Biology: How Life Works
3rd Edition
ISBN: 9781319017637
Author: James Morris, Daniel Hartl, Andrew Knoll, Melissa Michael, Robert Lue, Andrew Berry, Andrew Biewener, Brian Farrell, N. Michele Holbrook
Publisher: Macmillan Higher Education
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Chapter 13.5, Problem 13SAQ
Summary Introduction
To describe:
The steps necessary to synthesize
Concept introduction:
Viruses differ considerably in their genomes. Some viruses have genomes composed of RNA, while others have genome made up of DNA. In addition to this, the genome can be either single stranded or double stranded. Since viruses have evolved independently therefore, it is very difficult to classify them on the basis of evolutionary relatedness. They are generally classified on the basis of the type of
Expert Solution & Answer
Explanation of Solution
The steps necessary to synthesize
1. The first step involves the melting of double stranded DNA to allow the binding of DNA dependent RNA polymerase enzyme.
2. The second step involves the synthesis of
The steps necessary to synthesize
1. Replication of single stranded (+) DNA to form double stranded DNA.
2. The double stranded DNA then act as template for the synthesis of
The steps necessary to synthesize
1. Replication of single stranded (-) DNA occurs to form double stranded DNA.
2. The double stranded DNA then act as template for the synthesis of
The steps necessary to synthesize
1. The single stranded (+) RNA is converted into single stranded (-) DNA with the help of enzyme called reverse transcriptase, a RNA dependent DNA polymerase.
2. The single stranded (-) DNA is then replicated to form double stranded DNA, which is then used as template by the DNA dependent RNA polymerase to synthesize
3. In some single stranded (+) RNA, the positive sense RNA is first converted into negative sense RNA which is then used as template by RNA dependent RNA polymerase to synthesize
The steps necessary to synthesize
1. The single stranded (-) RNA is used as template to synthesize positive sense
2. The
Conclusion
The viruses differ considerably in the synthesis of their
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Students have asked these similar questions
19. On the diagram below
a. Label the three pictures as: DNA; polypeptide; or RNA.
b. Label the arrows as: translation or transcription/RNA processing.
c. Add the following details to the diagram.
Promoter region
TATA box
Transcription start site
Transcription terminator
Intron (A,B,C,D)
Exons (1,2,3,4,5)
Splice sites
5' cap
5' UTR (untranslated region)
3' poly A tail
3' UTR (untranslated region)
Translational start (AUG)
Translational stop (UGA, UAG, or UAA)
N and C ends of polypeptide
0000
Match the letter labels in the figure below to the terms. Some letter
labels are not used.
MNNNNNNIN
M
C
B
A
M
D
F
E
H
K
G
8
The diagram below illustrates a quorum sensing pathway from Staphylococcus aureus. Please answer the following questions.
1. Autoinduction is part of the quorum sensing system. Which promoter (P2 or P3) is critical for autoinduction?
2)This staphylococcus aureus grows on human wounds, causing severe infections. You would like to start a clinical trial to treat these wound infections. Please describe:
a) What molecule do you recommend for the trial. Why?
b) Your trial requires that Staphylococcus aureus be isolated from the wound and submitted to genome sequencing before admittance. Why? What are you testing for?
3) If a mutation arises where the Promoter P3 is constitutively active, how would that influence sensitivity to AIP? Please explain your rationale.
4) This pathway is sensitive to bacterial cell density. Describe two separate mutation that would render the pathway active independent of cell density. Briefly explain your rationale.
Mutation 1
Mutation 2
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