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Deck 13: The Genetic Control of Development

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Question
The class of genes required that act at a double-segment periodicity is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Use Space or
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Question
In Drosophila melanogaster,Hox genes are:

A)clustered into operons.
B)clustered in one large gene complex.
C)clustered together in two gene complexes.
D)clustered together in three gene complexes.
E)evenly distributed throughout the genome.
Question
The maternal-effect Bicoid gene codes for:

A)a signal protein.
B)a serine protease.
C)a DNA-binding transcription factor.
D)a cell-to-cell junction protein.
E)a transmembrane protein.
Question
The genes required for proper organization of the anteroposterior body axis of the fly embryo are grouped into how many classes?

A)1
B)2
C)3
D)4
E)5
Question
In the developing chick vertebral limb bud,the zone of polarizing activity (ZPA)organizes a pattern along the anteroposterior axis.Transplantation of the ZPA from a posterior to anterior position:

A)causes no change in development.
B)induces extra digits with reverse polarity.
C)induces extra digits with the same polarity.
D)induces extra limbs.
E)None of the answer options are correct.
Question
The class of genes that affect patterning within each segment is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Question
Drosophila melanogaster development proceeds in which of the following stages?

A)egg-segmented embryo-pupa-larva-adult
B)segmented embryo-egg-pupa-larva -adult
C)egg-segmented embryo-larva-pupa-adult
D)egg-larva-segmented embryo -pupa-adult
E)segmented embryo-larva-egg-pupa-adult
Question
There are ______ Hox genes in Drosophila melanogaster.

A)12
B)8
C)10
D)25
E)39
Question
In homeotic mutants:

A)one body structure is missing.
B)one body structure has been changed into another.
C)one body structure has been duplicated.
D)one body structure has significantly increased in size.
E)the organism is infertile.
Question
The class of genes required for establishing the anteroposterior axis is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Question
The homeodomain encodes:

A)a helix-turn-helix motif.
B)an ATP-binding domain.
C)a leucine zipper.
D)a zinc-finger.
E)a protease.
Question
A morphogen is a molecule that induces:

A)cells to undergo cellular division.
B)cells to increase in size.
C)various responses in surrounding tissue in a non-concentration-dependent manner.
D)various responses in surrounding tissue in a concentration-dependent manner.
E)None of the answer options are correct.
Question
Establishment of the dorsal-ventral axis of the Drosophila embryo:

A)involves the production of localized DL mRNA on the ventral side of the developing embryo.
B)occurs via at least two paracrine signals transmitted between the developing oocyte and the surrounding somatic follicle cells.
C)involves the zygotically expressed DL morphogen.
D)depends on the activity of anterior-posterior morphogens,such as BCD or HB-M.
E)None of the answer options are correct.
Question
The homeotic,gap,pair-rule,and segment polarity genes all control:

A)aspects of anterior-posterior pattern formation.
B)the number of segments.
C)the developmental fates (identities)of the individual segments.
D)dorsal-ventral pattern formation.
E)the production of the anterior-posterior morphogens.
Question
There are ______ Hox genes in the laboratory mouse.

A)12
B)8
C)10
D)25
E)39
Question
The class of genes required for establishing the formation of a contiguous block of segments is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Question
In the developing Drosophila embryo,the Hox genes are expressed:

A)in temporally restricted domains.
B)uniformly throughout the embryo.
C)only in homeotic mutants.
D)in spatially restricted domains.
E)None of the answer options are correct.
Question
Genes with products provided by the female to the egg are called:

A)paternal-effect genes.
B)maternal-effect genes.
C)sex-linked genes.
D)embryo-specific genes.
E)egg-specific genes.
Question
All eight Drosophila Hox genes encode proteins containing a highly conserved 60-amino-acid domain called the:

A)hox box.
B)homeodomain.
C)hox domain.
D)heterodomain.
E)chromodomain.
Question
Homeosis is defined as the failure to:

A)form the correct number of segments.
B)correctly polarize a developing embryo.
C)develop antenna.
D)correctly establish segmental identity.
E)None of the answer options are correct.
Question
The doublesex (dsx)gene plays a central role in governing the sexual identity of somatic (non-germ-line)tissue.Null mutations in dsx cause:

A)males to develop as females.
B)females to develop as males.
C)females and males to develop as intermediate intersexes.
D)only females to develop as intermediate intersexes.
E)None of the answer options are correct.
Question
Shown below is a list of molecules that function in Drosophila development (a-g)and a list of possible distribution patterns (1-5).On the line following each distribution pattern,write the letter(s)of the molecule(s)showing that type of distribution pattern.
a)toll transmembrane receptor
b)hunchback protein
c)activated SPZ ligand
d)inactive DL protein
e)active DL protein
f)NOS protein
g)Bicoid protein
1)Highest gradient is in the anterior end of the embryo.__________
2)Highest gradient is in the posterior end of the embryo.__________
3)Highest gradient is at the ventral midpoint of the embryo.__________
4)This is distributed throughout the oocyte/embryo.__________
5)This is present uniformly in the oocyte plasma membrane.__________
Question
The products of the gene let-7 is a well-known:

A)transcription factor.
B)polarity protein.
C)trans-acting activator of pair-rule genes.
D)microRNA.
E)homeotic protein.
Question
Shown below is a list of gene classes that play a role in Drosophila development.
\quad \quad \quad \quad \quad homeotic genes
\quad \quad \quad \quad \quad gap genes
\quad \quad \quad \quad \quad segment-polarity genes
\quad \quad \quad \quad \quad maternal-effect genes
\quad \quad \quad \quad \quad pair-rule genes

(i)Describe the role of each class of genes and the impact that a mutation in the class has on Drosophila development.
(ii)The different classes of genes function at different times during Drosophila development.Put the gene classes in order,from earliest to latest.
Question
A scientist working in a Drosophila lab locates a mutation in an organism that caused antenna to be transformed into legs.He determines that this is a homeotic transformation.Do you agree?
Question
In Drosophila,the vast majority of A-P axis genes that contribute to pattern formation encode:

A)transcription factors.
B)histones.
C)sugar-utilizing enzymes.
D)operons.
E)ligands.
Question
The early Drosophila embryo has multiple nuclei within a single cytoplasm and is considered a:

A)coenocyte.
B)hyphae.
C)syncytium.
D)chorion.
E)None of the answer options are correct.
Question
The pre-mRNA for Sex-lethal,transformer,and doublesex are:

A)identical in both sexes.
B)shorter in females.
C)shorter in males.
D)longer in females.
E)longer in males.
Question
In the nematode worm,C.elegans,embryonic development is controlled largely by controlling _______________.

A)Bicoid
B)transcription
C)post-transcription
D)protein processing
E)None of the answer options are correct.
Question
Why would animals as diverse as mice,humans,and Drosophila have maintained nearly identical Hox genes?
Question
A Drosophila researcher recently isolated a number of mutant fruit flies.The phenotype of each mutant is described below (i-iv).For each mutant,describe the type of gene (maternal-effect gene,gap gene,segment-polarity gene,or homeotic gene)that was most likely the cause of the altered phenotype.
(i)Homozygous mutant females appear phenotypically normal but produce larvae that have two posterior ends.
(ii)The flies contain four wings rather than two.
(iii)The wings are oriented backward.
(iv)The flies are missing two pairs of legs due to a shortened thoracic region.
Question
What characteristics allowed Drosophila melanogaster (an insect)to emerge as the leading genetic model of animal development?
Question
The nematode worm Caenorhabditis elegans is comprised of approximately ______ somatic cells.

A)10
B)100
C)1,000
D)100,000
E)100,000,000
Question
The formation of stripe 2 in a Drosophila embryo is controlled by the binding of four transcription factors to the eve stripe 2 cis-acting regulatory element.This includes:

A)one maternal protein and three gap proteins.
B)one paternal protein and three gap proteins.
C)one pair-rule,one segment-polarity,and two gap proteins.
D)two pair-rule and two gap proteins.
E)all maternal proteins.
Question
Match between columns
Premises:
Responses:
Highest gradient is in the anterior end of the embryo.
toll transmembrane receptor
Highest gradient is in the anterior end of the embryo.
hunchback protein
Highest gradient is in the anterior end of the embryo.
activated SPZ ligand
Highest gradient is in the anterior end of the embryo.
inactive DL protein
Highest gradient is in the anterior end of the embryo.
active DL protein
Highest gradient is in the anterior end of the embryo.
NOS protein
Highest gradient is in the anterior end of the embryo.
Bicoid protein
Highest gradient is in the posterior end of the embryo.
toll transmembrane receptor
Highest gradient is in the posterior end of the embryo.
hunchback protein
Highest gradient is in the posterior end of the embryo.
activated SPZ ligand
Highest gradient is in the posterior end of the embryo.
inactive DL protein
Highest gradient is in the posterior end of the embryo.
active DL protein
Highest gradient is in the posterior end of the embryo.
NOS protein
Highest gradient is in the posterior end of the embryo.
Bicoid protein
Highest gradient is at the ventral midpoint of the embryo.
toll transmembrane receptor
Highest gradient is at the ventral midpoint of the embryo.
hunchback protein
Highest gradient is at the ventral midpoint of the embryo.
activated SPZ ligand
Highest gradient is at the ventral midpoint of the embryo.
inactive DL protein
Highest gradient is at the ventral midpoint of the embryo.
active DL protein
Highest gradient is at the ventral midpoint of the embryo.
NOS protein
Highest gradient is at the ventral midpoint of the embryo.
Bicoid protein
This is distributed throughout the oocyte/embryo.
toll transmembrane receptor
This is distributed throughout the oocyte/embryo.
hunchback protein
This is distributed throughout the oocyte/embryo.
activated SPZ ligand
This is distributed throughout the oocyte/embryo.
inactive DL protein
This is distributed throughout the oocyte/embryo.
active DL protein
This is distributed throughout the oocyte/embryo.
NOS protein
This is distributed throughout the oocyte/embryo.
Bicoid protein
This is present uniformly in the oocyte plasma membrane.
toll transmembrane receptor
This is present uniformly in the oocyte plasma membrane.
hunchback protein
This is present uniformly in the oocyte plasma membrane.
activated SPZ ligand
This is present uniformly in the oocyte plasma membrane.
inactive DL protein
This is present uniformly in the oocyte plasma membrane.
active DL protein
This is present uniformly in the oocyte plasma membrane.
NOS protein
This is present uniformly in the oocyte plasma membrane.
Bicoid protein
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Deck 13: The Genetic Control of Development
1
The class of genes required that act at a double-segment periodicity is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
C
2
In Drosophila melanogaster,Hox genes are:

A)clustered into operons.
B)clustered in one large gene complex.
C)clustered together in two gene complexes.
D)clustered together in three gene complexes.
E)evenly distributed throughout the genome.
C
3
The maternal-effect Bicoid gene codes for:

A)a signal protein.
B)a serine protease.
C)a DNA-binding transcription factor.
D)a cell-to-cell junction protein.
E)a transmembrane protein.
C
4
The genes required for proper organization of the anteroposterior body axis of the fly embryo are grouped into how many classes?

A)1
B)2
C)3
D)4
E)5
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
5
In the developing chick vertebral limb bud,the zone of polarizing activity (ZPA)organizes a pattern along the anteroposterior axis.Transplantation of the ZPA from a posterior to anterior position:

A)causes no change in development.
B)induces extra digits with reverse polarity.
C)induces extra digits with the same polarity.
D)induces extra limbs.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
6
The class of genes that affect patterning within each segment is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
7
Drosophila melanogaster development proceeds in which of the following stages?

A)egg-segmented embryo-pupa-larva-adult
B)segmented embryo-egg-pupa-larva -adult
C)egg-segmented embryo-larva-pupa-adult
D)egg-larva-segmented embryo -pupa-adult
E)segmented embryo-larva-egg-pupa-adult
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
8
There are ______ Hox genes in Drosophila melanogaster.

A)12
B)8
C)10
D)25
E)39
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
9
In homeotic mutants:

A)one body structure is missing.
B)one body structure has been changed into another.
C)one body structure has been duplicated.
D)one body structure has significantly increased in size.
E)the organism is infertile.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
10
The class of genes required for establishing the anteroposterior axis is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
11
The homeodomain encodes:

A)a helix-turn-helix motif.
B)an ATP-binding domain.
C)a leucine zipper.
D)a zinc-finger.
E)a protease.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
12
A morphogen is a molecule that induces:

A)cells to undergo cellular division.
B)cells to increase in size.
C)various responses in surrounding tissue in a non-concentration-dependent manner.
D)various responses in surrounding tissue in a concentration-dependent manner.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
13
Establishment of the dorsal-ventral axis of the Drosophila embryo:

A)involves the production of localized DL mRNA on the ventral side of the developing embryo.
B)occurs via at least two paracrine signals transmitted between the developing oocyte and the surrounding somatic follicle cells.
C)involves the zygotically expressed DL morphogen.
D)depends on the activity of anterior-posterior morphogens,such as BCD or HB-M.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
14
The homeotic,gap,pair-rule,and segment polarity genes all control:

A)aspects of anterior-posterior pattern formation.
B)the number of segments.
C)the developmental fates (identities)of the individual segments.
D)dorsal-ventral pattern formation.
E)the production of the anterior-posterior morphogens.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
15
There are ______ Hox genes in the laboratory mouse.

A)12
B)8
C)10
D)25
E)39
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
16
The class of genes required for establishing the formation of a contiguous block of segments is the:

A)maternal-effect genes.
B)gap genes.
C)pair-rule genes.
D)segment polarity genes.
E)Hox genes.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
17
In the developing Drosophila embryo,the Hox genes are expressed:

A)in temporally restricted domains.
B)uniformly throughout the embryo.
C)only in homeotic mutants.
D)in spatially restricted domains.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
18
Genes with products provided by the female to the egg are called:

A)paternal-effect genes.
B)maternal-effect genes.
C)sex-linked genes.
D)embryo-specific genes.
E)egg-specific genes.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
19
All eight Drosophila Hox genes encode proteins containing a highly conserved 60-amino-acid domain called the:

A)hox box.
B)homeodomain.
C)hox domain.
D)heterodomain.
E)chromodomain.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
20
Homeosis is defined as the failure to:

A)form the correct number of segments.
B)correctly polarize a developing embryo.
C)develop antenna.
D)correctly establish segmental identity.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
21
The doublesex (dsx)gene plays a central role in governing the sexual identity of somatic (non-germ-line)tissue.Null mutations in dsx cause:

A)males to develop as females.
B)females to develop as males.
C)females and males to develop as intermediate intersexes.
D)only females to develop as intermediate intersexes.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
22
Shown below is a list of molecules that function in Drosophila development (a-g)and a list of possible distribution patterns (1-5).On the line following each distribution pattern,write the letter(s)of the molecule(s)showing that type of distribution pattern.
a)toll transmembrane receptor
b)hunchback protein
c)activated SPZ ligand
d)inactive DL protein
e)active DL protein
f)NOS protein
g)Bicoid protein
1)Highest gradient is in the anterior end of the embryo.__________
2)Highest gradient is in the posterior end of the embryo.__________
3)Highest gradient is at the ventral midpoint of the embryo.__________
4)This is distributed throughout the oocyte/embryo.__________
5)This is present uniformly in the oocyte plasma membrane.__________
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
23
The products of the gene let-7 is a well-known:

A)transcription factor.
B)polarity protein.
C)trans-acting activator of pair-rule genes.
D)microRNA.
E)homeotic protein.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
24
Shown below is a list of gene classes that play a role in Drosophila development.
\quad \quad \quad \quad \quad homeotic genes
\quad \quad \quad \quad \quad gap genes
\quad \quad \quad \quad \quad segment-polarity genes
\quad \quad \quad \quad \quad maternal-effect genes
\quad \quad \quad \quad \quad pair-rule genes

(i)Describe the role of each class of genes and the impact that a mutation in the class has on Drosophila development.
(ii)The different classes of genes function at different times during Drosophila development.Put the gene classes in order,from earliest to latest.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
25
A scientist working in a Drosophila lab locates a mutation in an organism that caused antenna to be transformed into legs.He determines that this is a homeotic transformation.Do you agree?
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
26
In Drosophila,the vast majority of A-P axis genes that contribute to pattern formation encode:

A)transcription factors.
B)histones.
C)sugar-utilizing enzymes.
D)operons.
E)ligands.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
27
The early Drosophila embryo has multiple nuclei within a single cytoplasm and is considered a:

A)coenocyte.
B)hyphae.
C)syncytium.
D)chorion.
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
28
The pre-mRNA for Sex-lethal,transformer,and doublesex are:

A)identical in both sexes.
B)shorter in females.
C)shorter in males.
D)longer in females.
E)longer in males.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
29
In the nematode worm,C.elegans,embryonic development is controlled largely by controlling _______________.

A)Bicoid
B)transcription
C)post-transcription
D)protein processing
E)None of the answer options are correct.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
30
Why would animals as diverse as mice,humans,and Drosophila have maintained nearly identical Hox genes?
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
31
A Drosophila researcher recently isolated a number of mutant fruit flies.The phenotype of each mutant is described below (i-iv).For each mutant,describe the type of gene (maternal-effect gene,gap gene,segment-polarity gene,or homeotic gene)that was most likely the cause of the altered phenotype.
(i)Homozygous mutant females appear phenotypically normal but produce larvae that have two posterior ends.
(ii)The flies contain four wings rather than two.
(iii)The wings are oriented backward.
(iv)The flies are missing two pairs of legs due to a shortened thoracic region.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
32
What characteristics allowed Drosophila melanogaster (an insect)to emerge as the leading genetic model of animal development?
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
33
The nematode worm Caenorhabditis elegans is comprised of approximately ______ somatic cells.

A)10
B)100
C)1,000
D)100,000
E)100,000,000
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
34
The formation of stripe 2 in a Drosophila embryo is controlled by the binding of four transcription factors to the eve stripe 2 cis-acting regulatory element.This includes:

A)one maternal protein and three gap proteins.
B)one paternal protein and three gap proteins.
C)one pair-rule,one segment-polarity,and two gap proteins.
D)two pair-rule and two gap proteins.
E)all maternal proteins.
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
36
Match between columns
Premises:
Responses:
Highest gradient is in the anterior end of the embryo.
toll transmembrane receptor
Highest gradient is in the anterior end of the embryo.
hunchback protein
Highest gradient is in the anterior end of the embryo.
activated SPZ ligand
Highest gradient is in the anterior end of the embryo.
inactive DL protein
Highest gradient is in the anterior end of the embryo.
active DL protein
Highest gradient is in the anterior end of the embryo.
NOS protein
Highest gradient is in the anterior end of the embryo.
Bicoid protein
Highest gradient is in the posterior end of the embryo.
toll transmembrane receptor
Highest gradient is in the posterior end of the embryo.
hunchback protein
Highest gradient is in the posterior end of the embryo.
activated SPZ ligand
Highest gradient is in the posterior end of the embryo.
inactive DL protein
Highest gradient is in the posterior end of the embryo.
active DL protein
Highest gradient is in the posterior end of the embryo.
NOS protein
Highest gradient is in the posterior end of the embryo.
Bicoid protein
Highest gradient is at the ventral midpoint of the embryo.
toll transmembrane receptor
Highest gradient is at the ventral midpoint of the embryo.
hunchback protein
Highest gradient is at the ventral midpoint of the embryo.
activated SPZ ligand
Highest gradient is at the ventral midpoint of the embryo.
inactive DL protein
Highest gradient is at the ventral midpoint of the embryo.
active DL protein
Highest gradient is at the ventral midpoint of the embryo.
NOS protein
Highest gradient is at the ventral midpoint of the embryo.
Bicoid protein
This is distributed throughout the oocyte/embryo.
toll transmembrane receptor
This is distributed throughout the oocyte/embryo.
hunchback protein
This is distributed throughout the oocyte/embryo.
activated SPZ ligand
This is distributed throughout the oocyte/embryo.
inactive DL protein
This is distributed throughout the oocyte/embryo.
active DL protein
This is distributed throughout the oocyte/embryo.
NOS protein
This is distributed throughout the oocyte/embryo.
Bicoid protein
This is present uniformly in the oocyte plasma membrane.
toll transmembrane receptor
This is present uniformly in the oocyte plasma membrane.
hunchback protein
This is present uniformly in the oocyte plasma membrane.
activated SPZ ligand
This is present uniformly in the oocyte plasma membrane.
inactive DL protein
This is present uniformly in the oocyte plasma membrane.
active DL protein
This is present uniformly in the oocyte plasma membrane.
NOS protein
This is present uniformly in the oocyte plasma membrane.
Bicoid protein
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 35 flashcards in this deck.
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