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Deck 11: Genetic Engineering and Biotechnology

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Question
Which statement is TRUE?

A)YACs are more likely than BACs to undergo recombination and rearrangement.
B)BACs are more likely than YACs to undergo recombination and rearrangement.
C)YACs and BACs undergo recombination and rearrangement at about the same rate.
D)It is impossible to state with any certainty whether YACs or BACs are more likely to undergo recombination and rearrangement,because environmental factors play a major role in the probability of one or the other occurring.
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Question
Which objective would be best to use a Southern blot rather than a Northern blot?

A)Determine if a gene is present in a genome.
B)Discover gene function.
C)Identify regulatory gene-protein interactions.
D)Quantify expression profiles of a gene.
Question
To discover a catabolic gene cluster,cloning large sequences of approximately 40 kbp requires the utility of

A)bacterial artificial chromosomes (BACs).
B)cosmids or fosmids.
C)a eukaryotic host to house the large foreign DNA.
D)multiple gene fusions.
Question
If a foreign gene is cloned into an expression host,it is important that the host itself

A)not produce the protein being studied.
B)produce the protein in larger amounts than the vector.
C)repress the genetic expression being studied.
D)produce signal proteins to tag the host protein.
Question
At which time period(s)during PCR thermocycling is/are hottest in temperature?

A)during DNA denaturation
B)during primer annealing
C)during primer extension/elongation
D)Both the first and last cycles are hotter in temperature than all other cycles.
Question
What molecular mechanism/feature does site-directed mutagenesis exploit to introduce a mutation at a specific site?

A)flanking complementary bound nucleotides permit non-complementary base pairing
B)methylated nucleotides disrupt DNA polymerase's proofreading
C)nucleotide substitution when one is depleted
D)transposase-induced base pair changes
Question
One of the more formidable obstacles to mammalian gene cloning is the presence of

A)introns.
B)exons.
C)repressors.
D)integrators.
Question
Inserting a kanamycin resistance cassette into a catabolic operon to confirm the gene is essential in degradation of a particular compound would involve all of the following EXCEPT

A)a reporter gene.
B)ligation.
C)recombination.
D)transformation.
Question
Which of the following sequences would be cleaved by a type II restriction endonuclease?

A)TTGCCGA AACGGCT
B)GGGGGGG CCCCCCCC
C)GTAATG CATTAC
D)GAATTC CTTAAG
Question
Which of those listed below is LEAST similar in what is measured and concluded?

A)fluorescence in situ hybridization
B)GFP fusion protein
C)Northern blot
D)RT-PCR
Question
Expression vectors are designed to ensure that ________ can be efficiently ________.

A)mRNA / transcribed
B)DNA / transcribed
C)mRNA / translated
D)DNA / translated
Question
A polymerase chain reaction (PCR)copies an individual gene segment in vitro with a(n)________ primer(s).

A)individual RNA
B)individual DNA
C)pair of RNA
D)pair of DNA
Question
Detecting a specific protein with an antibody is considered a(n)________ method.

A)selection
B)screening
C)isolation
D)duplication
Question
The genes encoding luciferase,green fluorescent protein (GFP),and β-galactosidase are typically used in cloning as

A)transcription regulators.
B)global control genes.
C)promoter sequences.
D)reporter genes.
Question
To verify a gene was cloned into a vector successfully,sequencing the vector as well as ________ are commonly performed.

A)agarose gel electrophoresis
B)fluorescence in situ hybridization
C)protein purification
D)northern blots
Question
To estimate the total concentration of a beneficial bacterial species in yogurt,________ would provide the quickest results.

A)fluorescence in situ hybridization
B)qPCR
C)RT-PCR
D)a Southern blot
Question
Which of the following is NOT a common step in creating a genomic library?

A)Fragment DNA into small segments.
B)Hybridize DNA sequences to form inserts of a target size range.
C)Ligate DNA into vectors.
D)Transform the vectors into a host.
Question
A(n)________ gene is a gene that encodes a protein that is easy to detect and assay.

A)encoder
B)translational
C)reporter
D)recorder
Question
Which of the following is NOT a characteristic of a type II restriction endonuclease?

A)cleavage product can be either blunt or sticky ended but is always the same for an individual enzyme
B)recognizes a specific palindromic site for cleavage
C)recognition site length varies among enzymes but is always the same for an individual enzyme
D)unable to cleave methylated DNA
Question
What type of vector can replicate and be maintained stably in two (or more)unrelated host organisms?

A)virus
B)expression
C)shuttle
D)integrating
Question
What makes eukaryotic transcripts easier to isolate than transcripts in bacteria?

A)Eukaryotic transcripts are not methylated but their genes are often methylated.
B)Larger transcript size in eukaryotes enables easy size-selection methods.
C)mRNA is polyadenylated in eukaryotes.
D)Transcripts are the most abundant RNAs in eukaryotes.
Question
After digesting a DNA sequence,a restriction endonuclease can generate

A)blunt ends.
B)overhangs.
C)sticky ends.
D)blunt ends,overhangs,or sticky ends.
Question
The principle underlying how salmon were genetically engineered to grow faster is the

A)removal of a gene responsible for feeling full after eating.
B)replacement of inducible to constitutive hormone production.
C)resistance to bacterial infections which waste metabolic energy in the salmon to fight off.
D)addition of genes to enhance blood circulation and tissue development.
Question
Recognizing pathogens that contain multiple unique proteins which enable the human immune system to recognize just one and mount an effective response has opened the door on development of some vaccines only being

A)attenuated carrier viruses.
B)monovalent.
C)subunit vaccines.
D)purified protein administered.
Question
Type II restriction endonucleases

A)are heterodimers.
B)natively function to methylate specific nucleotides and prevent foreign DNA from being incorporated into the genome.
C)recognize nucleotide sequences that are palindromic.
D)require ATP energy to cleave dsDNA.
Question
The enzyme that covalently links both strands of a vector and inserted DNA in molecular cloning is

A)DNA ligase.
B)DNA phosphatase.
C)DNA hydrolase.
D)DNA transferase.
Question
Using a host defective in proteases is likely to be necessary when engineering

A)a complete metabolic pathway requiring several different enzymes.
B)overproducing proteins.
C)production of a small protein.
D)transgenic animals with immune systems.
Question
Which of the following is NOT an example of synthetic biology?

A)assembling gene sequences together into genome and creating a living organism from it
B)creating a new metabolic pathway that produces a previously unidentified compound
C)developing a novel polyvalent vaccine
D)making Escherichia coli phototrophic
Question
Polyvalent vaccines using vaccinia virus are highly favored by doctors and physicians but are especially challenging for those who develop them,because

A)coat proteins form a relatively rigid structure and do not allow much space for additional proteins to be expressed.
B)multiple foreign proteins simultaneously synthesized often disrupts each other's activity.
C)vaccinia and most other viruses engineered for vaccines contain only one restriction site for cloning in their genome.
D)virus genetic manipulation uses transfection,which is an inherently inefficient process.
Question
Some proteins overexpressed at high levels resulting in the formation of inclusion bodies can abolish the goal of producing large quantities of active protein.What could be done to minimize this issue?

A)Codon optimize the gene.
B)Decrease the number of biobricks in the vector.
C)Simultaneously produce intracellular chaperonins.
D)Switch to an expression host with a larger intracellular volume.
Question
A shuttle vector is most useful for

A)engineering a complete metabolic pathway.
B)identifying the localization of a protein.
C)knocking out a gene by cassette displacement.
D)making a foreign protein in a mammalian cell.
Question
The principle behind a nucleic acid probe design is that the probe itself must contain

A)a key complementary part of the target gene sequence of interest.
B)all of the nucleotide sequence of the gene of interest to conclusively identify the gene.
C)an antibody to specifically bind to the gene of interest.
D)at least three separate complementary regions of the gene of interest.
Question
A poorly immunogenic vaccine often suggests the foreign proteins were not properly recognized by the immune system due to a lack of ________ necessary,which can also be engineered to occur with additional molecular manipulations.

A)complex folding
B)methylation
C)glucosylation
D)glycosylation
Question
Cloning vectors can be distinguished from expression vectors by

A)carrying ori genes for replication of the cloned sequence.
B)having a multiple cloning site (MCS).
C)having a high copy number per cell.
D)lacking a promoter site upstream of the insertion site.
Question
If a protein to be overexpressed is toxic to the expression host,it is best to select an expression vector that

A)is compatible with a binary vector able to be regulated.
B)is inducible.
C)has a relatively low copy number per cell.
D)prevents folding of the overexpressed protein into its toxic form.
Question
Which of the following terms is used to describe a synthetic DNA fragment?

A)DNA cassette
B)DNA hybrid
C)recombinant DNA
D)artificial chromosome
Question
Which of those below is NOT an important consideration when designing a fusion protein construct?

A)Avoid hybridization of the fusion gene in the artificial construct.
B)Reading frame is the same for both the fusion gene and reporter gene.
C)Transcriptional start and stop signals are shared.
D)Translational start and stop signals are shared.
Question
The Ti plasmid is best suited for genetically manipulating

A)Agrobacterium spp.
B)fish.
C)plants.
D)viruses.
Question
Which construct would be MOST useful in studying translational control?

A)gene fusion
B)operon fusion
C)protein fusion
D)shuttle vector
Question
While other types exist,Type II restriction endonucleases are by far the most commonly used enzymes for genetic engineering.
Question
Due to well developed molecular tools and careful screening designs,functional genes can be isolated directly by isolation from the environment rather than cultivating the diverse species in a microbial community.
Question
Modification enzymes typically methylate specific bases within the recognition sequence to prevent digestion of the nucleotide sequence by restriction endonucleases.
Question
Developing vaccines for humans relies heavily on manipulating and engineering vectors.
Question
Engineering a metabolic pathway enables a researcher to use different genes from unrelated organisms.
Question
Green fluorescent protein (GFP)is used for detecting translational activity of a fused protein,whereas lacZ reporters are used to detect transcriptional activity of a fused gene.
Question
One method to circumvent issues with introns when expression eukaryotic gene is a bacterium is to simply clone the mature transcript.
Question
DNA polymerases from Escherichia coli cannot be used to artificially copy gene sequences with a thermocycler.
Question
Regardless of the DNA polymerase used in PCR,such as Taq or Pfu,they all have an inherent inability to perfectly copy the template strand,which means the polymerases themselves occasionally make mutations in the sequences they copy.
Question
High expression levels of a eukaryotic gene in a bacterium such as Escherichia coli cannot be accomplished due to the presence of introns.
Question
One problem with both BACs and YACs is that genetic regions of these chromosomes cannot be subcloned.
Question
In principle,a type II restriction endonuclease with an 8-nucleotide recognition sequence should cut 1 in every 4⁸ nucleotide positions.
Question
Strong promoters used for genetic manipulation are usually regulated by specific molecules.
Question
Although various codons often code for the same amino acid,it is important to choose the codon preferred by the expression host itself.
Question
One fundamental technique of genetic engineering includes the ability to cut DNA into random fragments.
Question
The key steps in cloning a foreign gene into a vector,regardless of the application,involve isolating the insert fragment,ligating the insert into a vector,and transforming it into a host.
Question
Artificially synthesizing DNA strands (e.g.,oligonucleotide primers)involves the careful attachment of one nucleotide at a time to an immobilized sequence.
Question
DNA ligase mediates the insertion of foreign DNA into a vector,but it will only be able to do so if the inserts and vector have matching sticky or blunt ends.
Question
The lacZ gene is commonly used as a reporter gene,because its substrate lactose is well known and easily measured.
Question
Genomic libraries enable the discovery of individual gene(s)involved in a particular function of interest with cloning vectors in an expression host,such as Escherichia coli.
Question
One important advantage of eukaryotic cells as hosts for cloning vectors is that they already possess the complex RNA and posttranslational processing systems required for the production of eukaryotic proteins.
Question
Create an experiment where you would use both a Southern blot and a Northern blot to determine if a newly isolated bacterium contains and actively uses the same catabolic pathway as previously demonstrated.What is the value in doing the Southern blot first? With results from these experiments,how would you conclude if the same pathway is active or not?
Question
Explain the process of site-directed mutagenesis,and discuss some applications of this technique.
Question
Describe the three main steps to clone a gene into an organism.
Question
Describe the methodology employed when antibodies are used to detect proteins.
Question
When trying to make a mammalian protein in a bacterium,expression vectors are often used.Using your knowledge of prokaryotic and eukaryotic genetics,explain why expression vectors are so important.
Question
Explain how T7 promoters regulate transcription and why cloning vectors contain them.
Question
Describe a method developed by molecular biologists to easily observe the success of a genetic engineering procedure involving the ligating of a gene of interest into a plasmid.
Question
When is it appropriate to use an artificial chromosome vector? Describe a specific example.
Question
Describe the usefulness of blue-white screening,also called α-complementation,in cloning vectors such as pUC19.Include in your answer the terms polylinker,DNA ligase,lacZ gene,insertional inactivation,Xgal,and β-galactosidase.
Question
Describe the procedure used for colony hybridization and why it is useful.
Question
Explain how a DNA library is created and how a particular vector is selected.
Question
Defend how type II restriction endonucleases,which do not cleave random sites,can be a part of an approach to random cloning library.
Question
Describe three characteristics of an ideal cloning host for genetic engineering.
Question
Compare how the process of cloning differs when a vector with sticky ends is used and when a vector with blunt ends is used.
Question
If vaccinia viruses were not both immunogenic and relatively benign,they would likely not be a favored vehicle for vaccinations.
Question
What is necessary for a YAC to function as a normal eukaryotic chromosome?
Question
Explain why DNA fragments migrate toward the positive electrode and why some fragments migrate more rapidly than others during gel electrophoresis.How does this electronegativity influence observations and conclusions drawn from DNA migrated through an agarose gel?
Question
Defend why codon usage must be considered when cloning a gene into another organism.
Question
How can foreign DNA of greater than 300 kbp be inserted and stably maintained in BAC vectors?
Question
If you wanted to discover a novel biosynthetic pathway for an antimicrobial compound and were given a handful of soil,describe the key experimental steps you would need to take to accomplish the task and explain why alternative procedures were not performed.
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Deck 11: Genetic Engineering and Biotechnology
1
Which statement is TRUE?

A)YACs are more likely than BACs to undergo recombination and rearrangement.
B)BACs are more likely than YACs to undergo recombination and rearrangement.
C)YACs and BACs undergo recombination and rearrangement at about the same rate.
D)It is impossible to state with any certainty whether YACs or BACs are more likely to undergo recombination and rearrangement,because environmental factors play a major role in the probability of one or the other occurring.
A
2
Which objective would be best to use a Southern blot rather than a Northern blot?

A)Determine if a gene is present in a genome.
B)Discover gene function.
C)Identify regulatory gene-protein interactions.
D)Quantify expression profiles of a gene.
A
3
To discover a catabolic gene cluster,cloning large sequences of approximately 40 kbp requires the utility of

A)bacterial artificial chromosomes (BACs).
B)cosmids or fosmids.
C)a eukaryotic host to house the large foreign DNA.
D)multiple gene fusions.
B
4
If a foreign gene is cloned into an expression host,it is important that the host itself

A)not produce the protein being studied.
B)produce the protein in larger amounts than the vector.
C)repress the genetic expression being studied.
D)produce signal proteins to tag the host protein.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
5
At which time period(s)during PCR thermocycling is/are hottest in temperature?

A)during DNA denaturation
B)during primer annealing
C)during primer extension/elongation
D)Both the first and last cycles are hotter in temperature than all other cycles.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
6
What molecular mechanism/feature does site-directed mutagenesis exploit to introduce a mutation at a specific site?

A)flanking complementary bound nucleotides permit non-complementary base pairing
B)methylated nucleotides disrupt DNA polymerase's proofreading
C)nucleotide substitution when one is depleted
D)transposase-induced base pair changes
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
7
One of the more formidable obstacles to mammalian gene cloning is the presence of

A)introns.
B)exons.
C)repressors.
D)integrators.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
8
Inserting a kanamycin resistance cassette into a catabolic operon to confirm the gene is essential in degradation of a particular compound would involve all of the following EXCEPT

A)a reporter gene.
B)ligation.
C)recombination.
D)transformation.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
9
Which of the following sequences would be cleaved by a type II restriction endonuclease?

A)TTGCCGA AACGGCT
B)GGGGGGG CCCCCCCC
C)GTAATG CATTAC
D)GAATTC CTTAAG
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
10
Which of those listed below is LEAST similar in what is measured and concluded?

A)fluorescence in situ hybridization
B)GFP fusion protein
C)Northern blot
D)RT-PCR
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
11
Expression vectors are designed to ensure that ________ can be efficiently ________.

A)mRNA / transcribed
B)DNA / transcribed
C)mRNA / translated
D)DNA / translated
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
12
A polymerase chain reaction (PCR)copies an individual gene segment in vitro with a(n)________ primer(s).

A)individual RNA
B)individual DNA
C)pair of RNA
D)pair of DNA
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
13
Detecting a specific protein with an antibody is considered a(n)________ method.

A)selection
B)screening
C)isolation
D)duplication
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
14
The genes encoding luciferase,green fluorescent protein (GFP),and β-galactosidase are typically used in cloning as

A)transcription regulators.
B)global control genes.
C)promoter sequences.
D)reporter genes.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
15
To verify a gene was cloned into a vector successfully,sequencing the vector as well as ________ are commonly performed.

A)agarose gel electrophoresis
B)fluorescence in situ hybridization
C)protein purification
D)northern blots
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
16
To estimate the total concentration of a beneficial bacterial species in yogurt,________ would provide the quickest results.

A)fluorescence in situ hybridization
B)qPCR
C)RT-PCR
D)a Southern blot
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
17
Which of the following is NOT a common step in creating a genomic library?

A)Fragment DNA into small segments.
B)Hybridize DNA sequences to form inserts of a target size range.
C)Ligate DNA into vectors.
D)Transform the vectors into a host.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
18
A(n)________ gene is a gene that encodes a protein that is easy to detect and assay.

A)encoder
B)translational
C)reporter
D)recorder
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
19
Which of the following is NOT a characteristic of a type II restriction endonuclease?

A)cleavage product can be either blunt or sticky ended but is always the same for an individual enzyme
B)recognizes a specific palindromic site for cleavage
C)recognition site length varies among enzymes but is always the same for an individual enzyme
D)unable to cleave methylated DNA
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
20
What type of vector can replicate and be maintained stably in two (or more)unrelated host organisms?

A)virus
B)expression
C)shuttle
D)integrating
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
21
What makes eukaryotic transcripts easier to isolate than transcripts in bacteria?

A)Eukaryotic transcripts are not methylated but their genes are often methylated.
B)Larger transcript size in eukaryotes enables easy size-selection methods.
C)mRNA is polyadenylated in eukaryotes.
D)Transcripts are the most abundant RNAs in eukaryotes.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
22
After digesting a DNA sequence,a restriction endonuclease can generate

A)blunt ends.
B)overhangs.
C)sticky ends.
D)blunt ends,overhangs,or sticky ends.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
23
The principle underlying how salmon were genetically engineered to grow faster is the

A)removal of a gene responsible for feeling full after eating.
B)replacement of inducible to constitutive hormone production.
C)resistance to bacterial infections which waste metabolic energy in the salmon to fight off.
D)addition of genes to enhance blood circulation and tissue development.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
24
Recognizing pathogens that contain multiple unique proteins which enable the human immune system to recognize just one and mount an effective response has opened the door on development of some vaccines only being

A)attenuated carrier viruses.
B)monovalent.
C)subunit vaccines.
D)purified protein administered.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
25
Type II restriction endonucleases

A)are heterodimers.
B)natively function to methylate specific nucleotides and prevent foreign DNA from being incorporated into the genome.
C)recognize nucleotide sequences that are palindromic.
D)require ATP energy to cleave dsDNA.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
26
The enzyme that covalently links both strands of a vector and inserted DNA in molecular cloning is

A)DNA ligase.
B)DNA phosphatase.
C)DNA hydrolase.
D)DNA transferase.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
27
Using a host defective in proteases is likely to be necessary when engineering

A)a complete metabolic pathway requiring several different enzymes.
B)overproducing proteins.
C)production of a small protein.
D)transgenic animals with immune systems.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
28
Which of the following is NOT an example of synthetic biology?

A)assembling gene sequences together into genome and creating a living organism from it
B)creating a new metabolic pathway that produces a previously unidentified compound
C)developing a novel polyvalent vaccine
D)making Escherichia coli phototrophic
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
29
Polyvalent vaccines using vaccinia virus are highly favored by doctors and physicians but are especially challenging for those who develop them,because

A)coat proteins form a relatively rigid structure and do not allow much space for additional proteins to be expressed.
B)multiple foreign proteins simultaneously synthesized often disrupts each other's activity.
C)vaccinia and most other viruses engineered for vaccines contain only one restriction site for cloning in their genome.
D)virus genetic manipulation uses transfection,which is an inherently inefficient process.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
30
Some proteins overexpressed at high levels resulting in the formation of inclusion bodies can abolish the goal of producing large quantities of active protein.What could be done to minimize this issue?

A)Codon optimize the gene.
B)Decrease the number of biobricks in the vector.
C)Simultaneously produce intracellular chaperonins.
D)Switch to an expression host with a larger intracellular volume.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
31
A shuttle vector is most useful for

A)engineering a complete metabolic pathway.
B)identifying the localization of a protein.
C)knocking out a gene by cassette displacement.
D)making a foreign protein in a mammalian cell.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
32
The principle behind a nucleic acid probe design is that the probe itself must contain

A)a key complementary part of the target gene sequence of interest.
B)all of the nucleotide sequence of the gene of interest to conclusively identify the gene.
C)an antibody to specifically bind to the gene of interest.
D)at least three separate complementary regions of the gene of interest.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
33
A poorly immunogenic vaccine often suggests the foreign proteins were not properly recognized by the immune system due to a lack of ________ necessary,which can also be engineered to occur with additional molecular manipulations.

A)complex folding
B)methylation
C)glucosylation
D)glycosylation
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
34
Cloning vectors can be distinguished from expression vectors by

A)carrying ori genes for replication of the cloned sequence.
B)having a multiple cloning site (MCS).
C)having a high copy number per cell.
D)lacking a promoter site upstream of the insertion site.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
35
If a protein to be overexpressed is toxic to the expression host,it is best to select an expression vector that

A)is compatible with a binary vector able to be regulated.
B)is inducible.
C)has a relatively low copy number per cell.
D)prevents folding of the overexpressed protein into its toxic form.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
36
Which of the following terms is used to describe a synthetic DNA fragment?

A)DNA cassette
B)DNA hybrid
C)recombinant DNA
D)artificial chromosome
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
37
Which of those below is NOT an important consideration when designing a fusion protein construct?

A)Avoid hybridization of the fusion gene in the artificial construct.
B)Reading frame is the same for both the fusion gene and reporter gene.
C)Transcriptional start and stop signals are shared.
D)Translational start and stop signals are shared.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
38
The Ti plasmid is best suited for genetically manipulating

A)Agrobacterium spp.
B)fish.
C)plants.
D)viruses.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
39
Which construct would be MOST useful in studying translational control?

A)gene fusion
B)operon fusion
C)protein fusion
D)shuttle vector
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
40
While other types exist,Type II restriction endonucleases are by far the most commonly used enzymes for genetic engineering.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
41
Due to well developed molecular tools and careful screening designs,functional genes can be isolated directly by isolation from the environment rather than cultivating the diverse species in a microbial community.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
42
Modification enzymes typically methylate specific bases within the recognition sequence to prevent digestion of the nucleotide sequence by restriction endonucleases.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
43
Developing vaccines for humans relies heavily on manipulating and engineering vectors.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
44
Engineering a metabolic pathway enables a researcher to use different genes from unrelated organisms.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
45
Green fluorescent protein (GFP)is used for detecting translational activity of a fused protein,whereas lacZ reporters are used to detect transcriptional activity of a fused gene.
Unlock Deck
Unlock for access to all 81 flashcards in this deck.
Unlock Deck
k this deck
46
One method to circumvent issues with introns when expression eukaryotic gene is a bacterium is to simply clone the mature transcript.
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47
DNA polymerases from Escherichia coli cannot be used to artificially copy gene sequences with a thermocycler.
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48
Regardless of the DNA polymerase used in PCR,such as Taq or Pfu,they all have an inherent inability to perfectly copy the template strand,which means the polymerases themselves occasionally make mutations in the sequences they copy.
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49
High expression levels of a eukaryotic gene in a bacterium such as Escherichia coli cannot be accomplished due to the presence of introns.
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50
One problem with both BACs and YACs is that genetic regions of these chromosomes cannot be subcloned.
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51
In principle,a type II restriction endonuclease with an 8-nucleotide recognition sequence should cut 1 in every 4⁸ nucleotide positions.
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52
Strong promoters used for genetic manipulation are usually regulated by specific molecules.
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53
Although various codons often code for the same amino acid,it is important to choose the codon preferred by the expression host itself.
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54
One fundamental technique of genetic engineering includes the ability to cut DNA into random fragments.
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55
The key steps in cloning a foreign gene into a vector,regardless of the application,involve isolating the insert fragment,ligating the insert into a vector,and transforming it into a host.
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56
Artificially synthesizing DNA strands (e.g.,oligonucleotide primers)involves the careful attachment of one nucleotide at a time to an immobilized sequence.
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57
DNA ligase mediates the insertion of foreign DNA into a vector,but it will only be able to do so if the inserts and vector have matching sticky or blunt ends.
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58
The lacZ gene is commonly used as a reporter gene,because its substrate lactose is well known and easily measured.
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59
Genomic libraries enable the discovery of individual gene(s)involved in a particular function of interest with cloning vectors in an expression host,such as Escherichia coli.
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60
One important advantage of eukaryotic cells as hosts for cloning vectors is that they already possess the complex RNA and posttranslational processing systems required for the production of eukaryotic proteins.
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61
Create an experiment where you would use both a Southern blot and a Northern blot to determine if a newly isolated bacterium contains and actively uses the same catabolic pathway as previously demonstrated.What is the value in doing the Southern blot first? With results from these experiments,how would you conclude if the same pathway is active or not?
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62
Explain the process of site-directed mutagenesis,and discuss some applications of this technique.
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63
Describe the three main steps to clone a gene into an organism.
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64
Describe the methodology employed when antibodies are used to detect proteins.
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65
When trying to make a mammalian protein in a bacterium,expression vectors are often used.Using your knowledge of prokaryotic and eukaryotic genetics,explain why expression vectors are so important.
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66
Explain how T7 promoters regulate transcription and why cloning vectors contain them.
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67
Describe a method developed by molecular biologists to easily observe the success of a genetic engineering procedure involving the ligating of a gene of interest into a plasmid.
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68
When is it appropriate to use an artificial chromosome vector? Describe a specific example.
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69
Describe the usefulness of blue-white screening,also called α-complementation,in cloning vectors such as pUC19.Include in your answer the terms polylinker,DNA ligase,lacZ gene,insertional inactivation,Xgal,and β-galactosidase.
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70
Describe the procedure used for colony hybridization and why it is useful.
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71
Explain how a DNA library is created and how a particular vector is selected.
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72
Defend how type II restriction endonucleases,which do not cleave random sites,can be a part of an approach to random cloning library.
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73
Describe three characteristics of an ideal cloning host for genetic engineering.
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74
Compare how the process of cloning differs when a vector with sticky ends is used and when a vector with blunt ends is used.
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75
If vaccinia viruses were not both immunogenic and relatively benign,they would likely not be a favored vehicle for vaccinations.
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76
What is necessary for a YAC to function as a normal eukaryotic chromosome?
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77
Explain why DNA fragments migrate toward the positive electrode and why some fragments migrate more rapidly than others during gel electrophoresis.How does this electronegativity influence observations and conclusions drawn from DNA migrated through an agarose gel?
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78
Defend why codon usage must be considered when cloning a gene into another organism.
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79
How can foreign DNA of greater than 300 kbp be inserted and stably maintained in BAC vectors?
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80
If you wanted to discover a novel biosynthetic pathway for an antimicrobial compound and were given a handful of soil,describe the key experimental steps you would need to take to accomplish the task and explain why alternative procedures were not performed.
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