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Deck 7: Archael and Eukaryotic Molecular Biology

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Question
RdRP is an enzyme that copies siRNA in

A) plants.
B) Archaea.
C) Bacteria.
D) humans.
Use Space or
up arrow
down arrow
to flip the card.
Question
Archaeal introns are excised by

A) a specific endoribonuclease.
B) a ribozyme.
C) the spliceosome.
D) restriction endonucleases.
Question
Histones are positively charged _ that bind to and neutralize the charge of , which is caused by the presence of phosphate groups.

A) DNA / DNA
B) DNA / RNA
C) proteins / DNA
D) RNA / RNA
Question
The processes of transcription and translation are coupled processes in

A) eukaryotic cells.
B) prokaryotic cells.
C) both eukaryotic and prokaryotic cells.
D) neither eukaryotic nor prokaryotic cells.
Question
Intron removal and exon joining are accomplished by the

A) cytoskeleton.
B) microtubules.
C) spliceosome.
D) telomerase enzyme.
Question
The assemblage of proteins that serve as a binding site for spindle fibers and bind to chromosomal DNA at the centromere region are called

A) telomeres.
B) mitotic spindle complexes.
C) chromatids.
D) kinetochore complexes.
Question
Which enzyme aids in replication of DNA at the guanine- rich 3' end of a strand of DNA?

A) DNA polymerase
B) hydrolase
C) RNAse
D) telomerase
Question
Protein- encoding genes are often split into two or more coding regions called and noncoding regions known as .

A) introns / exteins
B) exons / introns
C) exons / inteins
D) introns / exons
Question
During eukaryotic RNA processing methylated guanine nucleotides are added at the terminus in a process called .

A) 3' / polytailing
B) 5' / polytailing
C) 5' / capping
D) 3' / capping
Question
Compared with the amount of DNA in a single yeast chromosome, the amount of DNA in a single prokaryotic chromosome is

A) less.
B) not discernible without comparing specific species.
C) about the same.
D) greater.
Question
Healthy eukaryotic cells contain all of the following EXCEPT

A) proteins.
B) ssRNA.
C) dsDNA.
D) dsRNA.
Question
The antibiotic rifampicin inhibits RNA polymerase from which domain?

A) Archaea
B) Bacteria
C) Eukarya
D) Rifampicin does not inhibit RNA polymerase from any of these domains.
Question
The first amino acid in an archaeal protein is

A) N- formylserine.
B) methionine.
C) pyrrolysine.
D) N- formylmethionine.
Question
Both Bacteria and Archaea share the trait of

A) transcribing several genes onto the same polycistronic mRNA.
B) lacking a nucleus.
C) the genome being typically a single circular chromosome.
D) all of the above.
Question
An important sequence in the initiation of transcription in Archaea is the

A) Pribnow box.
B) start codon.
C) TATA box.
D) polysome site.
Question
Archaeal and bacterial mRNA often serve as templates for several different proteins to be co- transcribed, however eukaryotic mRNA that makes only a single protein are

A) monocistronic.
B) unique during meiosis.
C) called inteins.
D) a result of too much splicing.
Question
The Archaea were originally regarded as members of the Bacteria because

A) neither has membrane- bound organelles.
B) neither has a nucleus.
C) both typically contain a single circular chromosome.
D) all of the above are correct.
Question
Which statement is TRUE?

A) Introns are the exception rather than the rule in eukaryotic encoding genes, and the lower eukaryotes have fewer and smaller introns than the higher eukaryotes.
B) Essentially all eukaryotic encoding genes have introns, and the higher eukaryotes have more introns than the lower eukaryotes.
C) Essentially all eukaryotic encoding genes have introns, and the lower eukaryotes have fewer introns than the higher eukaryotes.
D) Introns are the exception rather than the rule in eukaryotic encoding genes, and the higher eukaryotes have fewer and smaller introns than the lower eukaryotes.
Question
Which of the following statements is NOT true regarding transcription?

A) The TATA box is unique to Archaea, Eukarya, and the Pribnow promoter region in Bacteria.
B) Archaea use only one type of RNA polymerase, which is similar to the eukaryotic RNA polymerase II.
C) All promoters in Archaea and Eukarya require transcription factors for RNA polymerase recruitment.
D) Relatively little is understood about how an archaeon terminates a transcript except that Rho- like proteins are involved.
Question
An mRNA transcript may be polycistronic in

A) eukaryotic cells.
B) prokaryotic cells.
C) both eukaryotic and prokaryotic cells.
D) neither eukaryotic nor prokaryotic cells.
Question
RNA processing in eukaryotic cells removes .
Question
Regulation of transcription in Archaea is similar to that of , while the transcription apparatus of Archaea is similar to that of .
Question
The complex of DNA plus histones is known as _ and when highly condensed is called .
Question
The is that contains both introns and exons.
Question
Bacteria use DNA polymerases of family C as their _ , whereas DNA polymerases of families A and B are used mostly in _ .
Question
are introns that fold up to generate three- dimensional structures with _ activity.
Question
Eukaryotic chromosomes contain both and _ that Archaea and Bacteria
lack.
Question
Which statement is TRUE?

A) Proteins are not associated with either prokaryotic or eukaryotic chromosomes.
B) Proteins are equally associated with prokaryotic and eukaryotic chromosomes.
C) Large amounts of protein are bound to eukaryotic DNA in a very regular fashion, whereas proteins are absent from prokaryotic DNA.
D) Large amounts of protein are bound to prokaryotic DNA in a very regular fashion, whereas proteins are absent from eukaryotic DNA.
Question
The stabilizes mRNA and indicates to the translation machinery that the RNA is mRNA rather than some other form of RNA.
Question
is a specific type of regulatory RNA that minimizes sequence repeats in of higher animals.
Question
Monocistronic mRNA occurs in domain , while polycistronic mRNA occurs in domain .
Question
The presence of dsRNA usually indicates the presence of _ within a cell; this molecule is eliminated from eukaryotes through a mechanism known as _.
Question
Chromosomal DNA at regular intervals contains condensed DNA complexes, in which DNA is wrapped around a histone tetramer in Archaea and a histone octamer in Eukarya, and are called

A) histonosomes.
B) chromatin.
C) nucleosomes.
D) supercoiled DNA.
Question
During mRNA processing, nucleotide sequences are removed as a(n) .
Question
The guanine- rich sequence that can base pair with the 3' end of a complementary RNA present in telomerase is found on the strand of DNA.
Question
snRNPs are involved in the process of .
Question
Telomeres are

A) regions that provide an attachment site for the spindle fibers that pull paired chromosomes apart during mitosis.
B) the complex assemblage of proteins that links the DNA of the centromere region to the spindle fibers.
C) repetitive DNA sequences that are used to replicate the ends of eukaryotic chromosomes.
D) specific proteins that bind to the ends of linear chromosomes and provide DNA polymerase with a free hydroxyl group onto which the first nucleotide can be added.
Question
is the process that occurs in each haploid Saccharomyces cerevisiae cell before cell division.
Question
The 5.8S rRNA is a ribosomal protein found in but not in .
Question
Regulation of transcription in Archaea shares major similarities with that of Bacteria, perhaps because of and _.
Question
The RISC complex recognizes and destroys ssRNA (e.g., mRNA) that corresponds in sequence to siRNA.
Question
Both intron and exon regions are transcribed into the primary transcript.
Question
Technically, telomerase is an unusual type of reverse transcriptase.
Question
is the enzyme that introduces positive supercoils into DNA that is found in the
domain(s).
Question
Regulation of transcription in Archaea is more similar to that which occurs in eukaryotes than in bacteria.
Question
Comparative rRNA gene sequencing has revealed a closer genetic relationship between Archaea
and Bacteria than between Archaea and Eukarya.
Question
All organisms possess multiple DNA polymerases in part due to their functional diversity that all cells require.
Question
Transcription and translation are spatially separate processes in , because the
are located in the nucleus and the are in the cytoplasm.
Question
Cells that have two of each chromosome are , whereas cells that have only one copy of each chromosome are .
Question
With rare exceptions, reverse gyrase is present only in .
Question
RNA polymerase I transcribes genes for _ , RNA polymerase II transcribes genes for all of the , and RNA polymerase III transcribes genes for .
Question
Positive supercoiling protects archaeal DNA against ultraviolet (UV) radiation.
Question
The guanosine cap that is formed during mRNA processing is needed for translation because _ .
Question
Archaea contain RNA polymerase(s), which have roughly three times more subunits than those found in .
Question
From the standpoint of molecular biology, two similarities between the Archaea and the
Eukarya are and _ .
Question
The conserved sequence of the in eukaryotes somewhat resembles the Pribnow box in the promoters of Bacteria.
Question
Archaeal transcript splicing first uses a(n) to excise introns and lastly joins the exons together with _ .
Question
All DNA polymerases must add each nucleotide to a(n) , which is often denoted as the end.
Question
Histones are universally present in prokaryotic cells.
Question
Several genes encoding and of Archaea possess introns that must be removed following transcription to generate the mature molecules.
Question
Ribosomes contain rRNA plus proteins. All of the proteins contained in the ribosome are common to Archaea, Bacteria, and Eukarya.
Question
RNAi is triggered by dsDNA of greater than 20 bp in length.
Question
Reverse gyrase introduces negative supercoils into DNA.
Question
Introns and exons are found in Eukarya, but they are extremely rare in both Bacteria and Archaea.
Question
Prokaryotes have almost no introns. What is the significance of this?
Question
Consider the lifetime of an mRNA transcript within an archaeon, a bacterium, and a eukaryote. In which cell type might these last the longest and why?
Question
Compare and contrast RNA interference (RNAi) and restriction endonucleases.
Question
Explain why multiple origins of replication are seen in the chromosomes of Archaea and Eukarya.
Question
Explain why a mutation in the gene that encodes telomerase would be a lethal mutation.
Question
DNA packaging in Archaea resembles both Bacteria and Eukarya. In what way(s) is DNA packaging analogous to
Bacteria and in what way(s) is it analogous to Eukarya?
Question
Explain why it is unsurprising that mitochondria and chloroplasts contain RNA polymerase, which is bacterial in origin.
Question
Proteins resembling the Rho proteins in Bacteria have been detected in Archaea.
Question
The translational machinery of Archaea is more similar to Bacteria than to Eukarya.
Question
Diagram the process of meiosis.
Question
Suppose you are comparing the protein- encoding DNA from two species. In one species, 92% of the DNA encodes proteins, while in the second species, only 7.5% of the DNA encodes proteins. To what domain does each species belong? Explain your answer fully.
Question
Compare and contrast enzymes and ribozymes of self- splicing introns.
Question
Explain how eukaryotic chromosomes are formed.
Question
Explain the necessity for a protein primer during replication of linear DNA.
Question
In eukaryotes, DNA is wound around clusters of histones, forming structures known as nucleosomes.
Question
Compare and contrast the processes of meiosis and mitosis.
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Deck 7: Archael and Eukaryotic Molecular Biology
1
RdRP is an enzyme that copies siRNA in

A) plants.
B) Archaea.
C) Bacteria.
D) humans.
A
2
Archaeal introns are excised by

A) a specific endoribonuclease.
B) a ribozyme.
C) the spliceosome.
D) restriction endonucleases.
A
3
Histones are positively charged _ that bind to and neutralize the charge of , which is caused by the presence of phosphate groups.

A) DNA / DNA
B) DNA / RNA
C) proteins / DNA
D) RNA / RNA
C
4
The processes of transcription and translation are coupled processes in

A) eukaryotic cells.
B) prokaryotic cells.
C) both eukaryotic and prokaryotic cells.
D) neither eukaryotic nor prokaryotic cells.
Unlock Deck
Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
5
Intron removal and exon joining are accomplished by the

A) cytoskeleton.
B) microtubules.
C) spliceosome.
D) telomerase enzyme.
Unlock Deck
Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
6
The assemblage of proteins that serve as a binding site for spindle fibers and bind to chromosomal DNA at the centromere region are called

A) telomeres.
B) mitotic spindle complexes.
C) chromatids.
D) kinetochore complexes.
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Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
7
Which enzyme aids in replication of DNA at the guanine- rich 3' end of a strand of DNA?

A) DNA polymerase
B) hydrolase
C) RNAse
D) telomerase
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Unlock Deck
k this deck
8
Protein- encoding genes are often split into two or more coding regions called and noncoding regions known as .

A) introns / exteins
B) exons / introns
C) exons / inteins
D) introns / exons
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Unlock Deck
k this deck
9
During eukaryotic RNA processing methylated guanine nucleotides are added at the terminus in a process called .

A) 3' / polytailing
B) 5' / polytailing
C) 5' / capping
D) 3' / capping
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10
Compared with the amount of DNA in a single yeast chromosome, the amount of DNA in a single prokaryotic chromosome is

A) less.
B) not discernible without comparing specific species.
C) about the same.
D) greater.
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Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
11
Healthy eukaryotic cells contain all of the following EXCEPT

A) proteins.
B) ssRNA.
C) dsDNA.
D) dsRNA.
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Unlock Deck
k this deck
12
The antibiotic rifampicin inhibits RNA polymerase from which domain?

A) Archaea
B) Bacteria
C) Eukarya
D) Rifampicin does not inhibit RNA polymerase from any of these domains.
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Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
13
The first amino acid in an archaeal protein is

A) N- formylserine.
B) methionine.
C) pyrrolysine.
D) N- formylmethionine.
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Unlock Deck
k this deck
14
Both Bacteria and Archaea share the trait of

A) transcribing several genes onto the same polycistronic mRNA.
B) lacking a nucleus.
C) the genome being typically a single circular chromosome.
D) all of the above.
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Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
15
An important sequence in the initiation of transcription in Archaea is the

A) Pribnow box.
B) start codon.
C) TATA box.
D) polysome site.
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Unlock Deck
k this deck
16
Archaeal and bacterial mRNA often serve as templates for several different proteins to be co- transcribed, however eukaryotic mRNA that makes only a single protein are

A) monocistronic.
B) unique during meiosis.
C) called inteins.
D) a result of too much splicing.
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Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
17
The Archaea were originally regarded as members of the Bacteria because

A) neither has membrane- bound organelles.
B) neither has a nucleus.
C) both typically contain a single circular chromosome.
D) all of the above are correct.
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Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
18
Which statement is TRUE?

A) Introns are the exception rather than the rule in eukaryotic encoding genes, and the lower eukaryotes have fewer and smaller introns than the higher eukaryotes.
B) Essentially all eukaryotic encoding genes have introns, and the higher eukaryotes have more introns than the lower eukaryotes.
C) Essentially all eukaryotic encoding genes have introns, and the lower eukaryotes have fewer introns than the higher eukaryotes.
D) Introns are the exception rather than the rule in eukaryotic encoding genes, and the higher eukaryotes have fewer and smaller introns than the lower eukaryotes.
Unlock Deck
Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
19
Which of the following statements is NOT true regarding transcription?

A) The TATA box is unique to Archaea, Eukarya, and the Pribnow promoter region in Bacteria.
B) Archaea use only one type of RNA polymerase, which is similar to the eukaryotic RNA polymerase II.
C) All promoters in Archaea and Eukarya require transcription factors for RNA polymerase recruitment.
D) Relatively little is understood about how an archaeon terminates a transcript except that Rho- like proteins are involved.
Unlock Deck
Unlock for access to all 85 flashcards in this deck.
Unlock Deck
k this deck
20
An mRNA transcript may be polycistronic in

A) eukaryotic cells.
B) prokaryotic cells.
C) both eukaryotic and prokaryotic cells.
D) neither eukaryotic nor prokaryotic cells.
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k this deck
21
RNA processing in eukaryotic cells removes .
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22
Regulation of transcription in Archaea is similar to that of , while the transcription apparatus of Archaea is similar to that of .
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Unlock Deck
k this deck
23
The complex of DNA plus histones is known as _ and when highly condensed is called .
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k this deck
24
The is that contains both introns and exons.
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k this deck
25
Bacteria use DNA polymerases of family C as their _ , whereas DNA polymerases of families A and B are used mostly in _ .
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k this deck
26
are introns that fold up to generate three- dimensional structures with _ activity.
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k this deck
27
Eukaryotic chromosomes contain both and _ that Archaea and Bacteria
lack.
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Unlock Deck
k this deck
28
Which statement is TRUE?

A) Proteins are not associated with either prokaryotic or eukaryotic chromosomes.
B) Proteins are equally associated with prokaryotic and eukaryotic chromosomes.
C) Large amounts of protein are bound to eukaryotic DNA in a very regular fashion, whereas proteins are absent from prokaryotic DNA.
D) Large amounts of protein are bound to prokaryotic DNA in a very regular fashion, whereas proteins are absent from eukaryotic DNA.
Unlock Deck
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Unlock Deck
k this deck
29
The stabilizes mRNA and indicates to the translation machinery that the RNA is mRNA rather than some other form of RNA.
Unlock Deck
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Unlock Deck
k this deck
30
is a specific type of regulatory RNA that minimizes sequence repeats in of higher animals.
Unlock Deck
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k this deck
31
Monocistronic mRNA occurs in domain , while polycistronic mRNA occurs in domain .
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32
The presence of dsRNA usually indicates the presence of _ within a cell; this molecule is eliminated from eukaryotes through a mechanism known as _.
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k this deck
33
Chromosomal DNA at regular intervals contains condensed DNA complexes, in which DNA is wrapped around a histone tetramer in Archaea and a histone octamer in Eukarya, and are called

A) histonosomes.
B) chromatin.
C) nucleosomes.
D) supercoiled DNA.
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Unlock Deck
k this deck
34
During mRNA processing, nucleotide sequences are removed as a(n) .
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k this deck
35
The guanine- rich sequence that can base pair with the 3' end of a complementary RNA present in telomerase is found on the strand of DNA.
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Unlock Deck
k this deck
36
snRNPs are involved in the process of .
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k this deck
37
Telomeres are

A) regions that provide an attachment site for the spindle fibers that pull paired chromosomes apart during mitosis.
B) the complex assemblage of proteins that links the DNA of the centromere region to the spindle fibers.
C) repetitive DNA sequences that are used to replicate the ends of eukaryotic chromosomes.
D) specific proteins that bind to the ends of linear chromosomes and provide DNA polymerase with a free hydroxyl group onto which the first nucleotide can be added.
Unlock Deck
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38
is the process that occurs in each haploid Saccharomyces cerevisiae cell before cell division.
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k this deck
39
The 5.8S rRNA is a ribosomal protein found in but not in .
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k this deck
40
Regulation of transcription in Archaea shares major similarities with that of Bacteria, perhaps because of and _.
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k this deck
41
The RISC complex recognizes and destroys ssRNA (e.g., mRNA) that corresponds in sequence to siRNA.
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k this deck
42
Both intron and exon regions are transcribed into the primary transcript.
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k this deck
43
Technically, telomerase is an unusual type of reverse transcriptase.
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44
is the enzyme that introduces positive supercoils into DNA that is found in the
domain(s).
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k this deck
45
Regulation of transcription in Archaea is more similar to that which occurs in eukaryotes than in bacteria.
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Unlock Deck
k this deck
46
Comparative rRNA gene sequencing has revealed a closer genetic relationship between Archaea
and Bacteria than between Archaea and Eukarya.
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Unlock Deck
k this deck
47
All organisms possess multiple DNA polymerases in part due to their functional diversity that all cells require.
Unlock Deck
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Unlock Deck
k this deck
48
Transcription and translation are spatially separate processes in , because the
are located in the nucleus and the are in the cytoplasm.
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k this deck
49
Cells that have two of each chromosome are , whereas cells that have only one copy of each chromosome are .
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k this deck
50
With rare exceptions, reverse gyrase is present only in .
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51
RNA polymerase I transcribes genes for _ , RNA polymerase II transcribes genes for all of the , and RNA polymerase III transcribes genes for .
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52
Positive supercoiling protects archaeal DNA against ultraviolet (UV) radiation.
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53
The guanosine cap that is formed during mRNA processing is needed for translation because _ .
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54
Archaea contain RNA polymerase(s), which have roughly three times more subunits than those found in .
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k this deck
55
From the standpoint of molecular biology, two similarities between the Archaea and the
Eukarya are and _ .
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k this deck
56
The conserved sequence of the in eukaryotes somewhat resembles the Pribnow box in the promoters of Bacteria.
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k this deck
57
Archaeal transcript splicing first uses a(n) to excise introns and lastly joins the exons together with _ .
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58
All DNA polymerases must add each nucleotide to a(n) , which is often denoted as the end.
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k this deck
59
Histones are universally present in prokaryotic cells.
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k this deck
60
Several genes encoding and of Archaea possess introns that must be removed following transcription to generate the mature molecules.
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Unlock Deck
k this deck
61
Ribosomes contain rRNA plus proteins. All of the proteins contained in the ribosome are common to Archaea, Bacteria, and Eukarya.
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k this deck
62
RNAi is triggered by dsDNA of greater than 20 bp in length.
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k this deck
63
Reverse gyrase introduces negative supercoils into DNA.
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k this deck
64
Introns and exons are found in Eukarya, but they are extremely rare in both Bacteria and Archaea.
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65
Prokaryotes have almost no introns. What is the significance of this?
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66
Consider the lifetime of an mRNA transcript within an archaeon, a bacterium, and a eukaryote. In which cell type might these last the longest and why?
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67
Compare and contrast RNA interference (RNAi) and restriction endonucleases.
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68
Explain why multiple origins of replication are seen in the chromosomes of Archaea and Eukarya.
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69
Explain why a mutation in the gene that encodes telomerase would be a lethal mutation.
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70
DNA packaging in Archaea resembles both Bacteria and Eukarya. In what way(s) is DNA packaging analogous to
Bacteria and in what way(s) is it analogous to Eukarya?
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71
Explain why it is unsurprising that mitochondria and chloroplasts contain RNA polymerase, which is bacterial in origin.
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72
Proteins resembling the Rho proteins in Bacteria have been detected in Archaea.
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73
The translational machinery of Archaea is more similar to Bacteria than to Eukarya.
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74
Diagram the process of meiosis.
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75
Suppose you are comparing the protein- encoding DNA from two species. In one species, 92% of the DNA encodes proteins, while in the second species, only 7.5% of the DNA encodes proteins. To what domain does each species belong? Explain your answer fully.
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76
Compare and contrast enzymes and ribozymes of self- splicing introns.
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77
Explain how eukaryotic chromosomes are formed.
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78
Explain the necessity for a protein primer during replication of linear DNA.
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79
In eukaryotes, DNA is wound around clusters of histones, forming structures known as nucleosomes.
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80
Compare and contrast the processes of meiosis and mitosis.
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