Study Guide 13 - Winter 2015

Descrição

questions 39-142
John Bench
Quiz por John Bench, atualizado more than 1 year ago
John Bench
Criado por John Bench mais de 9 anos atrás
42
1

Resumo de Recurso

Questão 1

Questão
Xeroderma pigmentosum, can be considered a disease linked to a deficiency in a protein required within the transcription apparatus. Why?
Responda
  • The disease xeroderma pigmentosum is caused by a defect in a cell's ability to repair DNA damage caused by irradiation, amongst other causes. A DNA damage repair complex is required, which consists of several DNA repair proteins, including XPC, XPF, XPG, and ERCC1, associated with the core of TFIIH during transcription elongation. XPC recognizes damaged DNA and provides a link between the processes of transcription and preferential repair of the transcribed DNA strand. XPF, XPG, and ERCC1 are endonucleases involved with the repair process. In addition to these proteins, the TFIIH complex also includes the protein XPD, a helicase involved in both the initial creation of the transcription bubble and the melting of DNA at the site of damage. Mutations in any of the XP genes cause the disease.
  • none of these

Questão 2

Questão
A cis-acting DNA sequence restricted to a fixed position physically distant from a promoter recognized by RNA polymerase II does not effectively influence the initiation of transcription, ; however, the same sequence brought into a close physical proximity with the promoter facilitates efficient transcription. Describe why the sequence must be in close proximity to the core promoter region for function.
Responda
  • DNA sequences to which proteins bind effectively influence the initiation of transcription by increasing the concentration of activator proteins in close physical proximity of the core promoter; therefore, the physical placement of the sequence is crucial to its function. Restriction of the placement of a sequence would limit its ability to physically contact the core promoter, effectively eliminating its effect on transcription initiation. Enhancer sequences can increase transcription efficiency even when maintaining positions several kb upstream or downstream of the start-point, regardless of their orientation, ; however, the intervening DNA must be flexible so that it can be looped out of the way such that the enhancer and promoter are brought into close proximity.
  • none of these

Questão 3

Questão
The nucleotide sequence elements within the promoters of genes recognized by RNA polymerase II are assembled in a "mix and match" fashion. A). Explain the regulatory significance of this organizational pattern. B). Considering the fact that sequence elements can function in either orientation, what does this suggest regarding the function of nucleotide sequence elements within the process of transcription initiation?
Responda
  • DNA sequences to which proteins bind effectively influence the initiation of transcription by increasing the concentration of activator proteins in close physical proximity of the core promoter, ; therefore, the physical placement of the sequence is crucial to its function. Restriction of the placement of a sequence would limit its ability to physically contact the core promoter, effectively eliminating its effect on transcription initiation. Enhancer sequences can increase transcription efficiency even when maintaining positions several kb upstream or downstream of the start-point, regardless of their orientation, ; however, the intervening DNA must be flexible so that it can be looped out of the way such that the enhancer and promoter are brought into close proximity.
  • A variety of elements including the GC box and CAAT box can contribute to the function of the promoter; however, none of the nucleotide sequence elements are essential for all promoters. Therefore, promoters may contain the same sequence elements or maintain a completely different organization. This organizational pattern confers a level of regulation due to the unique combination of nucleotide sequence elements contained within each promoter. The diverse combination of sequence elements ensures activation of the gene will only occur in the presence of a specific combination of DNA binding proteins.
  • The function of sequence elements is to bring proteins within the vicinity of the basal apparatus to facilitate initiation. The fact that the sequence elements can function in either orientation demonstrates that the promoter sequence must be flexible enough to facilitate the protein-–protein interactions between individual transcription factors and between transcription factors and the basal apparatus.

Questão 4

Questão
Eukaryotic RNA polymerases can be distinguished by their sensitivities to ____________.
Responda
  • actinomycin D
  • alpha-amanitin
  • chloramphenicol
  • rifampicin

Questão 5

Questão
Pre-initiation begins with either _________ or TATA binding protein binding to the core promoter
Responda
  • TFIID
  • TFIIH
  • TFIIE
  • TFIIF

Questão 6

Questão
The C-terminal domain of the largest RNA polymerase subunit must be ____________ for chain elongation to occur.
Responda
  • methylated
  • phosphorylated
  • glycosylated
  • protonated

Questão 7

Questão
Which of the following is NOT a function of some type of RNA?
Responda
  • Carrying nucleotide sequence information
  • Metabolic energy transformation
  • Control of protein production
  • Translation of nucleotide sequence into amino acid sequence
  • Catalysis of chemical reactions

Questão 8

Questão
A consensus sequence is one that is
Responda
  • deduced from investigation of crystal structures of DNA binding proteins interacting with DNA.
  • deduced from studying the effects of mutation on a single nucleotide, such as the promoter of one gene.
  • deduced by comparing sequences, looking for perfect matches in all sequences.
  • deduced by comparing sequences, looking for a high level of agreement, though not necessarily a perfect match, between all sequences.
  • deduced from whole genome sequence analysis, looking for protein coding regions that are identical.

Questão 9

Questão
The nucleotide sequences upstream from a transcriptional start site and where RNA polymerase binds to convert DNA from a closed to an open complex are called a(n)
Responda
  • -35 sequence.
  • enhancer.
  • Shine-Dalgarno sequence
  • Kozak sequence
  • promoter.

Questão 10

Questão
Figure 1 shows the results of a site directed mutagenesis experiment analyzing the upstream region of the mouse Beta-globin gene. Specific point mutations were introduced into upstream region and then the ability of the mutated upstream region to promote transcription was measured, with the transcriptional activity of the wild-type sequence designated as 1.0. What conclusion about the ATATAA sequence marked by the open box is warranted by the data?
Responda
  • It is a location where proteins can bind to reduce transcription.
  • It is a sequence needed for positive regulation of transcription.
  • It signals the ribosome to begin translation at the next ATG
  • It base pairs with a short sequence in the 16S rRNA
  • The reduction in relative transcription at this site indicates that the sequence is used to signal transcription termination.

Questão 11

Questão
Figure 1 shows the results of a site directed mutagenesis experiment analyzing the upstream region of the mouse Beta-globin gene. Specific point mutations were introduced into upstream region and then the ability of the mutated upstream region to promote transcription was measured, with the transcriptional activity of the wild-type sequence designated as 1.0. The molecule being mutated in this experiment is:
Responda
  • mRNA
  • DNA
  • protein
  • rRNA
  • cRNA

Questão 12

Questão
Figure 1 shows the results of a site directed mutagenesis experiment analyzing the upstream region of the mouse Beta-globin gene. Specific point mutations were introduced into upstream region and then the ability of the mutated upstream region to promote transcription was measured, with the transcriptional activity of the wild-type sequence designated as 1.0. The right angle arrow above the location labeled as the “Cap site” indicates
Responda
  • the deoxyribonucleotide to which the 5' cap is added.
  • the location of the start codon.
  • the first nucleotide to be used in transcription (+1).
  • an decreased level of transcription due to a mutation.
  • the promoter sequence.

Questão 13

Questão
Figure 1 shows the results of a site directed mutagenesis experiment analyzing the upstream region of the mouse Beta-globin gene. Specific point mutations were introduced into upstream region and then the ability of the mutated upstream region to promote transcription was measured, with the transcriptional activity of the wild-type sequence designated as 1.0. Transcription begins ______________ the GGCCAATC sequence.
Responda
  • to the 5' side of
  • by snRNP U2 binding to
  • when cis-acting proteins bind to
  • by disrupting the Shine-Dalgarno sequence of.
  • downstream of

Questão 14

Questão
Which of the following is not true about RNA polymerase in bacteria?
Responda
  • RNA polymerase core enzyme will bind to any DNA.
  • RNA polymerase will only bind to the promoter.
  • Sigma factors determine specificity of RNA polymerase.
  • It is made of five subunits.
  • Synthesis of RNA occurs in a 5' to 3' direction

Questão 15

Questão
If Rho factors are mutated and rendered non-functional,
Responda
  • Nothing would happen.
  • All the transcripts would be longer.
  • All the transcripts would be shorter.
  • Some transcripts would be longer and others would be normal length.
  • Some transcripts would be shorter and others would be longer.

Questão 16

Questão
RNA samples were isolated from liver cells before and after treatment with insulin, and the RNA samples were sequenced using the RNA-Seq method. For gene A the number of times the sequence appeared before insulin treatment was quite high, but after insulin treatment the frequency of sequences matching gene A were quite low. What does this reveal about expression of gene A?
Responda
  • Insulin treatment increased the number of copies of gene A in the genme.
  • Expression of gene A is unaffected by insulin.
  • Gene A transcription is greater before insulin treatment.
  • Transcription of gene A is elevated after cells are exposed to insulin.
  • The protein encoded by gene A is more active after insulin treatment.

Questão 17

Questão
In Rho-dependent termination…
Responda
  • Rho binds to the operator and represses transcription.
  • Rho binds to the rut site on the coding strand.
  • Rho binds to the rut site on the template strand.
  • Rho binds to the rut site on the mRNA.
  • Rho binds to galactosides and regulates the lac operon.

Questão 18

Questão
The start site of transcription would best be indicated by which of the following?
Responda
  • -35
  • -10
  • +1
  • TATA
  • GU/AG

Questão 19

Questão
An electrophoretic mobility shift assay is used to
Responda
  • A. determine the start of transcription
  • B. determine the abundance of a single mRNA even if a great many other RNAs are present.
  • C. identify the mRNA termination proteins in rho-independent termination of transcription.
  • D. determine if a protein binds to a DNA sequence.
  • E. distinguish between tRNA binding to the A or P site.

Questão 20

Questão
Which one of the following is a DNA sequence?
Responda
  • lox
  • sigma factor
  • RNA polymerase
  • Gyrase
  • rho
  • RecA
  • RuvB

Questão 21

Questão
Transcription termination takes place closest to which one of the following?
Responda
  • A. 5'-m7 G caps
  • B. poly(A) site
  • C. promoter region
  • D. enhancer sequences
  • E. intron splicing site

Questão 22

Questão
Ras mRNA (mRNA transcribed from the Ras gene) is found at a concentration of 100 molecules per nerve cell at time zero. Then at time zero you irradiate the cells with UV light such that transcription is turned off. After 40 minutes you determine that the concentration of Ras mRNA is now 25 molecules per cell. What is the half life of mRNA-X in these cells?
Responda
  • A. 20 minutes
  • B. 35 minutes
  • C. 40 minutes
  • D. 100 minutes
  • E. 200 minutes

Questão 23

Questão
Promoters are cis-acting. The promoter is considered a cis-acting site because:
Responda
  • A. it influences the expression of a family of genes within a domain.
  • B. it exclusively influences the expression of a gene to which the promoter is proximal.
  • C. it activates the gene it is proximal to while inhibiting the expression of all others.
  • D. it regulates the transcription of both alleles of an allele pair.

Questão 24

Questão
Which of the following accurately describes the relationship between each eukaryotic RNA polymerase and its product?
Responda
  • A. pol I - mRNA, pol II- tRNA, pol III-rRNA
  • B. pol III- rRNA, pol I-tRNA, pol II- mRNA
  • C. pol III-rRNA, pol II-mRNA, pol I-tRNA
  • D. pol III-tRNA, pol I-rRNA, pol II-mRNA
  • E. pol II-mRNA, pol I-tRNA, pol III-rRNA

Questão 25

Questão
cDNA for twelve different liver specific genes was spotted onto a membrane as shown in the bottom left corner. cDNA for the actin, the alpha subunit of tubulin (used to make microtubules), and the beta subunit of tubulin genes were spotted as shown in Figure 2. The DNA from the plasmid pB (used as a vector to carry the cDNA) was spotted on the membrane as shown. DNA for the methionine tRNA gene was spotted on the membrane as shown. The DNA was denatured (single stranded) and remained tightly bound to the membrane. Three replicate spotted membranes were produced. A rat was fed 32P-labeled UTP for several days. The rat was sacrificed and the total RNA from the rat liver tissue, the rat kidney tissue, and the rat brain tissue were separately isolated. The radioactive RNA from each tissue type was used as a probe to hybridize to the DNA targets on the membrane. The autoradiograms shown in Figure 2 are for the liver, kidney, and brain probe conditions. This experiment is most like which of the following?
Responda
  • A. Sedimentation Gradient
  • B. Southern blot
  • C. DNA footprinting
  • D. Western blot
  • E. Electrophoretic Mobility Shift Assay

Questão 26

Questão
cDNA for twelve different liver specific genes was spotted onto a membrane as shown in the bottom left corner. cDNA for the actin, the alpha subunit of tubulin (used to make microtubules), and the beta subunit of tubulin genes were spotted as shown in Figure 2. The DNA from the plasmid pB (used as a vector to carry the cDNA) was spotted on the membrane as shown. DNA for the methionine tRNA gene was spotted on the membrane as shown. The DNA was denatured (single stranded) and remained tightly bound to the membrane. Three replicate spotted membranes were produced. A rat was fed 32P-labeled UTP for several days. The rat was sacrificed and the total RNA from the rat liver tissue, the rat kidney tissue, and the rat brain tissue were separately isolated. The radioactive RNA from each tissue type was used as a probe to hybridize to the DNA targets on the membrane. The autoradiograms shown in Figure 2 are for the liver, kidney, and brain probe conditions. Why was there no hybridization to pB?
Responda
  • A. It is likely that the pB is needed most in the liver where there is more binding to the target genes
  • B. The pB is a positive control - it should be expressed in every cell type.
  • C. The pB is a negative control - it should not be expressed in any of the cell types.
  • D. So the translational control exerted by the first codon in pB can be studied.
  • E. The pB was not radioactive in this experiment.

Questão 27

Questão
cDNA for twelve different liver specific genes was spotted onto a membrane as shown in the bottom left corner. cDNA for the actin, the alpha subunit of tubulin (used to make microtubules), and the beta subunit of tubulin genes were spotted as shown in Figure 2. The DNA from the plasmid pB (used as a vector to carry the cDNA) was spotted on the membrane as shown. DNA for the methionine tRNA gene was spotted on the membrane as shown. The DNA was denatured (single stranded) and remained tightly bound to the membrane. Three replicate spotted membranes were produced. A rat was fed 32P-labeled UTP for several days. The rat was sacrificed and the total RNA from the rat liver tissue, the rat kidney tissue, and the rat brain tissue were separately isolated. The radioactive RNA from each tissue type was used as a probe to hybridize to the DNA targets on the membrane. The autoradiograms shown in Figure 2 are for the liver, kidney, and brain probe conditions. Why was the methionine tRNA gene included in the experiment?
Responda
  • The methionine tRNA gene is a positive control - it should be expressed in every cell type.
  • It is likely that the methionine tRNA is needed most in the liver where there is more binding to the target genes.
  • The methionine tRNA gene is a negative control - it should not be expressed in any of the cell types.
  • The translational control exerted by the first codon, AUG, which encodes for methionine can be studied.
  • To compete with tryptophan tRNA and increase attenuation

Questão 28

Questão
cDNA for twelve different liver specific genes was spotted onto a membrane as shown in the bottom left corner. cDNA for the actin, the alpha subunit of tubulin (used to make microtubules), and the beta subunit of tubulin genes were spotted as shown in Figure 2. The DNA from the plasmid pB (used as a vector to carry the cDNA) was spotted on the membrane as shown. DNA for the methionine tRNA gene was spotted on the membrane as shown. The DNA was denatured (single stranded) and remained tightly bound to the membrane. Three replicate spotted membranes were produced. A rat was fed 32P-labeled UTP for several days. The rat was sacrificed and the total RNA from the rat liver tissue, the rat kidney tissue, and the rat brain tissue were separately isolated. The radioactive RNA from each tissue type was used as a probe to hybridize to the DNA targets on the membrane. The autoradiograms shown in Figure 2 are for the liver, kidney, and brain probe conditions. Which one of the following conclusions is best supported by this data?
Responda
  • The genes are first expressed in the liver, before the brain and kidney. This explains the intensity of the dots spotted on the membrane because the genes had a longer time to make the RNA.
  • Compared to liver, in which genes 1-12 all gave positive signals, kidney only generated weak signals for genes 7, 8, and 10, and there were no positive spots for brain (hard to tell if the smudges at 10 and 11 are real).
  • The plasmid DNA gene is expressed at high levels in the rat.
  • Control of gene expression is achieved by tissue-specific control of the initiation of transcription.
  • The operator sequences are missing in kidney and brain cells.

Questão 29

Questão
Eukaryotic messenger RNA has ___________ at their 3'-ends.
Responda
  • A. m7 G caps
  • B. poly(A) tails
  • C. hairpin structures
  • D. covalently bound proteins
  • 5'-UTR

Questão 30

Questão
In 1969, Bob Roeder published the results of experiments that were designed to resolve yeast RNA polymerase enzymes using chromatography. The results of this work are shown in Figure 4. Fractions 1-36 are presented from left to right on the X-axis. An aliquot of each fractions was assayed for RNA polymerase activity using radioactive UMP (*UMP). Which of the following fractions contained the most total protein?
Responda
  • A. Fraction 5
  • B. Fraction 15
  • C. Fraction 25
  • D. Fraction 35

Questão 31

Questão
In 1969, Bob Roeder published the results of experiments that were designed to resolve yeast RNA polymerase enzymes using chromatography. The results of this work are shown in Figure 4. Fractions 1-36 are presented from left to right on the X-axis. An aliquot of each fractions was assayed for RNA polymerase activity using radioactive UMP (*UMP). If this had been performed using a negatively charged ion exchange chromatography column, these results would suggest that the RNA polymerases are…
Responda
  • A. More negatively charged than the majority of proteins eluted from the column
  • B. More positively charged than the majority of proteins eluted from the column
  • C. Larger than the majority of proteins eluted from the column
  • D. Smaller than the majority of proteins eluted from the column.

Questão 32

Questão
In 1969, Bob Roeder published the results of experiments that were designed to resolve yeast RNA polymerase enzymes using chromatography. The results of this work are shown in Figure 4. Fractions 1-36 are presented from left to right on the X-axis. An aliquot of each fractions was assayed for RNA polymerase activity using radioactive UMP (*UMP). The solid line labeled CPM (*UMP) reflects…
Responda
  • A. Three kinds of RNA purified
  • B. The total amount of protein purified
  • C. RNA polymerase enzyme activity
  • D. The synthesis of radiolabeled proteins

Questão 33

Questão
In 1969, Bob Roeder published the results of experiments that were designed to resolve yeast RNA polymerase enzymes using chromatography. The results of this work are shown in Figure 4. Fractions 1-36 are presented from left to right on the X-axis. An aliquot of each fractions was assayed for RNA polymerase activity using radioactive UMP (*UMP). The results represented above demonstrated that…
Responda
  • A. RNA polymerase synthesizes three predominant species of RNA
  • B. The 28S peak is larger than the 18S and 5S peaks
  • C. Yeast makes three distinct mRNA species.
  • D. There are three distinct RNA polymerase enzymes in yeast.
  • E. mRNA makes up a small portion of the total RNA in a cell

Questão 34

Questão
If the sequence of part of a gene is AGCCTAGCT, what is the sequence of the RNA transcribed from this section of the gene?
Responda
  • AGCCTAGCT
  • AGCTAGGCT
  • AGCCUAGCU
  • AGCUAGGCU
  • UCGAUCCGA

Questão 35

Questão
In order to examine the role that certain gene sequences in the H2A gene play in transcription, you make mutant versions of the H2A gene containing deletions in those regions. You then inject the DNA containing those deletion mutations into frog eggs and examine the RNA produced using electrophoresis. The location of deletions is shown in Figure 5. The agarose gel electrophoresis results are shown in Figure 6. H2B mRNA and three other large mRNA’s were added as a control in each lane. Which conclusion is validated by the delta-A sample in lane 2?
Responda
  • The delta-A deletion caused transcription to start further upstream, thereby generating a longer transcript.
  • The delta-A deletion eliminated a positive regulatory element
  • The delta-A deletion eliminated a negative regulatory element
  • The delta-A region is required for initiation of transcription at the correct start site

Questão 36

Questão
In order to examine the role that certain gene sequences in the H2A gene play in transcription, you make mutant versions of the H2A gene containing deletions in those regions. You then inject the DNA containing those deletion mutations into frog eggs and examine the RNA produced using electrophoresis. The location of deletions is shown in Figure 5. The agarose gel electrophoresis results are shown in Figure 6. H2B mRNA and three other large mRNA’s were added as a control in each lane. Which conclusion is best validated by the B sample in lane 3?
Responda
  • A. A sequence in the deleted delta-B region binds three regulatory proteins
  • B. A sequence in the deleted delta-B region drives transcription from three nearby promoters
  • C. A sequence in the deleted delta-B region helps signal the correct transcriptional start site
  • D. A sequence in the deleted delta-B region signals the correct site to start translation

Questão 37

Questão
A mRNA that is polycistronic
Responda
  • A. Codes for multiple proteins through alternative splicing.
  • B. Contains multiple start and stop sites for transcription.
  • C. Codes for multiple copies of the same protein.
  • D. Codes for multiple different proteins.
  • E. Must be cut into separate segments before it can be translated.

Questão 38

Questão
The concept that eukaryotic regulatory proteins have multiple functional domains was arrived at in stages. However, a few experiments stand out, such as the study by Roger Brent and Mark Ptashne published in 1985. When the study began, one known mechanism for activation of transcription by an activator protein was simply direct interaction with RNA polymerase. The investigators also considered an alternative mechanism: that the transcription activator functioned by altering the structure of the DNA to which it bound, facilitating the binding of RNA polymerase. This study focused on two different regulatory proteins. The first was a well-characterized bacterial repressor called LexA. The LexA repressor controls a regulon in E. coli, the SOS response, that is activated when cellular DNA is subjected to extensive damage. The sequence of its binding site on DNA was known, and the protein had been studied by the Ptashne group and others. The second regulatory protein was a eukaryotic gene activator protein from yeast, Gal4p, which activates transcription of the GAL1 gene when yeast cells are grown on galactose. Ptashne and his coworkers knew that the DNA-binding element of Gal4p was located in the N-terminal 74 amino acids of the protein. They deleted these amino acids and replaced them with the first 87 amino acids of the LexA protein, which they knew contained the DNA-binding elements of that protein. They then expressed this fusion protein, LexA-Gal4, in both yeast and E. coli. They separately expressed the native LexA protein by itself. To monitor the effects of the fusion protein in yeast, the researchers needed to construct several variants of a second plasmid containing the ß-galactosidase gene (the lacZ gene, encoding an enzyme activity that is easy to measure) fused to an unrelated yeast gene, CYC1. The different constructs contained a variety of regulatory sequences upstream from the fusion genes. Next, they carried out a series of measurements of ß-galactosidase activity with the two-plasmid system in yeast cells, with the results shown in Table 1 (adapted from their published table). In the table, ß-galactosidase activity is given in units of blue color produced in conversion of substrate to product. UAS is upstream activator sequence; UASC1 and UASC2 are binding sites for activator proteins that function at the CYC1 gene; and UASG is the normal binding site for Gal4p. UASG consists of four separate binding sites for Gal4p, each 17 bp long. The 17mer is a site with just one of these sequences. The abbreviation “op” means operator, which is the LexA-binding site; -178 and -577 indicate the distance in base pairs between the operator and the transcription start site. In the yeast cells used for the study, the genes encoding the endogenous Gal4p and the CYC1 gene activators were all present and functional. The transcription activated by the LexA-Gal4 fusion protein acting at the LexA operator
Responda
  • A. required the presence of SOS.
  • B. stopped at the -178 site.
  • C. did not require an operator sequence.
  • D. was expressed at higher levels of LexA alone when introduced into the bacterial cell on a plasmid.
  • E. occurred at a level similar to that stimulated by Gal4p at UASG.

Questão 39

Questão
The concept that eukaryotic regulatory proteins have multiple functional domains was arrived at in stages. However, a few experiments stand out, such as the study by Roger Brent and Mark Ptashne published in 1985. When the study began, one known mechanism for activation of transcription by an activator protein was simply direct interaction with RNA polymerase. The investigators also considered an alternative mechanism: that the transcription activator functioned by altering the structure of the DNA to which it bound, facilitating the binding of RNA polymerase. This study focused on two different regulatory proteins. The first was a well-characterized bacterial repressor called LexA. The LexA repressor controls a regulon in E. coli, the SOS response, that is activated when cellular DNA is subjected to extensive damage. The sequence of its binding site on DNA was known, and the protein had been studied by the Ptashne group and others. The second regulatory protein was a eukaryotic gene activator protein from yeast, Gal4p, which activates transcription of the GAL1 gene when yeast cells are grown on galactose. Ptashne and his coworkers knew that the DNA-binding element of Gal4p was located in the N-terminal 74 amino acids of the protein. They deleted these amino acids and replaced them with the first 87 amino acids of the LexA protein, which they knew contained the DNA-binding elements of that protein. They then expressed this fusion protein, LexA-Gal4, in both yeast and E. coli. They separately expressed the native LexA protein by itself. To monitor the effects of the fusion protein in yeast, the researchers needed to construct several variants of a second plasmid containing the ß-galactosidase gene (the lacZ gene, encoding an enzyme activity that is easy to measure) fused to an unrelated yeast gene, CYC1. The different constructs contained a variety of regulatory sequences upstream from the fusion genes. Next, they carried out a series of measurements of ß-galactosidase activity with the two-plasmid system in yeast cells, with the results shown in Table 1 (adapted from their published table). In the table, ß-galactosidase activity is given in units of blue color produced in conversion of substrate to product. UAS is upstream activator sequence; UASC1 and UASC2 are binding sites for activator proteins that function at the CYC1 gene; and UASG is the normal binding site for Gal4p. UASG consists of four separate binding sites for Gal4p, each 17 bp long. The 17mer is a site with just one of these sequences. The abbreviation “op” means operator, which is the LexA-binding site; -178 and -577 indicate the distance in base pairs between the operator and the transcription start site. In the yeast cells used for the study, the genes encoding the endogenous Gal4p and the CYC1 gene activators were all present and functional. Positioning of the LexA operator 577 bp rather than 178 bp away from the transcription start site lowers transcription activation by about
Responda
  • 5%.
  • 15%.
  • 25%.
  • 40%
  • 75%

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