Bio ch 15 &16
When a ribosome first assembles on the mRNA, the initiator tRNA occupies the A site while the P and E sites are empty.
False
In most cases, these promoters are located near the 3' end of the gene rather than near the 5' end.
None
Deleting a single base from an mRNA molecule usually alters one codon only.
False
Double-stranded RNA is processed by Drosha nuclease to produce a number of siRNAs.
False
In order to recognize and bind to the correct regulatory sequence, a regulatory protein must unwind and separate the 2 strands of the DNA double helix.
False
The helix-turn-helix motif has one helix that fits into the major groove of DNA and another helix that fits into the minor groove
False
You and a group of scientists are mapping out gene regulation in a new species. Based on what is currently known about control of gene expression, the control point to begin your study at would be
Initiation of transcription.
Which of the following statements about triplet repeat expansions are true? Check all that apply.
Triplet repeat expansions were first observed in humans A triplet repeat expansion increases the number of times that a 3-base-pair sequence is repeated in the DNA
There is only one start codon.
True
One or a few base pairs are gained.
Addition
Chromatin is present in ________ cells only
Eukaryote
Activators are regulatory proteins that bind to the promoter and act to stimulate the initiation of transcription.
False
An addition or deletion that alters the codons downstream from the mutation
Frameshift mutation
Suppose a mutation changes the amino acid that an aminoacyl-tRNA synthetase enzyme recognizes without changing the tRNA molecule that it recognizes. How is this likely to affect the process of protein synthesis? Check all that apply.
It will alter the sequence of amino acids in the polypeptide chains It will affect the synthesis of most or all of the proteins produced by the cell
_____________ acts to cleave target mRNAs or inhabit the translation or target mRNAs present in the cytoplasm of eukaryotes
Micro RNA
Regulatory proteins control transcription initiation by modulating the ability of DNA polymerase to bind to the promoter.
False
Regulatory proteins locate the correct binding site on DNA by accessing the sugars along the major groove
False
Repressors are regulatory proteins that bind to the promoter and act to prevent or decrease the initiation of transcription.
False
Small RNAs can regulate gene expression by selective degradation of mRNA, inhibition of translation, or alteration of ribosome structure.
False
The coding region of the lac operon is transcribed when the CAP-cAMP complex is bound to the CAP binding site and the lac repressor is bound to the operator.
False
The lac operon is positively regulated by the lac repressor.
False
The most common DNA-binding motif is the beta-pleated sheet
False
There are 66 possible codons.
False
When lactose is absent, the lac repressor binds to the promoter and blocks transcription of the genes that code for proteins needed to metabolize lactose.
False
These promoters contain a "core promoter" that can be composed of a number of different elements including a TATA box.
RNA polymerase II promoters
The best summary of gene splicing mechanisms are that
it offers gene plasticity to most eukaryotes. they allow one coding sequence to be expressed differently according to each cell type. it adds yet another layer to gene regulation.
Elongation
A charged tRNA with a complementary anticodon to the codon in the A site enters and binds. The tRNA in the E site is ejected. A peptide bond forms between the amino group of the amino acid attached to the A site tRNA and the carboxyl group of the growing polypeptide chain.
Processing of mRNA transcripts occurs in prokaryotes only
False
DNA is used as a template to make a complementary strand of DNA.
DNA Replication
When observing the reactions within eukaryotic transcription you find there is a greater energy expenditure and several more enzymes and transcription factors than within prokaryotic transcription. The best explanation for this is that
In eukaryotes, DNA is complexed with chromatin and transcription elements can be located far away from the transcription start site.
When working in your lab a colleague brings to you his observation of the insertion of a DNA-binding motif into the major groove. What would best describe the active source of this insertion?
The regulatory proteins are responsible for these motifs.
During translation, a charged tRNA first binds to the ribosome if its anticodon matches the codon in the E site.
False
An addition or deletion that alters the codons upstream from the mutation
None of these
RNA is used as a template to make a complementary strand of RNA.
None of these
Changes a codon for one amino acid into a stop codon.
Nonsense mutation
When explaining to a science class the way that transcription factors can bind to DNA sites far away from the promoter and still cause transcription, you conclude that
DNA looping must bring the transcription factors close to the promoter.
The best description of how regulatory proteins recognize and bind to the correct sequences without unwinding the DNA double helix is
DNA-binding domains can recognize the chemical groups that protrude from the base-pairs into the major groove.
One or a few base pairs are lost.
Deletion
During translation, an amino acid attached to a tRNA in the A site is transferred to a growing polypeptide attached to a tRNA in the P site.
False
During translocation of the ribosome, tRNA molecules move from the P site, to the A site, to the E site, and are then ejected from the ribosome.
False
Each regulatory protein has its own unique DNA-binding motif
False
Each siRNA is loaded into its own RISC, which cleaves target tRNAs. true incorrect
False
Gene splicing is a common regulatory mechanism in prokaryotes.
False
Mature miRNA is loaded into a RISC, which can act to either cleave target tRNAs or to inhibit transcription of DNA.
False
Ribosomes are composed of tRNA and protein.
False
Special "spacer" proteins are used to mark the end of one codon and the start of the next codon.
False
Stop codons have a dual function because each one also codes for an amino acid.
False
Synthesis of the proteins needed to metabolize lactose is repressed by the presence of lactose.
False
The genetic code is read in groups of 4 bases.
False
Transcript processing takes place in the cytoplasm
False
When the level of glucose is high, cAMP is abundant and binds to CAP.
False
While endogenous siRNAs tend to repress genes different from their origin, miRNAs tend to repress the genes they were derived from.
False
Changes a codon for one amino acid into a codon for a different amino acid.
Missense mutation
In most cases, these promoters are internal to the gene itself rather than near the 5' end.
RNA polymerase III promoters
_________ combines with protein to form the 2 ribosomal subunits
Ribosomal RNA
You are studying a biochemical pathway in the mold Neurospora where enzyme 1 converts the initial substrate into intermediate substrate A; enzyme 2 converts intermediate substrate A into intermediate substrate B; enzyme 3 converts intermediate substrate B into intermediate substrate C; and enzyme 4 converts intermediate substrate C into the end product, an amino acid that is essential for growth. You isolate a mutant that is unable to grow on minimal media. Which data would provide the strongest support for the hypothesis that this mutation occurred in the gene that codes for enzyme 2?
The mold can grow on minimal medium plus intermediate substrate B, but not on minimal medium plus intermediate substrate A.
You are studying a eukaryotic gene that codes for the alpha-subunit in hemoglobin. What is the most likely result if base substitutions occur in the first nucleotide at the 5' end of an intron and also in the last nucleotide at the 3' end?
There will be no change in the polypeptide coded by this gene because introns are not expressed.
The source of double-stranded RNA used to produce siRNAs can be either from within the cell or from outside the cell.
True
Termination
A release factor breaks the covalent bond that links the polypeptide chain to the P site tRNA. A release factor enters the A site of the ribosome. The mRNA, tRNA and 2 ribosomal subunits dissociate from each other.
Initiation
A tRNA molecule charged with its amino acid joins its first AUG codon in the mRNA strand. The small ribosomal subunit binds to mRNA. The large ribosomal subunit bind to the small ribosomal subunit.
Alteration of the nucleotide sequence in SRP RNA would most likely affect
Docking of ribosomes to the RER.
The coding region is located __________ from its promoter
Downstream
A study of the effects of damaging toxins on cells and tissue identifies ubiquitin as a key molecule. Why would you be interested in studying ubiquitin?
Proteins are marked for destruction if there is any damage on it.
You have designed a drug that stops the functions of proteasomes. What interactive structure will it also affect and why?
Proteins as proteasomes cleave this target.
These promoters are specific for each species, so cross-species comparisons do not yield any similarities.
RNA polymerase I promoters
RNA is used as a template to make a complementary strand of DNA.
Reverse Transcription
DNA is used as a template to make a complementary strand of RNA.
Transcription
When the CAP-cAMP complex binds to the CAP binding site, this bends the DNA which blocks binding of RNA polymerase to the promoter.
False
Changes a codon for one amino acid into a different codon for the same amino acid.
Silent mutation
One or a few base pairs are replaced by different base pairs
Substitution
As a cell biologist you are always trying to explain mechanisms of gene expression. The most accurate description of how RNA polymerase II functions would be
TFIID binds to TATA box on the DNA. TFIIB and TFIIA then bind. TFIIF bound to RNA Pol-II then attaches followed by TFIIE, TFIIH and TFIIJ this completes the initiation complex for making mRNA
___________ transports amino acids to the ribosomes for use in protein synthesis
Transfer RNA
RNA is used as a template to make a polypeptide.
Translation
This type of mutation causes Huntington's disease and has only been observed in humans and mice.
Triplet repeat expansion
A peptide bond forms between the amino acid attached to a tRNA in the A site and the growing polypeptide attached to a tRNA in the P site.
True
A single primary transcript can be spliced into different mature mRNAs by the inclusion of different exons, a process called alternative splicing
True
Binding of a regulatory protein to DNA either inhibits transcription by getting in the way of RNA polymerase or stimulates transcription by favoring the binding of RNA polymerase to the promoter.
True
CAP alone does not bind to DNA, but binding of cAMP to CAP alters its conformation so that it can bind to DNA.
True
DNA binding motifs generally contain a helical segment, called the recognition helix that fits snugly into the major groove of the DNA molecule
True
No more than 2 tRNA molecules are bound to a ribosome at any given time.
True
The principle of colinearity of genes and proteins does not apply to eukaryotes because
most eukaryotic genes contain introns.
The correct order of gene expression control mechanisms in eukaryotes is
transcription initiation, transcription elongation, transcription termination, post-transcriptional processing, nuclear export.
Some small RNAs regulate gene expression at the transcriptional level by mediating the formation of heterochromatin.
True
The DNA double-helix contains a major groove and a minor groove
True
The codons do not overlap each other.
True
The final processed form of mRNA is called the mature mRNA
True
The genetic code includes specific start and stop codons.
True
The genetic code is the same in almost all living organisms.
True
The poly-A tail appears to play a role in the stability of mRNAs by protecting them from degradation
True
Uncharged tRNA molecules in the E site are ejected from the ribosome.
True
When lactose is present, the lac repressor cannot bind to the operator; therefore, RNA polymerase can transcribe the genes that code for proteins needed to metabolize lactose.
True
Before the mRNA is processed, it is called the primary transcript
True
The lac operon consists of a coding region, which contains 3 genes that code for proteins needed to metabolize lactose, and a regulatory region, which regulates transcription of the coding region.
True
The presence of glucose blocks induction of the lac operon.
True
Pre-miRNA is processed by Dicer nuclease to produce mature miRNA.
True
During translation in eukaryotes, some ribosomes remain free in the cytoplasm while others attach to protein channels embedded in the RER.
True
Hundreds of regulatory sequences have been identified and each one provides a binding site for a specific protein that is able to recognize the sequence.
True
In the lac operon, the 3 genes that code for proteins needed to metabolize lactose are transcribed as a unit, producing a single molecule of mRNA.
True
Regulatory proteins function by binding to specific sequences on the DNA called regulatory sequences.
True
Which of the following were used to decipher the genetic code? Check all that apply.
A cell-free biochemical system that could synthesize polypeptides Synthetic mRNA polymers with known base sequences Synthetic RNA triplets with known base sequences
Elongation (Stage of Transcription)
A process called clearance or escape. New nucleotides are added to the 3' end of the grown RNA transcript.
In eukaryotes, how can a single gene code for several different proteins?
A single pre-mRNA can be spliced to form different mature mRNAs by including different sets of exons
Initiation (Stage of Transcription)
The RNA polymerase holoenzyme binds to the promoter. Once bound to the promoter, RNA polymerase begins to unwind the DNA. The RNA polymerase holoenzyme is formed.
A patient you are working with has increased expression of genes dangerous to their health. The suggested treatment is to alter post-transcriptional regulation. Explain where in the process of gene expression this would occur and what types of regulation should be manipulated in order to save the patient's life?
This phase would occur between the transcription of the DNA to RNA and prior to protein formation, therefore manipulation of the capping, splicing or addition of poly A tails would stop expression.
A bacterial cell has a nonsense mutation in the gene that codes for hexokinase, an enzyme used during glycolysis. This mutation is most likely to affect the expression of this gene by
causing early termination during the elongation cycle of translation.
After completing research into chromatin structure and remodeling, you prepare a final presentation on your findings. To ensure maximum accuracy, your presentation of the function of chromatin-remodeling complexes would be they
help regulate transcription by altering the structure of chromatin. contain enzymes that can modify histones. contain enzymes that can modify DNA. have the ability to slide nucleosomes along DNA to reveal binding sites for proteins. have the ability to remodel nucleosomes or completely remove them from DNA. replace histones with different histones.
During initiation of translation, the small ribosomal subunit joins to the mRNA and initiator rRNA, followed by the large ribosomal subunit.
False
During transcript processing, a methylated GTP is added to the 3' end of the transcript
False
During transcript processing, a series of adenine residues are added to the 5' end of the transcript
False
During transcript processing, noncoding regions, called exons, are removed and the coding regions, called introns, are spliced together
False
Termination (Stage of Transcription)
Reaching a terminator sequence causes formation of phosphodiester bonds to stop. RNA polymerase releases the DNA template. The RNA- DNA hybrid within the transcription bubble dissociates.
Scientists have identified many different types of small RNAs including miRNA and siRNA.
True
Small RNAs can regulate gene expression at both the transcriptional level and the posttranscriptional level.
True