Deck 12: Gene Transcription and RNA Modification

A)Regulatory sequences
B)Termination sequences
C)The coding strand of DNA
D)The template strand of DNA

A)5'TTGAAA3'
B)5'TAAATT3'
C)5'TATATA3'
D)5'TTCAGA3'

A)a
B)b
C)b'
D) $\sigma$

A)Start codons
B)b
C)b'
D) $\sigma$
E)a

A)a failure of the RNA polymerase to bind to TFIIB
B)a failure of the RNA polymerase to maintain an closed complex
C)a failure of the RNA polymerase to maintain an open complex
D)no effect on transcription

A)Promoter
B)Terminator
C)Regulation sequences
D)Transcription factors

A)0 to 50
B)-50 to 0
C)-50 to -100
D)-100 to -150

A)Alternative splicing
B)RNA editing
C)5' capping
D)Polyadenylation
E)Trimming

A) Enhancers
B) Silencers
C) Core promoters
D) Cis-acting elements
E) General transcription factors

A)tRNA
B)snRNA
C)mRNA
D)rRNA
E)scRNA

A)Transcription will terminate normally as Rho termiantion relies on the rut site to enhance termination; it is not essential for termination
B)Transcription will stop immediately because RNA polymerase will sense there is a mutation
C)Transcription will continue until another termination sequence, either Rho dependent or independent is reached
D)There will be no transcription initiation

A)RNA pol I - mRNA RNA pol II - tRNA and 5s rRNA
RNA pol III - rRNA
B)RNA pol I - rRNA RNA pol II - tRNA and 5s rRNA
RNA pol III - mRNA
C)RNA pol I - mRNA RNA pol II - rRNA
RNA pol III - tRNA and 5s rRNA
D)RNA pol I - tRNA and 5s rRNA RNA pol II - mRNA
RNA pol III - rRNA

A)RNA polymerase
B)Transcription factors
C)Double helix DNA
D)Single-stranded DNA

A)In the cytoplasm
B)In the nucleolus
C)In the endoplasmic reticulum
D)In the Golgi body
E)Throughout the cell

A) The allosteric model is that RNA pol II becomes destabilized after transcription of the poly A signal sequence while the torpedo model is that the polymerase is physically removed from the DNA
B) The torpedo model is that RNA pol II becomes destabilized after transcription of the poly A signal sequence while the allosteric model is that the polymerase is physically removed from the DNA
C) The allosteric model is that RNA pol II becomes destabilized after transcription of the stop codon sequence while the torpedo model is that the polymerase is physically removed from the DNA
D) The torpedo model is that RNA pol II becomes destabilized after transcription of the stop codon while the allosteric model is that the polymerase is physically removed from the DNA
E) The only difference between the two models is the proteins that are involved in removing the RNA pol II from the DNA

A)TFIID
B)TFIIH
C)TFIIF
D)TFIIB

A)Exons
B)Introns
C)Enhancers
D)Promoters

A)True
B)False
C)It is unknown at this time

A) The nucelotide added is a guanine methylated at N7 and the bond is created between the phosphate group on the guanine and the phosphate on the terminal nucleotide
B) The nucelotide added is a guanine methylated at N7 and the bond is a typical phosphodiester bond with the terminal nucleotide
C) The nucelotide added is anadenine methylated at N7 and the bond is created between the phosphate group on the guanine and the phosphate on the terminal nucleotide
D) The nucelotide added is an adenine methylated at N7 and the bond is typical phosphodiester bond with the terminal nucleotide

A)Zinc-finger
B)Helix-turn-helix
C)Leucine zipper
D)Homeodomain

A)Terminate transcription immediately after the stop codon
B)A sequence rich with A-U base pairs
C)Both require a helicase to separate the DNA-RNA complex
D)Formation of a stem-loop structure

A)Convert from initiation to the elongation stage
B)To aid in transcriptional initiation
C)Phosphorylate transcription factors
D)To aid in promoter recognition

A) Promoter, regulatory region, transcribed region, terminator
B) Regulatory region, promoter, transcribed region, terminator
C) Regulatory region, promoter, terminator, transcribed region
D) Promoter, transcribed region, regulatory region, terminator

A)Adenine is changed to inosine and cytosine is changed to thymidine
B)Although both bases are covalenty changed there is no alteration in the tRNAs the modified bases may engage
C)The new bases effectively result in new codons
D)Answers adenine is changed to inosine and cytosine is changed to thymidine and the new bases effectively result in new codons are correct (Although both bases are covalenty changed there is no alteration in the tRNAs the modified bases may engage is incorrect)
E) Answers adenine is changed to inosine and cytosine is changed to thymidine and although both bases are covalenty changed there is no alteration in the tRNAs the modified bases may engage are correct (The new bases effectively result in new codons is incorrect)

A)RNaseP acts as an endonuclease
B)The recognition sequence of RNaseD is 3'CCA5'
C)RNAseD acts as an endonuclease
D)tRNA is not processed in

A)U1
B)U2
C)U5
D)U6

A)Spliceosomes
B)Ribozymes
C)snRNA
D)Poly-A tail

A) The pre tRNA molecule is trimmed by exo and endonucleases
B) The pre tRNA is spliced
C) The mature tRNA is capped at the 5' end
D) There is extensive RNA editing

A)The first contains no introns and the second two introns
B)The first contains no introns and the second one intron
C)The first contains one intron and the second two introns
D)The first contains two introns and the second one intron

A)Transcription could not be terminated
B)The initiation complex could not form
C)RNA polymerase II would never be recruited to carry out elongation
D)There would be no effect

A)Eukaryotic
B)Prokaryotic
C)Cannot tell from the information given
D)Neither eukaryotic nor prokaryotic

A) This region is critical for the in vitro transcription reaction
B) this region is not critical for the in vitro transcription reaction
C) it is not possible to determine if this region is critical for in vitro transcription
D) the linker interfered with transcription

A)this region is not critical for transcription but can enhance transcription
B)the assay failed
C)when cloned in this region the linkers had a transacting effect
D)the results of the assay were variable and this is just due to random variation in the assay

A) the plasmid without the linker served as a positive control to demonstrate that the assay was performing as expected
B) that the plasmid was used to make sure there was no RNA degradation
C) the plasmid was used to make sure there was no DNA degradation
D) the plasmid was included as a carrier to help separate the RNA that was produced from the unincorporated radioactive nucleotides.