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Which of the active transport types employs diffusion? |
Symport |
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What type of transport uses two transport proteins? |
Symport |
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Sodium and potassium ions need to be pumped simultaneously against their concentration gradients. Which one of the transport proteins would be most effective at this? |
Antiport |
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Why are ATPases associated with active transport proteins? |
They provide transport proteins with the energy needed to pump molecules against their concentration gradients. |
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Efflux pumps can be used to pump antibiotics out of a cell once they enter to protect the cell. This will be done against the concentration gradient of the antibiotic. Which of the active transports would most likely be used? |
A Uniport would pump the antibiotic out without needing to bring additional molecules into the cell, and would not allow the antibiotic to diffuse back in. |
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Which of the following molecules would be blocked by a cell membrane? |
Ions |
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Hydrophobic molecules would enter a cell |
through integral transport proteins. |
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What is a hallmark of passive transport across cell membranes? |
It occurs along an electrochemical gradient, and may involve the use of transport proteins. |
|
A positively charged sodium ion |
would require the use of integral protein channels to pass through a cell membrane. |
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Which of the following statements regarding active transport is false? |
It powers the diffusion of water across the cell membrane. |
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What makes phospholipid membranes good at keeping some molecules out, and allowing others to freely pass? |
They have both hydrophilic and hydrophobic regions. |
|
Integral proteins are mostly involved in |
transport function. |
|
How does water enter and exit a cell? |
By simple diffusion or by use of an integral transport protein |
|
A glycoprotein |
is a type of peripheral protein above that can be used as a receptor or in enzymatic functions. |
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Why is no energy required in passive transport? |
The concentration gradient drives the movement. |
|
Once equilibrium is reached, |
molecules move, but there is no net movement in a particular direction. |
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Which of the following would not move freely across the cytoplasmic membrane? |
Positively charged hydrogen ions |
|
How is osmosis different from simple diffusion? |
Water movement is driven by the concentration of solutes rather than its own concentration. |
|
Nonspecific permeases |
allow a variety of molecules to cross the cytoplasmic membrane. |
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What will happen to a cell that is placed in a solution containing a high concentration of sugar, a molecule that cannot pass across the cell membrane? |
The cell will lose its interior water, causing it to shrivel up and possibly die. |
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How is simple diffusion different from other types of passive transport? |
Simple diffusion does not require a permease. |
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Tumbles occur when |
the flagella rotate clockwise. |
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Which of the following types of bacterial cells would have only a single flagellum? |
Monotrichous |
|
Peritrichous bacteria make a run when |
the flagella turn counterclockwise and become bundled. |
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Which of the following types of bacterial cells would have flagella located at only one end of the cell? |
Lophotrichous and monotrichous |
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What structural part of a bacterial flagellum is composed of flagellin? |
Filament |
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How are Gram-positive and Gram-negative flagella different? |
A Gram-positive flagellum has only two rings in its basal body; Gram-negatives each have four. |
|
The rings |
anchor the flagellum to the cell membrane. |
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The basal body is comprised of which structural component(s) of flagella? |
Rod and Rings |
|
Pathogenic bacteria |
can be identified and classified by differences in their flagellar proteins. |
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Which of the following scenarios is an example of bacterial motility? |
A bacterium moving towards a food source |
|
Axial filaments are found on |
spirochetes. |
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How do axial filaments differ from regular bacterial flagella? |
The axial filament is located between the cell membrane and the outer membrane. |
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What is the advantage to spirochetes of the corkscrew movement provided by axial filaments? |
It allows the cells to move more easily through viscous human tissues and fluids, such as mucus. |
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Axial filaments are composed of |
endoflagella. |
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Which of the following molecules is shared by both Gram-positive and Gram-negative organisms? |
N-acetylmuramic acid |
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Amoxicillin is an antibiotic that inhibits the formation of peptide cross-links. Amoxicillin, therefore, would most likely inhibit the growth of __________. |
both Gram-positive and Gram-negative organisms |
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Porins are present in ______________bacteria because, in these organisms, molecules entering the cell must pass through an extra layer of ___________. |
Gram-negative; membrane |
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Which of the following statements about bacterial flagella is true? |
Flagella can rotate 360 degrees. |
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Taxis is |
movement towards or away from a stimulus. |
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Which of the following terms refers to a bacterium moving towards a light source? |
Positive phototaxis |
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As a bacterium approaches a food source, one would expect |
runs to become more frequent. |
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Why are receptors on the cell surface necessary for bacterial movement? |
The receptors sense the stimulus and send signals to the flagella. |
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