Biol 1A Chpt 12 (M3)
When an aminoacyl-tRNA synthetase charges a tRNA it results in the release of which molecule? A. mRNA B. ATP C. AMP D. pyrophosphate E. AMP and pryophosphate
AMP and pryophosphate
What molecule indirectly provides the energy for translation? A. ADP B. ATP C. GMP D. GDP E. GTP
ATP
Identify the anticodon sequence for an mRNA sequence that is 5AUG-GGC-ACU-CAU3. A. 3AUG-GGC-ACU-CAU5' B. 3UAC-CCG-UGA-GUA5 C. 5AUG-GGC-ACU-CAU D. 5UAC-CCG-UGA-GUA3 E. 3TAC-CCG-TGA-GTA3
B
Evaluate the reasons ribosomal genes are useful for comparing evolutionary relationships among organisms? A. Because there are many differences in these genes, even among closely related species B. Because all organisms possess these genes and they can be compared with each other C. Because these are the only genes that have been sequenced for every organism on Earth D. Because ribosomes of prokaryotes and eukaryotes are identical E. Because it is possible to compare the large subunit genes with the small subunit genes
Because all organisms possess these genes and they can be compared with each other
If a DNA template strand has a sequence of 3 TACAATGTAGCC 5, then the RNA produced from it will be which sequence? A. 3TACAATGTAGCC5 B. 5ATGTTACATCGG3 C. 5AUGUUACAUCGG3' D. 3AUGUUACAUCGG5 E. 3ATGTTACATCGG5
C
The following mRNA transcript would result in what polypeptide sequence? 5 ACU-UUC-ACU-AUG-UUU-UUA-UCC-UCC-ACU-CCU-UGA 3 Use the following codons and the amino acids they encode. AUG = Start or Met; UUU, UUC = Phe; UUA, UUG = Leu; UCU, UCC = Ser; CCU, CCC = Pro; ACU, ACC = Thr; UGA = Stop. A. Thr-Phe-Thr B. Phe-Leu-Ser-Ser-Thr-Pro C. Met-Phe-Leu-Ser-Ser-Thr-Pro D. Thr-Phe-Thr-Phe-Leu-Ser-Ser-Thr-Pro E. Met-Phe-Leu-Ser-Ser
C
Decide which sequence of events is most CORRECT for the initiation and elongation steps of translation in prokaryotic cells? (1) initiator tRNA binds start codon on mRNA (2) small ribosomal subunit binds to mRNA (3) large ribosomal subunit binds (4) tRNA entry and peptidyl transfer reaction (5) translocation of ribosome and release of tRNA A. 1, 2, 3, 4, 5 B. 1, 2, 3, 5, 4 C. 1, 3, 2, 4, 5 D. 2, 3, 1, 5, 4 E. 2, 1, 3, 4, 5
E 2-small ribosomal subunit binds to mRNA 1-initiator tRNA binds to start codon on mRNA 3-large ribosomal subunit binds 4-tRNA entry and peptidyl transfer reaction 5-translocation of ribosome and release of tRNA
What protein is involved in synthesizing messenger RNA in eukaryotes? A. RNA polymerase I B. RNA polymerase II C. RNA polymerase III D. sigma factor E. both RNA polymerase I and III
RNA polymerase II
________ is to transcription as ________ are to translation. A. RNA spliceosome; ribosomes B. RNA polymerase; ribosomes C. RNA polymerase; RNA spliceosomes D. DNA polymerase; RNA polymerase E. DNA polymerase; ribosomes
RNA polymerase; ribosomes
How many distinct aminoacyl-tRNA synthetases does each cell make? A. ~1 B. ~20 C. ~60 D. ~120 E. ~180
20
How many nucleotides are contained in a single codon? A. 1 B. 3 C. 4 D. 6 E. 9
3
An mRNA sequence is 5'AUG-GGC-ACU-CAU-ACU-UAA 3', where AUG is the start codon and UAA is the stop codon. How many distinct aminoacyl-tRNA synthetases are required to translate the mRNA sequence? A. 2 B. 3 C. 4 D. 5 E. 6
4
What basic features of transcription is NOT shared by both prokaryotes and eukaryotes? A. Both prokaryotic and eukaryotic genes have a promoter site. B. RNA polymerase transcribes genes in both prokaryotes and eukaryotes. C. Gene transcription involves initiation, elongation, and termination in both prokaryotes and eukaryotes. D. The complexity of protein components involved in transcription is similar for both prokaryotes and eukaryotes. E. The initiation of transcription in both prokaryotes and eukaryotes involves the interactions of more than one protein.
The complexity of protein components involved in transcription is similar for both prokaryotes and eukaryotes
What process enables a single gene to encode two or more polypeptides that are different in their amino acid sequence. A. Reverse transcription B. Self-splicing C. Capping D. Alternative splicing E. Regulatory splicing
alternative splicing
The term N-terminus refers to the presence of a(n) ________ at one of the ends of a polypeptide. A. oxygen atom B. carboxyl group C. amino group D. carbonyl group E. sulfate group
amino group
What enzyme catalyzes the attachment of amino acids to tRNA molecules? A. helicase B. topoisomerase C. aminoacyl-tRNA synthetase D. ribosome E. translation factor
aminoacyl-tRNA synthetase
The most common eukaryotic ribosome carries out its function in the A. Golgi apparatus. B. nucleus. C. cytosol. D. mitochondria. E. chloroplast.
cytosol
Because more than one codon can specify the same amino acid, the genetic code is said to be A. repetitive. B. redundant. C. reverse. D. degenerate. E. wobbly.
degenerate
A strain that can grow in minimal medium containing ornithine, citrulline, or arginine, but not in minimal medium alone would have a mutation in the gene that encodes for precursor -> Ornithine -> citrulline -> Arginine A. enzyme 1. B. enzyme 2. C. enzyme 3. D. enzymes 1, 2, and 3. E. The strain would be the wild type with no genetic mutations
enzyme 1
Wild type bread mold can grow in a minimal medium without supplements, while certain mutated strains can only grow in a minimal medium that is supplemented with specific intermediates found in the following metabolic pathway for arginine synthesis. See the figure below for an overview of the arginine biosynthetic pathway. A strain that can grow in a minimal medium containing arginine, but NOT in a minimal medium containing citrulline or ornithine would have a mutation in the gene that encodes for precursor -> Ornithine -> citrulline -> Arginine A. enzyme 1 B. enzyme 2 C. enzyme 4 D. both 1 & 3 E. both 2 & 3
enzyme 3
Which of the following statements about tRNA is FALSE? A. tRNAs of both eukaryotes and prokaryotes share common features. B. The two-dimensional structure of tRNAs exhibits a cloverleaf pattern. C. tRNAs are produced in the nucleus. D. functional tRNAs have been spliced by splicesomes. E. tRNAs possess an anticodon complementary to the codon
functional tRNAs have been spliced by splicesomes
An organized unit of DNA sequences that enables a segment of DNA to be transcribed into RNA and ultimately results in the formation of a functional product is called a _______. A. chromosome B. trait C. allele D. gene E. expression
gene
The processes of transcription and translation are collectively known as A. RNA processing. B. gene duplication. C. protein synthesis. D. DNA synthesis. E. gene expression.
gene expression
Intervening sequences that are transcribed, but not translated into protein are called A. exons. B. introns. C. spliceosomes. D. transposons. E. transcription factors.
introns
Which of the following statements about RNA processing in eukaryotes is INCORRECT? A. Introns are simply excised out of pre-mRNA to produce the mature mRNA. B. A protein/RNA complex is used to remove introns from the pre-mRNA. C. A poly A tail is added on to the 3' end of the mRNA. D. A 7-methylguanosine cap is added on to the 5'end of the mRNA. E. Processing occurs in the nucleus.
introns are simply excised out of pre-mRNA to produce the mature mRNA
If a cell's splicesomes were mutated so they no longer functioned normally, what consequences would result? A. Introns would remain in the mature mRNA. B. Exons would be missing in the mature mRNA. C. Transcription would cease. D. A functional protein would still be produced. E. RNA processing would remain intact.
introns would remain in the mature mRNA
Which of the following statements about RNA polymerase in bacteria is INCORRECT? A. It binds the promoter region of a gene. B. It is bound to a sigma factor during initiation of transcription. C. It synthesizes RNA. D. It catalyzes the addition of nucleotides to the 5'end of a growing RNA strand. E. It dissociates from the DNA at the terminator.
it catalyzes the addition of nucleotides to the 5' end of a growing RNA strand
Which amino acid would Nirenberg and Leder have found when they used the triplet UAG? A. Isoleucine B. Proline C. Lysine D. Threonine E. None of these
none
The amino acids of a growing polypeptide chain are held together by what kind of bond during the elongation stage of translation? A. hydrogen B. peptide C. glycosidic D. noncovalent E. lactose
peptide
The transcription process in a eukaryotic gene directly produces _________. A. rRNA B. pre-mRNA C. mRNA D. DNA E. Protein
pre-mRNA
Transcription begins near a site in the DNA called the ______. A. promoter B. enhancer C. response element D. transcription unit E. regulatory sequence
promoter
What is NOT a component of the translation machinery? A. mRNA B. tRNA C. translation factors D. ribosomes E. protein polymerase
protein polymerase
What molecule(s) exhibits self-splicing? A. rRNA B. tRNA C. mRNA D. rRNA and tRNA E. rRNA and mRNA
rRNA and tRNA
What factors are recognized by the cell in order to recognize the stop codon and disassemble the translation machinery? A. elongation factors B. release factors C. transcription factors D. initiation factors E. mRNA factors
release factors
If Nirenberg and Leder had the technology, what would be a better substitute to using radiolabeled amino acids? A. Radiolabeled proteins B. Radiolabeled tRNAs C. Ribosomes acids labeled with a fluorescent dye D. Amino acids labeled with a fluorescent dye E. All of the above
ribosomes acids labeled with a fluorescent dye
Which of the following statements about the mRNA start codon is INCORRECT? A. The start codon is only a few nucleotides from the ribosomal binding site. B. The start codon is usually GGA. C. The start codon is usually AUG. D. The start codon specifies the amino acid, methionine. E. The start codon defines the reading frame.
start codon is usually GGA
Which of the following serves as the "translator" or intermediary between an mRNA codon and an amino acid? A. rRNA B. snRNA C. tRNA D. siRNA E. snRNPs
tRNA
Which of the following statements about the 5'cap and mRNA processing is TRUE? A. The addition of a 5' cap to mRNA occurs while the pre-mRNA is being made. B. The 5' cap helps stabilize the mature mRNA. C. The 5' cap prevents the degradation of mature mRNA. D. The 5' cap is added to the pre-mRNA by splicesomes. E. The 5' cap is a group of adenosine molecules.
the addition of a 5' cap to mRNA occurs while the pre-mRNA occurs while the pre-mRNA is being made
What is the function of the poly A tail? A. The poly A tail is required for the termination of translation, it is recognized by the release factor proteins B. The poly A tail is required for the mRNA to resume its double helical structure C. The poly A tail increases mRNA stability in eukaryotes. D. The poly A tail increases mRNA stability in prokaryotes. E. The poly A tail serves as a termination sequence for RNA polymerase III
the poly A tail increases mRNA stability in eukaryotes
Which region of a structural gene contains the information that specifies an amino acid sequence? A. promoter region B. transcribed region C. terminator D. regulatory sequence E. enhancer region
transcribed region
The process that produces mRNA from DNA is called A. transcription. B. translation. C. replication. D. processing. E. post-translational modification
transcription
What protein influences the ability of RNA polymerase to transcribe genes? A. DNA polymerases B. DNA helicases C. transcription factors D. snRNPs E. tRNA
transcription factors
What products of nonstructural genes are never translated? A. transfer RNA B. ribosomal RNA C. messenger RNA D. transfer RNA and ribosomal RNA E. ribosomal RNA and messenger RNA
transfer RNA & ribosomal RNA
A defective ribosome would have the MOST detrimental effect on what processes would a defective ribosome have the most detrimental effect? A. translation B. replication C. transcription D. replication and transcription E. replication and translation
translation
T/F . All enzymes are proteins.
FALSE
T/F A single gene always encodes for an enzyme.
FALSE
T/F As part of the transcriptional unit, regulatory sequences are the sites where RNA polymerase and transcription factors bind to regulate transcription.
FALSE
T/F Because of the abundance of ribosomes, translation is NOT an energy costly process for the cell.
FALSE
T/F In eukaryotes, 40S and 60S combine to form a 100S ribosome
FALSE
T/F The cells of every organism make only a few different tRNA molecules encoded by the same gene
FALSE
T/F Translation is a relatively slow process
FALSE
T/F tRNA contains the genetic code for producing a polypeptide
FALSE
Analyze each statement and decide which are CORRECT. A. RNA polymerase simultaneously transcribes both strands of DNA B. It is possible for one RNA polymerase to transcribe one strand of DNA in the 5' to 3' direction and another RNA polymerase to transcribe the complimentary strand of DNA in the 3' to 5' direction, producing two identical transcripts C. It is possible for one RNA polymerase to transcribe one strand of DNA in the 5' to 3' direction and another RNA polymerase to transcribe the complimentary strand of DNA in the 5' to 3' direction, producing two identical transcripts D. It is possible for one RNA polymerase to transcribe one strand of DNA in the 5' to 3' direction and another RNA polymerase to transcribe the complimentary strand of DNA in the 3' to 5' direction, producing two different transcripts E. It is possible for one RNA polymerase to transcribe one strand of DNA in the 5' to 3' direction and another RNA polymerase to transcribe the complimentary strand of DNA in the 5' to 3' direction, producing two different transcripts
It is possible for one RNA polymerase to transcribe one strand of DNA in the 5' to 3' direction and another RNA polymerase to transcribe the complimentary strand of DNA in the 5' to 3' direction, producing two different transcripts
When does the small ribosomal subunit bind to the translational complex in eukaryotic cells? A. It is the first component to bind to the mRNA B. After the initiator tRNA binds, but before the start codon has been found C. After the large ribosomal subunit binds, but before the initiator tRNA binds D. After the start codon has been found by initiator tRNA E. The small ribosomal subunit binds the initiator tRNA and this complex is the first to bind to the mRNA
It is the first component to bind to the mRNA
T/F More than one codon can specify the same amino acid
TRUE
T/F RNA polymerase II of eukaryotes always requires more than one general transcription factor to initiate transcription
TRUE
T/F The molecule mRNA, which contains the information to make a polypeptide, is constructed from a DNA template.
TRUE
T/F The termination of translation occurs when a release factor recognizes the stop codon.
TRUE
