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Deck 11: The Nucleus

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Question
The principal difference between eukaryotic and prokaryotic cells is that eukaryotic cells have

A) larger ribosomes.
B) cell walls, whereas prokaryotic cells do not.
C) DNA replication and transcription in the same compartment, whereas prokaryotic cells do not.
D) a nucleus, whereas prokaryotic cells do not.
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Question
The nuclear envelope is continuous with the

A) mitochondrial outer membrane.
B) rough endoplasmic reticulum.
C) Golgi apparatus.
D) plasma membrane.
Question
The nuclear lamina is built of proteins called

A) lamins.
B) laminins.
C) nucleons.
D) nucleoplasmins.
Question
Emery-Dreifuss muscular dystrophy and Hutchinson-Gilford progeria are caused by mutations in genes that code for

A) importin or Ran.
B) Polycomb proteins.
C) NF-κB.
D) A-type nuclear lamins or emerin.
Question
The filaments of the nuclear lamina are composed of a type of

A) intermediate filament.
B) microtubule.
C) microfilament.
D) thick filament.
Question
The nuclear lamina binds to

A) both the inner nuclear envelope membrane and the chromatin.
B) the inner nuclear envelope membrane only.
C) the chromatin only.
D) both the inner and outer nuclear envelope membranes.
Question
Lamins are associated with the inner nuclear envelope membrane via

A) GPI anchors on lamins.
B) lipid tails on lamins only.
C) lamin-binding proteins in the nuclear envelope membrane only.
D) lipid tails on lamins and lamin-binding proteins in the nuclear envelope membrane.
Question
Nuclear pores are organized with _______ symmetry.

A) sixfold
B) eightfold
C) ninefold
D) tenfold
Question
The major pathway for molecules to pass into and out of the nucleus is through

A) gap junctions between the nuclear envelope membranes.
B) porin channels in the nuclear envelope membranes.
C) nuclear pore complexes.
D) diffusion through the membrane bilayers of the nuclear envelope.
Question
Small molecules (< 20 kd) enter nuclei by way of

A) passive diffusion through nuclear pore complexes.
B) selective transport through nuclear pore complexes.
C) active transport across the nuclear envelope membranes.
D) passive diffusion across the nuclear envelope membranes.
Question
Which of the following is not involved in the transport of RNAs out of the nucleus?

A) Ran
B) Expenditure of chemical energy
C) Small RNAs crossing by passive diffusion
D) Exportins
Question
The first nuclear localization signal to be mapped is the signal responsible for the transport of

A) nucleoplasmin.
B) histone H1.
C) lamin B.
D) SV40 T antigen.
Question
Nuclear proteins that are stripped of their nuclear localization signal and injected into the cytoplasm of cultured cells will localize

A) to the nucleus.
B) in the cytoplasm.
C) in a ring around the outside of the nuclear envelope.
D) extracellularly.
Question
The nuclear localization signal is typically a(n) _______, rich in the amino acids _______.

A) α helix; Pro, Lys, and Arg
B) α helix; Leu, Phe, and Gly
C) short sequence; Lys and Arg
D) short sequence; Pro, Leu, and Gly
Question
The nuclear localization signal is recognized by and binds to which protein in the process of nuclear protein import?

A) Ran
B) Importin
C) Exportin
D) The outer fibril protein
Question
The directionality of nuclear transport is determined by _______ in the nucleus and _______ in the cytosol.

A) high Ran; low Ran
B) low Ran; high Ran
C) high Ran/GTP; high Ran/GDP
D) high Ran/GDP; high Ran/GTP
Question
Export of RNAs from the nucleus occurs primarily by

A) passive diffusion through nuclear pore complexes.
B) cotranscriptional insertion through protein pores of the nuclear envelope membrane.
C) selective transport through nuclear pore complexes.
D) release from the nucleus when it breaks down at mitosis.
Question
Which statement about snRNAs is true?

A) They are synthesized in the nucleus and function in the cytoplasm.
B) They are synthesized in the cytoplasm and function in the nucleus.
C) They are synthesized in the nucleus and function in the nucleus without passing into the cytoplasm.
D) They are synthesized in the nucleus, move to the cytoplasm to form functional complexes with proteins, and then return to the nucleus.
Question
By restricting the traffic of proteins and RNA across the nuclear envelope, eukaryotic cells can regulate _______ in unique ways.

A) translation and transcription
B) transcription only
C) translation only
D) endocytosis
Question
Which statement describing the chromosome conformation capture (3C) technique for chromosome structural analyses is true?

A) Sequences of DNA that are physically distant from each other are chemically linked together.
B) Most DNA-DNA interactions are between sequences on different chromosomes.
C) Sequences separated by a centromere rarely interact with each other.
D) All of the above
Question
Highly condensed, transcriptionally inactive chromatin is called

A) euchromatin.
B) heterochromatin.
C) a chromatin domain.
D) histone-containing chromatin.
Question
Heterochromatin is normally associated with

A) ribosomes.
B) the nuclear envelope.
C) only a few specific human chromosomes.
D) mutated chromosomes.
Question
Chromatin that contains sequences that are transcribed is called

A) euchromatin.
B) a centromere.
C) heterochromatin.
D) a telomere.
Question
Chromatin domains are loops of at least _______ base pairs of DNA.

A) 1000
B) 10,000
C) 100,000
D) 1,000,000
Question
Newly replicated DNA is located in a few hundred spots in the nucleus because

A) there are a few hundred origins of replication per nucleus.
B) there are a few thousand origins of replication, but only a few hundred are active at any one time.
C) there are a few thousand origins of replication active at any one time, but they are located in a few hundred discrete clusters.
D) there are so many charges drawing the DNA molecules together.
Question
Sites of newly replicated DNA can be detected with antibodies if the DNA is labeled with

A) tritiated thymidine.
B) tritiated uridine.
C) bromodeoxyuridine.
D) bromouridine.
Question
The nucleolus is the site where _______ is(are) assembled.

A) ribosomal subunits
B) nuclear pores
C) chromatin
D) the nuclear matrix
Question
The region of chromosomes that codes for most of the rRNAs is found in the

A) nucleolus.
B) nucleolar organizing region.
C) ribosomal assembly region.
D) ribosomal organizer region.
Question
The 5.8S rRNA associates with

A) Cajal bodies.
B) the large subunit of the ribosome.
C) the small subunit of the ribosome.
D) the interface between the large and small subunits of a functional ribosome.
Question
The eukaryotic 45S pre-rRNA transcript codes for the

A) 28S rRNA.
B) 28S and 18S rRNAs.
C) 28S, 18S, and 5.8S rRNAs.
D) 28S, 18S, 5.8S, and 5S rRNAs.
Question
Most snoRNAs

A) splice cleaved mRNAs.
B) splice cleaved rRNAs.
C) cleave the 45S rRNA.
D) guide regions of rRNAs to modifying enzymes.
Question
Eukaryotic ribosomes leave the nucleus as

A) intact 80S ribosomes.
B) intact 70S ribosomes.
C) 40S and 60S ribosomal subunits.
D) 18S and 28S rRNAs.
Question
Cleaving of pre-rRNA produces

A) the 28S rRNA.
B) the 18S rRNA.
C) both 28S and 18S rRNAs.
D) the 28S, 18S, and 5.8S rRNAs.
Question
The genes encoding 5.8S, 18S, and 28S ribosome RNA are clustered together in

A) tandem arrays located on one chromosome.
B) tandem arrays interspersed with tandem arrays of genes encoding 5S ribosomal RNA.
C) tandem arrays located on three chromosomes.
D) tandem arrays located on five chromosomes.
Question
Which of the following is an example of nucleolar involvement in processing of non-rRNAs?

A) Base modification within tRNAs catalyzed by snoRNPs
B) Storage of pre-mRNA splicing factors
C) Gene silencing
D) Proteasomal proteolysis
Question
Polycomb proteins consist of _______ complex(es) and are concentrated in Polycomb bodies within the nucleus.

A) 1
B) 2
C) 3
D) either 2 or 3, depending on cell type
Question
Polycomb bodies act on _______ regions of chromatin, silencing gene expression.

A) adjacent
B) distant
C) both adjacent and distant
D) very short
Question
Polycomb proteins promote heterochromatin formation and gene silencing by

A) acetylating lysine 27 of histone 3.
B) deacetylating lysine 27 of histone 3.
C) methylating lysine 27 of histone 3.
D) methylating lysine 9 of histone 3.
Question
Cajal bodies are thought to represent sites of

A) DNA replication.
B) snRNA processing and assembly.
C) large ribosomal subunit assembly.
D) small ribosomal subunit assembly.
Question
In eukaryotic cells, the contents of the nucleus are separated from the cytoplasm by the _______.
Question
Entry into the nucleus is limited by the _______ and the _______ complexes.
Question
Underlying the nuclear envelope is the _______, a fibrous meshwork composed of proteins called _______.
Question
Mutations in the fibrous protein underlying the nuclear envelope can cause premature _______, or progeria.
Question
Depending on size, molecules can enter the nucleus by the process of _______ or _______.
Question
Receptor-dependent protein transport into the nucleus requires the recognition of a _______ on the cargo protein.
Question
Proteins called _______ act as receptors for cargo protein import into the nucleus, and proteins called _______ play the corresponding role in export from the nucleus.
Question
A major regulatory protein for nuclear import and export of proteins is the small GTPase _______.
Question
Transcriptionally active chromatin, which is called _______, is decondensed, while transcriptionally inactive chromatin, which is called _______, is highly condensed.
Question
Individual chromosomes occupy distinct _______ within the nucleus.
Question
In addition to replication factories, the nucleus contains a number of discrete structures, maintained by protein-protein and protein-RNA interactions, that are referred to as _______.
Question
The most prominent nuclear body, the _______, is the site of ribosome production and rRNA processing and synthesis.
Question
In humans, pre-ribosomal RNA consists of a large 45S RNA that contains nucleotide sequences corresponding to _______ different individual rRNAs found within ribosomes.
Question
In ribosome assembly, _______ that were synthesized in the cytoplasm are assembled into complexes on pre-ribosomal RNA molecules.
Question
Nuclear speckles are nuclear bodies that contain _______ and snRNPs.
Question
The nuclear envelope is composed of one nuclear membrane and an underlying nuclear lamina.
Question
The nuclear pore complexes provide the only known routes through which molecules can travel between the nucleus and the cytoplasm of interphase cells.
Question
The activity of some proteins is regulated by controlling their ability to be imported into the nucleus.
Question
All molecules found in the nucleus have been transported there via a process that requires ATP.
Question
Small nuclear RNAs are synthesized in the nucleus and function there without ever leaving the nucleus.
Question
Messenger RNAs are transported through the nuclear pores as ribonucleoprotein particles.
Question
Individual chromosomes occupy discrete territories within the nucleus.
Question
Inactive, condensed chromatin is called heterochromatin.
Question
Chromatin domains appear to represent discrete functional units that independently regulate gene expression.
Question
The nucleolus is the site of rRNA synthesis and processing and of ribosomal subunit assembly.
Question
Eukaryotic ribosomal RNAs are synthesized as three transcripts, with sizes of 28S, 18S, and 5.8S.
Question
Ribosomal proteins are synthesized in the nucleolus and then assembled onto rRNAs.
Question
The eukaryotic large ribosomal subunit contains the 28S, 5.8S, and 5S rRNAs, plus many different proteins.
Question
The nuclear envelope consists of what four major components?
Question
How does the nuclear envelope differ from the membrane of the endoplasmic reticulum?
Question
How does the structure of the outer side of the nuclear pore complex differ from that of the inner side?
Question
By what mechanism are most nuclear proteins specifically targeted to the nucleus for import?
Question
Nuclear localization signals are usually short sequences rich in which amino acids?
Question
What is the function of karyopherins?
Question
Give one example of how regulation of nuclear protein import is involved in gene regulation.
Question
Within the nucleolus, what functions are associated with the fibrillar center, dense fibrillar component, and granular component?
Question
Because of the presence of a nuclear envelope, eukaryotes can perform several functions that prokaryotes cannot. Identify one of these functions.
Question
How can fluorescence in situ hybridization be used to show that chromosomes occupy distinct domains of space within the nucleus?
Question
How does euchromatin differ from heterochromatin with respect to transcription activity?
Question
Why is most heterochromatin bound to the periphery of the nucleus?
Question
How have FISH approaches been applied to studying the arrangement of distribution of gene-rich chromosomes relative the nuclear periphery versus the center of the nucleus?
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Deck 11: The Nucleus
1
The principal difference between eukaryotic and prokaryotic cells is that eukaryotic cells have

A) larger ribosomes.
B) cell walls, whereas prokaryotic cells do not.
C) DNA replication and transcription in the same compartment, whereas prokaryotic cells do not.
D) a nucleus, whereas prokaryotic cells do not.
D
2
The nuclear envelope is continuous with the

A) mitochondrial outer membrane.
B) rough endoplasmic reticulum.
C) Golgi apparatus.
D) plasma membrane.
B
3
The nuclear lamina is built of proteins called

A) lamins.
B) laminins.
C) nucleons.
D) nucleoplasmins.
A
4
Emery-Dreifuss muscular dystrophy and Hutchinson-Gilford progeria are caused by mutations in genes that code for

A) importin or Ran.
B) Polycomb proteins.
C) NF-κB.
D) A-type nuclear lamins or emerin.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
5
The filaments of the nuclear lamina are composed of a type of

A) intermediate filament.
B) microtubule.
C) microfilament.
D) thick filament.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
6
The nuclear lamina binds to

A) both the inner nuclear envelope membrane and the chromatin.
B) the inner nuclear envelope membrane only.
C) the chromatin only.
D) both the inner and outer nuclear envelope membranes.
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k this deck
7
Lamins are associated with the inner nuclear envelope membrane via

A) GPI anchors on lamins.
B) lipid tails on lamins only.
C) lamin-binding proteins in the nuclear envelope membrane only.
D) lipid tails on lamins and lamin-binding proteins in the nuclear envelope membrane.
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k this deck
8
Nuclear pores are organized with _______ symmetry.

A) sixfold
B) eightfold
C) ninefold
D) tenfold
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Unlock Deck
k this deck
9
The major pathway for molecules to pass into and out of the nucleus is through

A) gap junctions between the nuclear envelope membranes.
B) porin channels in the nuclear envelope membranes.
C) nuclear pore complexes.
D) diffusion through the membrane bilayers of the nuclear envelope.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
10
Small molecules (< 20 kd) enter nuclei by way of

A) passive diffusion through nuclear pore complexes.
B) selective transport through nuclear pore complexes.
C) active transport across the nuclear envelope membranes.
D) passive diffusion across the nuclear envelope membranes.
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k this deck
11
Which of the following is not involved in the transport of RNAs out of the nucleus?

A) Ran
B) Expenditure of chemical energy
C) Small RNAs crossing by passive diffusion
D) Exportins
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k this deck
12
The first nuclear localization signal to be mapped is the signal responsible for the transport of

A) nucleoplasmin.
B) histone H1.
C) lamin B.
D) SV40 T antigen.
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k this deck
13
Nuclear proteins that are stripped of their nuclear localization signal and injected into the cytoplasm of cultured cells will localize

A) to the nucleus.
B) in the cytoplasm.
C) in a ring around the outside of the nuclear envelope.
D) extracellularly.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
14
The nuclear localization signal is typically a(n) _______, rich in the amino acids _______.

A) α helix; Pro, Lys, and Arg
B) α helix; Leu, Phe, and Gly
C) short sequence; Lys and Arg
D) short sequence; Pro, Leu, and Gly
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Unlock for access to all 128 flashcards in this deck.
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k this deck
15
The nuclear localization signal is recognized by and binds to which protein in the process of nuclear protein import?

A) Ran
B) Importin
C) Exportin
D) The outer fibril protein
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k this deck
16
The directionality of nuclear transport is determined by _______ in the nucleus and _______ in the cytosol.

A) high Ran; low Ran
B) low Ran; high Ran
C) high Ran/GTP; high Ran/GDP
D) high Ran/GDP; high Ran/GTP
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k this deck
17
Export of RNAs from the nucleus occurs primarily by

A) passive diffusion through nuclear pore complexes.
B) cotranscriptional insertion through protein pores of the nuclear envelope membrane.
C) selective transport through nuclear pore complexes.
D) release from the nucleus when it breaks down at mitosis.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
18
Which statement about snRNAs is true?

A) They are synthesized in the nucleus and function in the cytoplasm.
B) They are synthesized in the cytoplasm and function in the nucleus.
C) They are synthesized in the nucleus and function in the nucleus without passing into the cytoplasm.
D) They are synthesized in the nucleus, move to the cytoplasm to form functional complexes with proteins, and then return to the nucleus.
Unlock Deck
Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
19
By restricting the traffic of proteins and RNA across the nuclear envelope, eukaryotic cells can regulate _______ in unique ways.

A) translation and transcription
B) transcription only
C) translation only
D) endocytosis
Unlock Deck
Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
20
Which statement describing the chromosome conformation capture (3C) technique for chromosome structural analyses is true?

A) Sequences of DNA that are physically distant from each other are chemically linked together.
B) Most DNA-DNA interactions are between sequences on different chromosomes.
C) Sequences separated by a centromere rarely interact with each other.
D) All of the above
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
21
Highly condensed, transcriptionally inactive chromatin is called

A) euchromatin.
B) heterochromatin.
C) a chromatin domain.
D) histone-containing chromatin.
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Unlock Deck
k this deck
22
Heterochromatin is normally associated with

A) ribosomes.
B) the nuclear envelope.
C) only a few specific human chromosomes.
D) mutated chromosomes.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
23
Chromatin that contains sequences that are transcribed is called

A) euchromatin.
B) a centromere.
C) heterochromatin.
D) a telomere.
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Unlock Deck
k this deck
24
Chromatin domains are loops of at least _______ base pairs of DNA.

A) 1000
B) 10,000
C) 100,000
D) 1,000,000
Unlock Deck
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Unlock Deck
k this deck
25
Newly replicated DNA is located in a few hundred spots in the nucleus because

A) there are a few hundred origins of replication per nucleus.
B) there are a few thousand origins of replication, but only a few hundred are active at any one time.
C) there are a few thousand origins of replication active at any one time, but they are located in a few hundred discrete clusters.
D) there are so many charges drawing the DNA molecules together.
Unlock Deck
Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
26
Sites of newly replicated DNA can be detected with antibodies if the DNA is labeled with

A) tritiated thymidine.
B) tritiated uridine.
C) bromodeoxyuridine.
D) bromouridine.
Unlock Deck
Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
27
The nucleolus is the site where _______ is(are) assembled.

A) ribosomal subunits
B) nuclear pores
C) chromatin
D) the nuclear matrix
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Unlock Deck
k this deck
28
The region of chromosomes that codes for most of the rRNAs is found in the

A) nucleolus.
B) nucleolar organizing region.
C) ribosomal assembly region.
D) ribosomal organizer region.
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k this deck
29
The 5.8S rRNA associates with

A) Cajal bodies.
B) the large subunit of the ribosome.
C) the small subunit of the ribosome.
D) the interface between the large and small subunits of a functional ribosome.
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k this deck
30
The eukaryotic 45S pre-rRNA transcript codes for the

A) 28S rRNA.
B) 28S and 18S rRNAs.
C) 28S, 18S, and 5.8S rRNAs.
D) 28S, 18S, 5.8S, and 5S rRNAs.
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k this deck
31
Most snoRNAs

A) splice cleaved mRNAs.
B) splice cleaved rRNAs.
C) cleave the 45S rRNA.
D) guide regions of rRNAs to modifying enzymes.
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k this deck
32
Eukaryotic ribosomes leave the nucleus as

A) intact 80S ribosomes.
B) intact 70S ribosomes.
C) 40S and 60S ribosomal subunits.
D) 18S and 28S rRNAs.
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k this deck
33
Cleaving of pre-rRNA produces

A) the 28S rRNA.
B) the 18S rRNA.
C) both 28S and 18S rRNAs.
D) the 28S, 18S, and 5.8S rRNAs.
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k this deck
34
The genes encoding 5.8S, 18S, and 28S ribosome RNA are clustered together in

A) tandem arrays located on one chromosome.
B) tandem arrays interspersed with tandem arrays of genes encoding 5S ribosomal RNA.
C) tandem arrays located on three chromosomes.
D) tandem arrays located on five chromosomes.
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
35
Which of the following is an example of nucleolar involvement in processing of non-rRNAs?

A) Base modification within tRNAs catalyzed by snoRNPs
B) Storage of pre-mRNA splicing factors
C) Gene silencing
D) Proteasomal proteolysis
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
36
Polycomb proteins consist of _______ complex(es) and are concentrated in Polycomb bodies within the nucleus.

A) 1
B) 2
C) 3
D) either 2 or 3, depending on cell type
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k this deck
37
Polycomb bodies act on _______ regions of chromatin, silencing gene expression.

A) adjacent
B) distant
C) both adjacent and distant
D) very short
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Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
38
Polycomb proteins promote heterochromatin formation and gene silencing by

A) acetylating lysine 27 of histone 3.
B) deacetylating lysine 27 of histone 3.
C) methylating lysine 27 of histone 3.
D) methylating lysine 9 of histone 3.
Unlock Deck
Unlock for access to all 128 flashcards in this deck.
Unlock Deck
k this deck
39
Cajal bodies are thought to represent sites of

A) DNA replication.
B) snRNA processing and assembly.
C) large ribosomal subunit assembly.
D) small ribosomal subunit assembly.
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Unlock Deck
k this deck
40
In eukaryotic cells, the contents of the nucleus are separated from the cytoplasm by the _______.
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k this deck
41
Entry into the nucleus is limited by the _______ and the _______ complexes.
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k this deck
42
Underlying the nuclear envelope is the _______, a fibrous meshwork composed of proteins called _______.
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43
Mutations in the fibrous protein underlying the nuclear envelope can cause premature _______, or progeria.
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44
Depending on size, molecules can enter the nucleus by the process of _______ or _______.
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45
Receptor-dependent protein transport into the nucleus requires the recognition of a _______ on the cargo protein.
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46
Proteins called _______ act as receptors for cargo protein import into the nucleus, and proteins called _______ play the corresponding role in export from the nucleus.
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47
A major regulatory protein for nuclear import and export of proteins is the small GTPase _______.
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48
Transcriptionally active chromatin, which is called _______, is decondensed, while transcriptionally inactive chromatin, which is called _______, is highly condensed.
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49
Individual chromosomes occupy distinct _______ within the nucleus.
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50
In addition to replication factories, the nucleus contains a number of discrete structures, maintained by protein-protein and protein-RNA interactions, that are referred to as _______.
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51
The most prominent nuclear body, the _______, is the site of ribosome production and rRNA processing and synthesis.
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52
In humans, pre-ribosomal RNA consists of a large 45S RNA that contains nucleotide sequences corresponding to _______ different individual rRNAs found within ribosomes.
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53
In ribosome assembly, _______ that were synthesized in the cytoplasm are assembled into complexes on pre-ribosomal RNA molecules.
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54
Nuclear speckles are nuclear bodies that contain _______ and snRNPs.
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55
The nuclear envelope is composed of one nuclear membrane and an underlying nuclear lamina.
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56
The nuclear pore complexes provide the only known routes through which molecules can travel between the nucleus and the cytoplasm of interphase cells.
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57
The activity of some proteins is regulated by controlling their ability to be imported into the nucleus.
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58
All molecules found in the nucleus have been transported there via a process that requires ATP.
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59
Small nuclear RNAs are synthesized in the nucleus and function there without ever leaving the nucleus.
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60
Messenger RNAs are transported through the nuclear pores as ribonucleoprotein particles.
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61
Individual chromosomes occupy discrete territories within the nucleus.
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62
Inactive, condensed chromatin is called heterochromatin.
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63
Chromatin domains appear to represent discrete functional units that independently regulate gene expression.
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64
The nucleolus is the site of rRNA synthesis and processing and of ribosomal subunit assembly.
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65
Eukaryotic ribosomal RNAs are synthesized as three transcripts, with sizes of 28S, 18S, and 5.8S.
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66
Ribosomal proteins are synthesized in the nucleolus and then assembled onto rRNAs.
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67
The eukaryotic large ribosomal subunit contains the 28S, 5.8S, and 5S rRNAs, plus many different proteins.
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68
The nuclear envelope consists of what four major components?
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69
How does the nuclear envelope differ from the membrane of the endoplasmic reticulum?
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70
How does the structure of the outer side of the nuclear pore complex differ from that of the inner side?
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71
By what mechanism are most nuclear proteins specifically targeted to the nucleus for import?
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72
Nuclear localization signals are usually short sequences rich in which amino acids?
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73
What is the function of karyopherins?
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74
Give one example of how regulation of nuclear protein import is involved in gene regulation.
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75
Within the nucleolus, what functions are associated with the fibrillar center, dense fibrillar component, and granular component?
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76
Because of the presence of a nuclear envelope, eukaryotes can perform several functions that prokaryotes cannot. Identify one of these functions.
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77
How can fluorescence in situ hybridization be used to show that chromosomes occupy distinct domains of space within the nucleus?
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78
How does euchromatin differ from heterochromatin with respect to transcription activity?
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79
Why is most heterochromatin bound to the periphery of the nucleus?
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80
How have FISH approaches been applied to studying the arrangement of distribution of gene-rich chromosomes relative the nuclear periphery versus the center of the nucleus?
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