella.
    Explanation
    Pili are not longer than fimbriae and flagella.

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  • 10. 

    Which of the following is NOT a component of bacterial cell walls?  

    • A.

      Lipoteichoic acids

    • B.

      Tubulin

    • C.

      Peptidoglycan

    • D.

      tetrapeptide

    • E.

      Mycolic acid

    Correct Answer
    B. Tubulin
    Explanation
    Tubulin is not a component of bacterial cell walls. Tubulin is a protein that forms microtubules, which are important for cell division and maintaining cell structure in eukaryotic cells. Bacterial cell walls are primarily composed of peptidoglycan, which provides structural support and protection to the cell. Lipoteichoic acids, tetrapeptide, and mycolic acid are all components that can be found in bacterial cell walls.

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  • 11. 

    Bacterial cell walls that are resistant to drying contain  

    • A.

      Waxes

    • B.

      Carbohydrates

    • C.

      Amino acids

    • D.

      Lipopolysaccharide

    • E.

      Tubulin

    Correct Answer
    A. Waxes
    Explanation
    Bacterial cell walls that are resistant to drying contain waxes. Waxes are hydrophobic substances that can form a protective barrier on the surface of the cell wall, preventing water loss and dehydration. This helps the bacteria to survive in dry environments. Carbohydrates, amino acids, lipopolysaccharide, and tubulin do not provide the same level of resistance to drying as waxes do.

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  • 12. 

    Lipid A is also known as    

    • A.

      Teichoic acid.

    • B.

      Tetrapeptide.

    • C.

      Endotoxin.

    • D.

      Lipopolysaccharide.

    • E.

      Mycolic acid.

    Correct Answer
    C. Endotoxin.
    Explanation
    Lipid A is known as endotoxin because it is a component of the outer membrane of Gram-negative bacteria and is responsible for the toxic effects associated with bacterial infections. When released into the bloodstream, lipid A triggers an immune response, leading to inflammation and other symptoms of infection.

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  • 13. 

    Bacteria of the genus Mycoplasma are distinguished from other bacterial cells by

    • A.

      Cell walls composed solely of amino acids.

    • B.

      Unique ribosomes.

    • C.

      the absence of a cytoplasmic membrane.

    • D.

      The presence of mycolic acid in their cell walls.

    • E.

      The absence of a cell wall.

    Correct Answer
    E. The absence of a cell wall.
    Explanation
    Mycoplasma bacteria are unique because they lack a cell wall. Most bacteria have a cell wall made of peptidoglycan, which provides structural support and protection. However, Mycoplasma bacteria have evolved to survive without a cell wall, making them more flexible and able to adopt various shapes. This absence of a cell wall also makes them resistant to certain antibiotics that target the cell wall. Instead, Mycoplasma bacteria have a plasma membrane that directly surrounds their cytoplasm, allowing them to still carry out essential cellular functions.

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  • 14. 

    Lipid-soluble molecules would be expected to cross the cytoplasmic membrane by which of the following processes?

    • A.

      Facilitated diffusion

    • B.

      Diffusion

    • C.

      Osmosis

    • D.

      Active transport

    • E.

      Group translocation

    Correct Answer
    B. Diffusion
    Explanation
    Lipid-soluble molecules are able to passively diffuse across the cytoplasmic membrane. Diffusion is the process by which molecules move from an area of high concentration to an area of low concentration, without the need for energy or a transport protein. Since lipid-soluble molecules can dissolve in the lipid bilayer of the membrane, they can easily diffuse through it. Facilitated diffusion requires the assistance of a transport protein, osmosis is the movement of water molecules, active transport requires energy, and group translocation involves the modification of molecules during transport.

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  • 15. 

    ATP is expended in which of the following processes?

    • A.

      Active transport

    • B.

      Diffusion

    • C.

      Facilitated diffusion

    • D.

      Group atransloction

    • E.

      Both active transport and group translocation

    Correct Answer
    E. Both active transport and group translocation
    Explanation
    ATP is expended in both active transport and group translocation. Active transport is a process that requires energy to move substances against their concentration gradient, from an area of low concentration to an area of high concentration. This process is essential for maintaining ion gradients and transporting molecules across cell membranes. Group translocation is a type of active transport in which a molecule is chemically modified as it is transported across the membrane, requiring the use of ATP. Therefore, in both active transport and group translocation, ATP is used as a source of energy to drive the transport processes.

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  • 16. 

    Which of the following statements concerning osmosis is FALSE?

    • A.

      Osmosis stops when the system reaches equilibrium

    • B.

      During osmosis, water crosses to the side of the membrane with a lower solute concentration.

    • C.

      Osmosis requires a selectively permeable membrane

    • D.

      Cells placed in hypotonic solutions will gain water

    • E.

      Crenation results when cells are placed in a hypertonic solution.

    Correct Answer
    B. During osmosis, water crosses to the side of the membrane with a lower solute concentration.
    Explanation
    During osmosis, water actually crosses to the side of the membrane with a higher solute concentration, not a lower solute concentration.

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  • 17. 

    Endospores survive a variety of harsh conditions in part because of the presence of

    • A.

      Dipicolinic acid.

    • B.

      Lipopolysaccharide.

    • C.

      Mycolic acid.

    • D.

      Hopanoids.

    • E.

      Glycopteinsro.

    Correct Answer
    A. Dipicolinic acid.
    Explanation
    Endospores are dormant, highly resistant structures formed by certain bacteria to survive unfavorable conditions. Dipicolinic acid is a major component found in the core of endospores and plays a crucial role in their resistance. It helps in stabilizing DNA and proteins, protecting them from damage caused by heat, radiation, and chemicals. Additionally, dipicolinic acid aids in the dehydration of the spore, preventing the growth of harmful microorganisms. Therefore, the presence of dipicolinic acid contributes to the ability of endospores to withstand harsh conditions and ensures their survival.

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  • 18. 

    The glycocalyx of a eukaryotic cell performs all of the following functions EXCEPT

    • A.

      Transfer of genetic material between cells.

    • B.

      Anchoring cells to each other.

    • C.

      Protection against dehydration

    • D.

      Strengthening the cell surface

    • E.

      Cellular recognition and communication.

    Correct Answer
    A. Transfer of genetic material between cells.
    Explanation
    The glycocalyx of a eukaryotic cell performs several functions such as anchoring cells to each other, protection against dehydration, strengthening the cell surface, and cellular recognition and communication. However, it does not play a role in the transfer of genetic material between cells. This function is typically carried out by other structures such as the nucleus, mitochondria, or plasmids.

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  • 19. 

    Which of the following is unique to archaea?

    • A.

      LPS

    • B.

      Peptidoglycan

    • C.

      Fimbriae

    • D.

      Pili

    • E.

      Hami

    Correct Answer
    E. Hami
    Explanation
    Hami is a unique feature found only in archaea. It is a proteinaceous structure that resembles a grappling hook and is used by archaea to attach to surfaces or other cells. LPS, peptidoglycan, fimbriae, and pili are all features found in bacteria and not specific to archaea. Therefore, the presence of hami distinguishes archaea from bacteria.

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  • 20. 

    When cells are placed in a hypertonic solution, they lose water and shrivel. This process is called

    • A.

      Passive transport.

    • B.

      Plasmalemma

    • C.

      Crenation

    • D.

      Endocytosis

    • E.

      Periplasm

    Correct Answer
    C. Crenation
    Explanation
    When cells are placed in a hypertonic solution, there is a higher concentration of solutes outside the cell compared to inside. As a result, water moves out of the cell through osmosis, causing the cell to lose water and shrink. This process is called crenation.

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  • 21. 

    Which of the following statements concerning endocytosis and exocytosis is CORRECT?

    • A.

      Waste products and secretions are exported from the cell during endocytosis.

    • B.

      Phagocytosis is a type of endocytosis in which liquids are brought into the cell.

    • C.

      These processes occur in both prokaryotes and eukaryotes.

    • D.

      Endocytosis produces a structure called a food vesicle.

    • E.

      Endocytosis is a form of passive transport, whereas exocytosis is a form of active transport.

    Correct Answer
    D. Endocytosis produces a structure called a food vesicle.
    Explanation
    During endocytosis, the cell takes in substances from the external environment by forming a vesicle around them. This process can include the uptake of various materials, including nutrients, ions, and even entire cells. One specific type of endocytosis is phagocytosis, which involves the engulfment of solid particles such as bacteria or cell debris. The formation of a food vesicle is a characteristic feature of phagocytosis, where the engulfed material is enclosed in a vesicle called a phagosome. This statement correctly describes the formation of a food vesicle during endocytosis.

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  • 22. 

    One lipid found in eukaryotes but NOT in prokaryotes is

    • A.

      Lipopolysaccharide

    • B.

      Fatty acid

    • C.

      Phospholipid

    • D.

      Steroid

    • E.

      Hopanoid

    Correct Answer
    D. Steroid
    Explanation
    Steroids are a class of lipids that are found in eukaryotes but not in prokaryotes. They play important roles in various biological processes, including cell signaling, membrane fluidity, and hormone regulation. Prokaryotes lack the enzymes necessary for steroid synthesis, which is why they do not contain steroids. Lipopolysaccharide, fatty acids, phospholipids, and hopanoids can be found in both eukaryotes and prokaryotes, making them incorrect options.

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  • 23. 

    Which of the following statements concerning centrioles is FALSE?

    • A.

      Centrioles are found in a region of the cell called the centrosome.

    • B.

      Centrioles are believed to play a role in cellular processes such as mitosis and cytokinesis.

    • C.

      Centrioles are composed of microtubules.

    • D.

      The structure of centrioles is similar to that of eukaryotic flagella and cilia.

    • E.

      Centrioles are found in all organisms except prokaryotes.

    Correct Answer
    E. Centrioles are found in all organisms except prokaryotes.
    Explanation
    Centrioles are found in a region of the cell called the centrosome and are believed to play a role in cellular processes such as mitosis and cytokinesis. Centrioles are composed of microtubules and their structure is similar to that of eukaryotic flagella and cilia. However, centrioles are not found in prokaryotes, which are organisms that lack a nucleus and other membrane-bound organelles.

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  • 24. 

    Which of the following is classified as a membranous organelle of eukaryotic cells?

    • A.

      Centriole

    • B.

      Endoplasmic reticulum

    • C.

      Cytoskeleton

    • D.

      Ribosome

    • E.

      Both ribosomes and centrioles

    Correct Answer
    B. Endoplasmic reticulum
    Explanation
    The endoplasmic reticulum is classified as a membranous organelle of eukaryotic cells. It is a network of membranes that is involved in the synthesis, folding, and transport of proteins. It also plays a role in lipid metabolism and calcium storage. The endoplasmic reticulum is composed of both rough and smooth regions, with the rough endoplasmic reticulum having ribosomes attached to its surface. Therefore, the correct answer is endoplasmic reticulum.

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  • 25. 

    Which of the following is NOT associated with the nucleus of a eukaryotic cell?

    • A.

      Chromatin

    • B.

      Histones

    • C.

      Nucleolus

    • D.

      Nucleoplasm

    • E.

      Cristae

    Correct Answer
    E. Cristae
    Explanation
    Cristae is not associated with the nucleus of a eukaryotic cell. Cristae are the folds found in the inner membrane of mitochondria, which are responsible for cellular respiration and energy production. The nucleus, on the other hand, contains chromatin (DNA and proteins), histones (proteins that help in DNA packaging), nucleolus (site of ribosome production), and nucleoplasm (the fluid inside the nucleus).

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  • 26. 

    Which of the following statements about the endoplasmic reticulum (ER) is CORRECT?

    • A.

      The smooth ER is a site of ATP synthesis.

    • B.

      The ER is a lipid storage organelle.

    • C.

      The rough ER is the site of lipid synthesis.

    • D.

      The smooth ER has ribosomes associated with it.

    • E.

      The ER is a transport system within the cytoplasm.

    Correct Answer
    E. The ER is a transport system within the cytoplasm.
    Explanation
    The endoplasmic reticulum (ER) is a network of membranes that extends throughout the cytoplasm of eukaryotic cells. It plays a crucial role in the transport of proteins and lipids within the cell. The ER is involved in the synthesis, folding, and modification of proteins, as well as the synthesis of lipids. The rough ER, which has ribosomes associated with it, is primarily responsible for protein synthesis, while the smooth ER is involved in lipid metabolism and detoxification. Therefore, the statement "The ER is a transport system within the cytoplasm" is correct because it accurately describes one of the main functions of the ER.

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  • 27. 

    Which of the following organelles is responsible for producing most of the ATP in a eukaryotic cell?

    • A.

      Lysosome

    • B.

      Smooth ER

    • C.

      Nucleus

    • D.

      Gogli body

    • E.

      Mitochondrion

    Correct Answer
    E. Mitochondrion
    Explanation
    The mitochondrion is responsible for producing most of the ATP in a eukaryotic cell. ATP, or adenosine triphosphate, is the main energy currency of cells. The mitochondrion is often referred to as the "powerhouse" of the cell because it carries out cellular respiration, a process that generates ATP through the breakdown of glucose and other molecules. The other organelles listed (lysosome, smooth ER, nucleus, and Golgi body) have important functions in the cell, but they do not play a direct role in ATP production.

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  • 28. 

    Chloroplasts differ from mitochondria in that they have

    • A.

      DNA

    • B.

      Two lipid bilayers.

    • C.

      70S ribosomes.

    • D.

      Crista

    • E.

      Light-harvesting pigments.

    Correct Answer
    E. Light-harvesting pigments.
    Explanation
    Chloroplasts differ from mitochondria in that they have light-harvesting pigments. Chloroplasts are organelles found in plant cells that are responsible for photosynthesis. They contain pigments, such as chlorophyll, which absorb light energy and convert it into chemical energy. This process allows plants to produce glucose and oxygen. On the other hand, mitochondria are responsible for cellular respiration and do not contain light-harvesting pigments. They have their own DNA, two lipid bilayers, and 70S ribosomes, which are features that chloroplasts do not possess.

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  • 29. 

    Which of the following is paired INCORRECTLY?

    • A.

      Bacteria: peptidoglycan cell wall

    • B.

      Archaea: polysaccharide cell wall

    • C.

      Algae: glycocalyx present

    • D.

      Plants: cellulose cell wall

    • E.

      Fungi: cellulose, chitin, and/or glucomannan cell wall

    Correct Answer
    C. Algae: glycocalyx present
    Explanation
    Algae: glycocalyx present is paired incorrectly because glycocalyx is not present in algae. Glycocalyx is a layer of polysaccharides and proteins that surround the cell membrane in some bacteria and animal cells, but it is not found in algae. Algae have a cell wall composed of cellulose, not glycocalyx.

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  • 30. 

    Which of the following statements concerning the endosymbiotic theory is FALSE?

    • A.

      Mitochondria and chloroplasts can divide independently of the cell.

    • B.

      The cristae of mitochondria evolved from the cytoplasmic membrane of prokaryotes.

    • C.

      The endosymbiotic theory is not universally accepted.

    • D.

      Mitochondria and chloroplasts have their own DNA and ribosomes.

    • E.

      Eukaryotes were formed from the union of small anaerobic cells by larger aerobic cells.

    Correct Answer
    E. Eukaryotes were formed from the union of small anaerobic cells by larger aerobic cells.
    Explanation
    The correct answer is "Eukaryotes were formed from the union of small anaerobic cells by larger aerobic cells." This statement is false because according to the endosymbiotic theory, eukaryotes were formed from the symbiotic relationship between smaller prokaryotic cells and larger host cells. The smaller cells eventually evolved into mitochondria and chloroplasts, which are now essential organelles in eukaryotic cells.

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  • 31. 

    Which of the following is NOT a function of the eukaryotic cytoskeleton?

    • A.

      Anchors organelles

    • B.

      Gives shape to the cell

    • C.

      Aids in contraction of the cell

    • D.

      Packages cellular secretions

    • E.

      Performs endocytosis

    Correct Answer
    D. Packages cellular secretions
    Explanation
    The eukaryotic cytoskeleton is a network of protein filaments that provides structural support to the cell and helps in various cellular processes. It anchors organelles, gives shape to the cell, aids in contraction of the cell, and performs endocytosis. However, it does not directly participate in the packaging of cellular secretions. This function is primarily carried out by the Golgi apparatus and secretory vesicles.

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  • 32. 

    The accumulation of glucose 6-phosphate inside a bacterial cell via phosphorylation of glucose is an example of

    • A.

      Facilitated diffusion.

    • B.

      Osmosis.

    • C.

      Plasmolysis.

    • D.

      Group translocation.

    • E.

      Diffusion.

    Correct Answer
    D. Group translocation.
    Explanation
    Group translocation is a process in which a molecule is transported across a membrane while undergoing a chemical change. In this case, glucose 6-phosphate is phosphorylated inside the bacterial cell, which means a phosphate group is added to it. This modification allows the cell to accumulate glucose 6-phosphate against its concentration gradient, making it an example of group translocation. Facilitated diffusion, osmosis, plasmolysis, and simple diffusion do not involve a chemical change in the transported molecule.

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  • 33. 

    Which of the following molecules would be expected to cross the cytoplasmic membrane rapidly and without the use of transport proteins?

    • A.

      Large molecules

    • B.

      Small hydrophilic molecules

    • C.

      Small hydrophobic molecules

    • D.

      Ions

    • E.

      Both ions and hydrophilic molecules

    Correct Answer
    C. Small hydrophobic molecules
    Explanation
    Small hydrophobic molecules would be expected to cross the cytoplasmic membrane rapidly and without the use of transport proteins because the lipid bilayer of the membrane is composed of hydrophobic tails that repel water. Small hydrophobic molecules can dissolve in the lipid bilayer and pass through it easily, allowing them to rapidly cross the membrane without the need for transport proteins.

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  • 34. 

    Which of the following processes requires a carrier protein?

    • A.

      Active Transport

    • B.

      Endocytosis

    • C.

      Diffusion

    • D.

      Facilitated diffusion

    • E.

      Both facilitated diffusion and active transport

    Correct Answer
    E. Both facilitated diffusion and active transport
    Explanation
    Both facilitated diffusion and active transport require a carrier protein. Facilitated diffusion is a passive process where molecules move across the cell membrane with the help of specific carrier proteins. Active transport, on the other hand, is an energy-dependent process that moves molecules against their concentration gradient. In active transport, carrier proteins are also involved to transport molecules across the cell membrane. Therefore, both facilitated diffusion and active transport require carrier proteins to facilitate the movement of molecules across the cell membrane.

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  • 35. 

    Which of the following chemical substances contributes to the unique characteristics of acid-fast bacteria?

    • A.

      Endotoxin

    • B.

      Peptidoglycan

    • C.

      N-acetylglucosamine

    • D.

      Mycolic acid

    • E.

      Lipoteichoic acid

    Correct Answer
    D. Mycolic acid
    Explanation
    Mycolic acid is a waxy substance found in the cell walls of acid-fast bacteria, such as Mycobacterium tuberculosis. It contributes to the unique characteristics of these bacteria by making their cell walls impermeable to most stains and dyes. This property allows acid-fast bacteria to resist decolorization during the acid-fast staining procedure, which is used to identify them. Mycolic acid also helps protect acid-fast bacteria from the host immune system and contributes to their ability to survive in harsh environments.

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  • 36. 

    The cytoplasmic membranes of __________ contain phospholipids and proteins.

    • A.

      Archaeal cells

    • B.

      Eukaryotic cells

    • C.

      Bacterial cells

    • D.

      Both bacterial and eukaryotic cells

    • E.

      Archaeal, bacterial, and eukaryotic cells

    Correct Answer
    D. Both bacterial and eukaryotic cells
    Explanation
    The cytoplasmic membranes of both bacterial and eukaryotic cells contain phospholipids and proteins. Phospholipids make up the basic structure of the membrane, forming a lipid bilayer, while proteins are embedded within the membrane and perform various functions such as transport, signaling, and structural support. This is a characteristic feature of both bacterial and eukaryotic cells, indicating that the composition of their cytoplasmic membranes is similar.

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  • 37. 

    Membrane rafts are found in the cytoplasmic membranes of

    • A.

      Bacteria

    • B.

      Archaea

    • C.

      Eukaryotes.

    • D.

      Both archaea and bacteria.

    • E.

      Both archaea and eukaryotes.

    Correct Answer
    C. Eukaryotes.
    Explanation
    Membrane rafts are specialized microdomains that are found in the cytoplasmic membranes of eukaryotes. These rafts are composed of specific lipids and proteins that segregate and concentrate in certain areas of the membrane, playing a crucial role in various cellular processes such as signal transduction, membrane trafficking, and cell adhesion. While bacteria and archaea have their own unique membrane structures, membrane rafts are not found in their cytoplasmic membranes. Therefore, the correct answer is eukaryotes.

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  • 38. 

    Endocytosis and exocytosis are means of transport used by

    • A.

      Bacteria

    • B.

      All prokaryotes.

    • C.

      Archaea

    • D.

      Eukaryotes

    • E.

      No cells use both processes

    Correct Answer
    D. Eukaryotes
    Explanation
    Endocytosis and exocytosis are means of transport used by eukaryotes. These processes involve the uptake of materials into the cell through the formation of vesicles (endocytosis) and the release of materials out of the cell through the fusion of vesicles with the plasma membrane (exocytosis). Bacteria and archaea, being prokaryotes, lack membrane-bound organelles and therefore do not possess the machinery required for these processes. Therefore, eukaryotes are the only cells that use both endocytosis and exocytosis.

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  • 39. 

    Some __________ use group translocation as a means of transport.

    • A.

      Prokaryotes

    • B.

      Eukaryotes and prokaryotes

    • C.

      Bacteria

    • D.

      Archaea

    • E.

      Eukaryotes

    Correct Answer
    C. Bacteria
    Explanation
    Bacteria use group translocation as a means of transport. Group translocation is a process in which a molecule is chemically modified as it is transported across the cell membrane. This allows bacteria to take up specific molecules from their environment and modify them to meet their metabolic needs. Other organisms, such as eukaryotes and archaea, do not use group translocation for transport.

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  • 40. 

    Hopanoids are found in __________ cytoplasmic membranes.

    • A.

      Archaeal

    • B.

      Prokaryotic

    • C.

      Eukaryotic

    • D.

      Bacterial

    • E.

      No

    Correct Answer
    D. Bacterial
    Explanation
    Hopanoids are found in bacterial cytoplasmic membranes. Hopanoids are a type of lipid molecule that are structurally similar to cholesterol. They are primarily found in bacteria and are important for maintaining the stability and fluidity of the bacterial cell membrane. Hopanoids are not typically found in archaeal, prokaryotic, or eukaryotic cytoplasmic membranes.

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  • 41. 

    The cell walls of __________ contain peptidoglycan.

    • A.

      Bacteria

    • B.

      Prokaryotes

    • C.

      Bacterria and eukaryotes

    • D.

      Eukaryotes

    • E.

      Archaea

    Correct Answer
    A. Bacteria
    Explanation
    Bacteria are prokaryotes, which means they lack a nucleus and membrane-bound organelles. One of the distinguishing features of bacterial cells is the presence of a cell wall, which provides structural support and protection. The cell wall of bacteria is composed of a substance called peptidoglycan, which is not found in eukaryotic cells. Therefore, the correct answer is bacteria.

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  • 42. 

    Cytoplasmic membranes of __________ are composed of phospholipids.

    • A.

      Baceria

    • B.

      Eukaryotes

    • C.

      Prokaryotes

    • D.

      Archaea

    • E.

      Both bacteria and eukaryotes

    Correct Answer
    E. Both bacteria and eukaryotes
    Explanation
    The cytoplasmic membranes of both bacteria and eukaryotes are composed of phospholipids. Phospholipids are a type of lipid molecule that have a hydrophilic (water-loving) head and hydrophobic (water-fearing) tails. These phospholipids arrange themselves in a bilayer, with the hydrophilic heads facing the aqueous environment and the hydrophobic tails facing inward. This arrangement forms a barrier that separates the internal contents of the cell from the external environment. Both bacteria and eukaryotes have cytoplasmic membranes that perform similar functions, such as regulating the passage of molecules in and out of the cell and maintaining the integrity of the cell.

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  • 43. 

    Some members of __________ have hami.

    • A.

      Bacteria

    • B.

      Archaea

    • C.

      Eukaryotes

    • D.

      Both archaea and bacteria

    • E.

      Both bacteria and eukaryotes

    Correct Answer
    B. Archaea
    Explanation
    Some members of archaea have hami. Archaea are a group of single-celled microorganisms that are similar to bacteria but have distinct genetic and biochemical characteristics. One of these characteristics is the presence of hami, which are hair-like structures on the surface of some archaea cells. These hami help archaea attach to surfaces and can also be involved in cell-cell interactions. Therefore, the correct answer is archaea.

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  • 44. 

     __________ may have pili.

    • A.

      Bacteria

    • B.

      Eukaryotes

    • C.

      Eukaryotes and bacteria

    • D.

      Prokaryotes

    • E.

      Archaea

    Correct Answer
    A. Bacteria
    Explanation
    Bacteria may have pili. Pili are hair-like structures that protrude from the surface of bacteria. They are involved in various functions such as attachment to surfaces, movement, and transfer of genetic material. Pili are not found in eukaryotes, which include organisms such as plants, animals, and fungi. Prokaryotes, which include bacteria and archaea, are the only organisms that may have pili. Therefore, the correct answer is bacteria.

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  • 45. 

     __________ may have flagella.

    • A.

      Archaea

    • B.

      Eukaryotes

    • C.

      Prokaryotes

    • D.

      Bacteria

    • E.

      Archaea, bacteria, and eukaryotes

    Correct Answer
    E. Archaea, bacteria, and eukaryotes
    Explanation
    All three domains of life, Archaea, bacteria, and eukaryotes, have the potential to possess flagella. Flagella are whip-like appendages that some organisms use for movement. Archaea, bacteria, and eukaryotes can all have flagella, although the structure and composition of their flagella may vary. This means that organisms from each of these domains have the ability to propel themselves through their environment using flagella.

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  • 46. 

    Which of the following may have cell walls containing teichoic acids?

    • A.

      Gram-positive bacteria

    • B.

      Archaea

    • C.

      All prokaryotes

    • D.

      Both Gram-positive and Gram-negative bacteria

    • E.

      Gram-negative bacteria

    Correct Answer
    A. Gram-positive bacteria
    Explanation
    Gram-positive bacteria may have cell walls containing teichoic acids. Teichoic acids are unique to Gram-positive bacteria and are an important component of their cell walls. They play a role in maintaining the structural integrity of the cell wall, regulating ion transport, and interacting with the host immune system. Teichoic acids are not found in Gram-negative bacteria or archaea. Therefore, the correct answer is Gram-positive bacteria.

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  • 47. 

    The cell walls of __________ contain tetrapeptides.

    • A.

      Gram-negative bacteria

    • B.

      Gram-positive bacteria

    • C.

      Both Gram-positive and Gram-negative bacteria

    • D.

      Archaea

    • E.

      All prokaryotes

    Correct Answer
    C. Both Gram-positive and Gram-negative bacteria
    Explanation
    The cell walls of both Gram-positive and Gram-negative bacteria contain tetrapeptides. Gram-positive bacteria have a thick peptidoglycan layer in their cell walls, which consists of a mesh-like structure of tetrapeptides. Gram-negative bacteria also have a peptidoglycan layer, but it is thinner and surrounded by an outer membrane. Both types of bacteria have tetrapeptides in their cell walls, making the statement true.

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  • 48. 

    Which of the following have external structures containing a periplasmic space?

    • A.

      Gram-negative bacteria

    • B.

      Gram-positive bacteria

    • C.

      Both Gram-positive and Gram-negative bacteria

    • D.

      Archaea

    • E.

      Eukaryotes

    Correct Answer
    A. Gram-negative bacteria
    Explanation
    Gram-negative bacteria have external structures containing a periplasmic space. The periplasmic space is located between the inner and outer membranes of Gram-negative bacteria and contains various proteins, enzymes, and transport systems. This space plays a crucial role in nutrient uptake, cell signaling, and protection against harmful substances. Gram-positive bacteria, archaea, and eukaryotes do not have this specific structure.

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  • 49. 

    Which of the following prokaryotic cells contain an outer membrane?

    • A.

      Gram-positive bacteria

    • B.

      Gram-negative bacteria

    • C.

      Both Gram-positive and Gram-negative bacteria

    • D.

      Archaea

    • E.

      All prokaryotes

    Correct Answer
    B. Gram-negative bacteria
    Explanation
    Gram-negative bacteria contain an outer membrane. This outer membrane is an additional layer that surrounds the cell wall and provides extra protection. It helps to prevent the entry of harmful substances and contributes to the bacteria's ability to resist antibiotics. Gram-positive bacteria, on the other hand, do not have an outer membrane and only have a single cell membrane. Archaea and all prokaryotes do not necessarily have an outer membrane, so they are not the correct answer. Therefore, the correct answer is Gram-negative bacteria.

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  • 50. 

    The cytoplasmic membranes of __________ contain lipids.

    • A.

      Both Gram-positive and Gram-negative bacteria

    • B.

      Gram-negative bacteria

    • C.

      Gram-positive bacteria

    • D.

      Archaea

    • E.

      All prokaryotes

    Correct Answer
    E. All prokaryotes
    Explanation
    All prokaryotes contain cytoplasmic membranes that contain lipids. This includes both Gram-positive and Gram-negative bacteria as well as archaea. The cytoplasmic membrane is a vital component of prokaryotic cells, serving as a barrier that controls the movement of substances in and out of the cell. Lipids are an essential part of the structure of the cytoplasmic membrane, providing flexibility and stability to the membrane. Therefore, the statement that all prokaryotes contain lipids in their cytoplasmic membranes is correct.

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  • Current Version
  • Mar 20, 2023
    Quiz Edited by
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  • Sep 22, 2013
    Quiz Created by
    Coachalan32309

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