How is the lateral line of a fish similar to the ears of a human? (Check all that apply.)  

_____  cilia embedded in a gelatinous matrix
_____  cochlea
_____  hair cells
_____  large external structures for capturing pressure waves
_____  line of cells extends along length of the body
_____  organ of Corti
_____  pressure waves
_____  sensory neurons
_____  several kinocilia and one stereocilium
_____  several stereocilia and one kinocilium

Clarify Question
What is the key concept addressed by the question?
What type of thinking is required?
 
Gather Content
What do you already know about the lateral line and inner ear? What other information is related to the question?
 
Choose Answer
Given what you now know, what information is most likely to produce the correct answer?
 
Reflect on Process
Did your problem-solving process lead you to the correct answer? If not, where did the process break down or lead you astray? How can you revise your approach to produce a more desirable result?


__X__  cilia embedded in a gelatinous matrix
_____  cochlea
__X__  hair cells
_____  large external structures for capturing pressure waves
_____  line of cells extends along length of the body
_____  organ of Corti
__X__  pressure waves
__X__  sensory neurons
_____  several kinocilia and one stereocilium
__X__  several stereocilia and one kinocilium

Clarify Question
What is the key concept addressed by the question?
        · Similarities between the ear and the lateral line.
What type of thinking is required?
            o This is an analyze question because you have to break the inner ear and the lateral line system into its separate components in order to look for commonalities.
 
Gather Content
What do you already know about the lateral line and inner ear? What other information is related to the question?
        · You already know that the inner ear of humans detect pressure waves of sound in the air and the lateral line of fishes detect pressure waves in the water. Both systems have sensory hair cells that convert mechanical movement into a neural signal. In both systems the mechanical movement is transferred from the surrounding environment via a gelatinous membrane (the cupula in the lateral line and the tectorial membrane in the cochlea). Sensory hair cells have one longer kinocilium and multiple, shorter stereocilia. When these cilia bend, it opens up ion channels that depolarize the cell. This signal is then sent to the sensory neurons of the auditory or lateral line nerves and then processed by the brain.
 
Choose Answer
Given what you now know, what information is most likely to produce the correct answer?
        · Both the lateral line and inner ear have sensory hair cell stereocilia that are embedded in a gelatinous matrix (the cupula in the lateral line and the tectorial membrane in the inner ear). These hair cells have one kinocilia and multiple stereocilia. These hair cells are innervated by sensory neurons in both systems. While mammals have a cochlea and an organ of Corti in the middle of it, fish do not. Similarly, while mammals have large external structures for capturing pressure waves (i.e., like pinna of the external ear), fish do not have external ears. Fish, on the other hand, have a lateral line system along the length of their body to detect vibrations and pressure waves in the water, while mammals have no need for such a system since they detect pressure waves in the air which vibrate the tympanum.
 
Reflect on Process
Did your problem-solving process lead you to the correct answer? If not, where did the process break down or lead you astray? How can you revise your approach to produce a more desirable result?
        o Answering this question correctly depended upon your ability to pick out similarities and differences between the inner ears of humans and the lateral line of fishes. If you answered incorrectly, what went wrong? Did you remember that both systems have sensory hair cells that are mechanotransducers that convert a vibratory signal into a neural one? Did you think that since the cochlea and organ of Corti are part of the inner ear, and you knew that fish had inner ears, that fish also have these structures? Did you realize that both the cupula of the lateral line system and the tectorial membrane of the cochlea are gelatinous membranes?

Biology & Microbiology

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The table shows the distribution of traits (A-E) in six extant species (1-6). A "0" indicates the ancestral condition, while a "1" indicates the derived condition. Based on this data, which pair of species diverged most recently?  



A.  1 and 4
B.  2 and 3
C.  2 and 4
D.  6 and 4
E.  6 and 5

Clarify Question
· What is the key concept addressed by the question?
· What type of thinking is required?
· What key words does the question contain and what do they mean?
 
Gather Content
· What do you already know about cladistics?
 
Consider Possibilities
· What other information is related to the question? Which information is most useful?
 
Choose Answer · Given what you now know, what information and/or problem solving approach is most likely to produce the correct answer?
 
Reflect on Process
· Did your problem-solving process lead you to the correct answer? If not, where did the process break down or lead you astray? How can you revise your approach to produce a more desirable result?

Biology & Microbiology

A protein kinase catalyzes the reaction in which:a

a protein loses a phosphate group. b. a protein is phosphorylated. c. G protein is activated. d. ATP is converted to cAMP. e. GTP is converted to GDp

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The human appendix is an example of a(n) ________ organ, reflecting our evolutionary past.

Fill in the blank(s) with the appropriate word(s).

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How do cells in the human body release energy stored in an adenosine triphosphate molecule (ATP)?

A by releasing adenosine in ATP B by trapping ATP from carbohydrates C by breaking a phosphate bond in ATP D by combining ATP molecules in chlorophyll

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