CUSTOM PRESCOTT'S MICROBIOLOGY
11th Edition
ISBN: 9781266032844
Author: WILLEY
Publisher: MCG
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Textbook Question
Chapter 16, Problem 2AL
Mistakes made during transcription affect the cell but not considered “mutations.” Why not?
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Listed below are steps in the transcription process. Reorganize the list so the steps in the correct order- starting with the first step in initiating transcription and ending with completion of a new strand of RNA (in other words- from start to finish of transcription).
RNA polymerase reaches the termination signal
DNA unwinds underneath RNA polymerase at transcription start site
RNA polymerase is recruited to the promoter region
mRNA transcript is released
General Transcription factors bind TATA box (and other DNA sequences) in the promoter region
General Transcription Factors unbind from promoter region
mRNA transcript synthesis occurs
RNA polymerase moves along the template strand in the 3’ to 5’ direction
Match the term to its best definition.
molecule with high-energy bond that carries
amino acid to translation site
part of a gene that gets translated into a protein
primary transcript in eukaryotes that needs to be
processed
single stranded nucleic acid that helps both in
transcription and in splicing
nucleic acid that makes up 50% of each ribosome
sequence of DNA upstream from the gene that
binds RNA polymerase before transcription
post processing molecule that carries instructions
for making a protein from the nucleus to a
ribosome in the cytoplasm
part of a gene that gets spliced out during pre
mRNA processing
Why will a mistake in the RNA code alone not become a mutation?
Chapter 16 Solutions
CUSTOM PRESCOTT'S MICROBIOLOGY
Ch. 16.1 - Retrieve, Infer, Apply List three ways in which...Ch. 16.1 - Compare and contrast the means by which the...Ch. 16.1 - Give examples of intragenic and extragenic...Ch. 16.1 - Retrieve, Infer, Apply Sometimes a point mutation...Ch. 16.1 - Retrieve, Infer, Apply Why might a missense...Ch. 16.2 - How would you screen for a tryptophan auxotroph?...Ch. 16.2 - Why is a small amount of histidine added to the...Ch. 16.2 - Retrieve, Infer, Apply Describe how replica...Ch. 16.2 - Retrieve, Infer, Apply Why are mutant selection...Ch. 16.2 - Retrieve, Infer, Apply Briefly discuss how...
Ch. 16.2 - Describe how you would isolate a mutant that...Ch. 16.2 - Prob. 5CCCh. 16.3 - How is mismatch repair similar to DNA polymerase...Ch. 16.3 - How is damaged DNA recognized by the UvrAB...Ch. 16.3 - Prob. 1CCCh. 16.3 - Retrieve, Infer, Apply What role does DNA...Ch. 16.3 - Retrieve, Infer, Apply When E. coli cells are...Ch. 16.3 - Explain how the following DNA alterations and...Ch. 16.4 - An antibiotic-resistance gene located on a...Ch. 16.4 - What four fates can DNA have after entering a...Ch. 16.4 - How does homologous recombination differ from...Ch. 16.5 - What features are common to all types of...Ch. 16.5 - How does a transposon differ from an insertion...Ch. 16.5 - What is simple (cut-and-paste) transposition? What...Ch. 16.5 - What effect would you expect the existence of...Ch. 16.6 - Prob. 1MICh. 16.6 - What is bacterial conjugation and how was it...Ch. 16.6 - For F+, Hfr, and F strains of E. coli, indicate...Ch. 16.6 - Describe how F+ F and Hfr conjugation processes...Ch. 16.6 - Compare and contract F+ F and F F conjugation.Ch. 16.7 - According to this model, what would happen if DNA...Ch. 16.7 - Prob. 1CCCh. 16.7 - Describe how transformation occurs in S....Ch. 16.7 - Discuss two ways in which artificial...Ch. 16.8 - Compare the number of transducing particles that...Ch. 16.8 - Why cant the gal and bio genes be transduced by...Ch. 16.8 - Describe generalized transduction and how it...Ch. 16.8 - What is specialized transduction and how does it...Ch. 16.8 - How might one tell whether horizontal gene...Ch. 16.8 - Why doesnt a cell lyse after successful...Ch. 16.8 - Describe how conjugation, transformation, and...Ch. 16.9 - As a replicative transposon, what would happen if...Ch. 16 - Prob. 1RCCh. 16 - Prob. 2RCCh. 16 - Prob. 3RCCh. 16 - Prob. 4RCCh. 16 - Prob. 5RCCh. 16 - Prob. 6RCCh. 16 - Mutations are often considered harmful. Give an...Ch. 16 - Mistakes made during transcription affect the cell...Ch. 16 - Suppose that transduction took place when a U-tube...Ch. 16 - Suppose that you carried out a U-tube experiment...Ch. 16 - Prob. 5ALCh. 16 - Prob. 6ALCh. 16 - Prob. 7AL
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- A gene is about to be transcribed. Draw a cartoon/ diagram of double stranded DNA that contains this gene, and indicate where in this DNA corresponds (or will correspond to after transcription): promoter, 4 exons, 4 introns, start of transcription, start of translation, start codon, and stop codon.arrow_forwardFor each mutant, state what change has occurred in the DNA, whether it was a substitution by transition or transversion, sense mutation, nonsense or reading frame change. It must present the codon sequence. Normal nucleotide sequence starting from the third codon: CCC-ACG-GUG-ACG-ACA-CGG-UGG Please show the codon and nucleotide sequence of the mutation.arrow_forwardWhich of the following statements regarding complementary molecules in transcription is false? Group of answer choices The sense strand is complementary to the template strand The transcribed RNA is complementary to the noncoding strand The coding strand is complementary to the antisense strand The transcribed RNA is complementary to the coding strandarrow_forward
- Shown below is an eukaryotic gene. Assuming normal wild type RNA processing in a.cell, which of the following mature MRNAS could result in normal levels of functional synthesized proteins? Select all that apply Direction of transcription Promoter Template strand 5' Exon 4 Intron 3 Exon 3 Intron 2 Exon 2 Intron 1 Exon 1 3' 5' Coding strand Transcription start Transcription start 5' CAP-Exon1-Exon3-Exon4-AA..AAAA 5' CAP-Exon1-Exon2-Exon3-Exon4-AA...AAAA 5' CAP-Exon1-Exon2-Exon3-Exon4 Exon1-Exon2-Exon3-Exon4-.....AAAAarrow_forwardInverted repeats in the DNA sequence being transcribed can lead to mRNA molecule that forms a hairpin loop and is often used terminate transcription. The transcription process supercolls DNA. the first statement is true. the second statement is false. the first statement is false. the second statement is true. Both statements are true. Both statements are false.arrow_forwardMatch the statement that corresponds to the specific type of transcription and translation. Choices: Eukaryotic Translation Prokaryotic Translation and Transcription Both Prokaryotic and Eukaryotic Transcription Prokaryotic Transcription Prokaryotic Translation Both Prokaryotic and Eukaryotic Translation Eukaryotic Transcription 1. RF1 and RF2 recognize the three bases to terminate the process 2. TATA box in the promoter region 3. single mRNA codes for the proteome 4. methionine is removed 5. simultaneous and rapid process producing mRNA and polypeptide 6. eRF recognizes UGA 7. dozen of initiation factors involving methionyl tRNA * 8. rho factor and sequence of uracil in a loop conclude the process 9. ribosome propels to the next bases 10. sigma factor binds to RNA polymerase in the promoter region 11. regulating elements in the operon 12. cleaving the polypeptide by adding water 13. removal of gene segment disrupting the message 14. CAAT box is found 80 nucleotides from the…arrow_forward
- Induced mutation are characterized by: Select the correct response: Exposure to free radicals that has been deposited in the aqueous phase and diffuses towards the cell that is followed by the inhibition of its replication or transcription, or may cause deletion. Physical and chemical agents that results in the transition, transversion, and framshift mutations of bases and other structural units that affects the overall function of a nucleic acid. Physical and chemical agents that results in the alteration of the electoronic characteristics of the bases and other structural units that affects the overall function of a nucleic acid. Point mutations that results in the transition, transversion, and framshift mutations of bases and other structural units that affects the overall function of a nucleic acid. Physical and chemical agents that results in the alteration base pairing where tautomers are formed affects the overall function of a nucleic acid.arrow_forwardMatch the term with its definition comparing genomic DNA, mRNA, and proteins. You may only use each option ONCE. where transcription starts. where translation ends a chemical group that indicates the first nucleotide that was added to the mRNA a chemical group that indicates the first amino acid that was added to the polypeptide a DNA sequence that is neither transcribed nor translated a non-protein coding region upstream of the start codon in the mRNA promoter complimentary base-pairs with the codon amino-terminus a DNA sequence that is transcribed, but not intron translated [Choose ] stop codon +1 site tRNA 5-prime UTR start codon exon 5-prime triphosphate promoter amino-terminus 5-prime triphosphate stop codonarrow_forwardWhich of the following components is involved in the initiation of transcription? Group of answer choices promoter primer start codon originarrow_forward
- Name of the enzyme that adds RNA Nucleotides during Transcription? O Helicase O Primase DNA Polymerase O RNA Polymerase 9MDarrow_forwardInsert Table Chart Text Shape Media Comment Which of the following statements regarding "start" and "stop" signals apply to both transcription and translation? the start and stop signals are "read" (i.e., interpreted) the start and stop signals reside within nucleic acid the start and stop signals are part of the genetic code the start and stop signals reside in RNA. start and stop signals are needed because the products must have a definite length and sequence.arrow_forwardGive typing answer with explanation and conclusionarrow_forward
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Mitochondrial mutations; Author: Useful Genetics;https://www.youtube.com/watch?v=GvgXe-3RJeU;License: CC-BY