Full Test Bank
Developmental Biology 12th Edition
Barresi Test Bank
Test Bank Directly From The publisher, 100% Verified Answers.
COVERS ALL CHAPTERS.
Download Immediately After the Order.
, www.nursylab.com
Developmental Biology Exam 1 Name________________
This exam is a “take home exam,” and you may use any materials you wish. You may
study with your peers, but you are not allowed to work with any other individual on the
specific questions of these exams. Your submitted response must be your own
original work.
Solicitation from the Emergency International Science Fund:
“The germ cell origin of life to save the rain forest (and us).”
The recent increase in deforestation of the Amazon rain forest has raised awareness to its
impact on global warming as well as to the declining diversification of species on this
planet (Figure 1). There is significant concern that even aquatic species of the Amazon
River will be severely impacted. In an effort to raise global awareness to these problems,
several expeditions to the Amazon rainforest in Brazil have sought to discover new
species in the hopes to educate and convince world leaders that this is an essential
treasure requiring protection—both to combat global warming and potentially identify
new medicinal therapies.
Figure 1 Locations of fires, marked in orange, detected by MODIS from August 15 to August 22,
2019.
www.nursylab.com
, www.nursylab.com
Consider the Following Scenario:
A recent exploration by ecologists to the Amazon rainforest and its river basin uncovered a new
species of frog that is unlike any other vertebrate species. This easily overlooked, well-
camouflaged species is a unique “tailed frog” species. The retention of its tail was what caught
the eyes of these scientists. The maintained tails of such frog species have been known to play a
role in their reproductive strategies. To investigate this further in the hopes to garner endangered
species protections, the Developmental Biology laboratory of Miguel Allende from the
University of Chile was enlisted. The Allende lab has long been interested in the processes of
regeneration and for a frog species to retain its tail, raised questions about whether it may
actually also maintain its regenerative potential post-metamorphosis, which would be a unique
finding.
Interestingly, a routine immunocytochemistry for stem cell markers on a preserved frog of this
species produced a strange finding: The oct4 primordial germ cell (pgc) marker was expressed in
what appeared to be a small subset of stem cells, but in stem cells from every tissue examined!
Meaning in addition to the germ cells of this frog’s gonads, each tissue’s stem cell niche housed
these same pgc-like stem cells—muscle, gut, brain, bone marrow… all of them!
This finding has spurred the controversial question of whether this frog could provide the
evidence that the germ cell is potentially pluripotent and potentially the true immortal cell to the
point of being related to the choanoflagellate, from which all metazoan life originates. Now,
that would be a frog worth saving, a frog that could convince the world’s leaders that this
rainforest is worth protecting as it is harboring the missing link to our past and potentially to new
cell-based therapies for regenerative medicine.
Excited by the importance of this frog species, now named “choanofrog,” the Allende lab was
awarded a grant from the emergency international science fund. You are the new postdoctoral
fellow just hired by Dr. Allende’s laboratory right in the middle of this discovery. What are you
going to do to prove both the evolutionary relatedness of these pgc-like cells to ancestral
metazoans and demonstrate the therapeutic potential of these cells?
Exam Questions
1. Test the hypothesis that each of the pgc-like stem cells found across all the different tissues
possess the same identity.
A. How would you approach testing the relatedness of these stem cells?
B. What would you predict to find from your proposed experimental design?
C. Assuming these pgc-like stem cells prove to be related, then make a proposal for a
developmental mechanism by which each stem cell niche became populated with the
same resident pgc-like stem cell, yet also capable of generating very different cell
type derivatives.
www.nursylab.com
Developmental Biology 12th Edition
Barresi Test Bank
Test Bank Directly From The publisher, 100% Verified Answers.
COVERS ALL CHAPTERS.
Download Immediately After the Order.
, www.nursylab.com
Developmental Biology Exam 1 Name________________
This exam is a “take home exam,” and you may use any materials you wish. You may
study with your peers, but you are not allowed to work with any other individual on the
specific questions of these exams. Your submitted response must be your own
original work.
Solicitation from the Emergency International Science Fund:
“The germ cell origin of life to save the rain forest (and us).”
The recent increase in deforestation of the Amazon rain forest has raised awareness to its
impact on global warming as well as to the declining diversification of species on this
planet (Figure 1). There is significant concern that even aquatic species of the Amazon
River will be severely impacted. In an effort to raise global awareness to these problems,
several expeditions to the Amazon rainforest in Brazil have sought to discover new
species in the hopes to educate and convince world leaders that this is an essential
treasure requiring protection—both to combat global warming and potentially identify
new medicinal therapies.
Figure 1 Locations of fires, marked in orange, detected by MODIS from August 15 to August 22,
2019.
www.nursylab.com
, www.nursylab.com
Consider the Following Scenario:
A recent exploration by ecologists to the Amazon rainforest and its river basin uncovered a new
species of frog that is unlike any other vertebrate species. This easily overlooked, well-
camouflaged species is a unique “tailed frog” species. The retention of its tail was what caught
the eyes of these scientists. The maintained tails of such frog species have been known to play a
role in their reproductive strategies. To investigate this further in the hopes to garner endangered
species protections, the Developmental Biology laboratory of Miguel Allende from the
University of Chile was enlisted. The Allende lab has long been interested in the processes of
regeneration and for a frog species to retain its tail, raised questions about whether it may
actually also maintain its regenerative potential post-metamorphosis, which would be a unique
finding.
Interestingly, a routine immunocytochemistry for stem cell markers on a preserved frog of this
species produced a strange finding: The oct4 primordial germ cell (pgc) marker was expressed in
what appeared to be a small subset of stem cells, but in stem cells from every tissue examined!
Meaning in addition to the germ cells of this frog’s gonads, each tissue’s stem cell niche housed
these same pgc-like stem cells—muscle, gut, brain, bone marrow… all of them!
This finding has spurred the controversial question of whether this frog could provide the
evidence that the germ cell is potentially pluripotent and potentially the true immortal cell to the
point of being related to the choanoflagellate, from which all metazoan life originates. Now,
that would be a frog worth saving, a frog that could convince the world’s leaders that this
rainforest is worth protecting as it is harboring the missing link to our past and potentially to new
cell-based therapies for regenerative medicine.
Excited by the importance of this frog species, now named “choanofrog,” the Allende lab was
awarded a grant from the emergency international science fund. You are the new postdoctoral
fellow just hired by Dr. Allende’s laboratory right in the middle of this discovery. What are you
going to do to prove both the evolutionary relatedness of these pgc-like cells to ancestral
metazoans and demonstrate the therapeutic potential of these cells?
Exam Questions
1. Test the hypothesis that each of the pgc-like stem cells found across all the different tissues
possess the same identity.
A. How would you approach testing the relatedness of these stem cells?
B. What would you predict to find from your proposed experimental design?
C. Assuming these pgc-like stem cells prove to be related, then make a proposal for a
developmental mechanism by which each stem cell niche became populated with the
same resident pgc-like stem cell, yet also capable of generating very different cell
type derivatives.
www.nursylab.com
