6th Edition

ISBN: 9781260571561

Author: HARTWELL

Publisher: MCG CUSTOM

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Textbook Question

Chapter 18, Problem 29P

F. Port and S. Bullock at the University of Cambridge (UK) designed the elegant plasmid vector pCFD3 for the expression of sgRNAs in Drosophila. The following figure shows a part of this vector. The orange sequences are part of a strong promoter (transcription from this promoter starts at the G in bold—which must be present—and goes from left to right). The purple sequences are a portion of the tracrRNA component of the sgRNA. After cutting the pCFD3 plasmid with the restriction enzyme BbsI (whose recognition site is also shown in the following figure), you will replace the blue sequences in the figure with sequences that will allow the expression of an sgRNA that targets a Drosophila gene called NiPp1.

Chapter 18, Problem 29P, F. Port and S. Bullock at the University of Cambridge UK designed the elegant plasmid vector pCFD3 , example 1

The last part of the jigsaw puzzle you will need is the following sequence, which shows part of the NiPp1 gene including the triplet corresponding to the start codon. Capital letters are in the gene’s first exon with the coding region in blue; lowercase letters are in the first intron. The NiPp1 protein is 383 amino acids long. Your assignment is to generate a knockout allele of this gene by inducing Cas9 to produce a double-strand break into the gene that will be repaired imprecisely by nonhomologous end-joining (NHEJ).

a.	Identify the two PAM sites in this sequence. Which of these PAM sites would you want to use in order to produce a null allele of the NiPp1 gene? Why would you prefer this site?
b.	If you targeted Cas9 to the proper location in the NiPp1 gene, and the resultant double-strand break was repaired imprecisely by NHEJ (so that a few—usually ≤6 bp are deleted or added at that location), about what percentage of the imprecisely repaired genes could you say with confidence would be null alleles? Explain.
c.	Diagram the pCFD3 vector after it has been cut with the BbsI enzyme. Don’t worry about the small blue fragment that will be removed; the emphasis here is to show the 5′-overhangs that will be made.
d.	Design two 24-nt DNA oligonucleotides that you could anneal together and clone into BbsI-cut pCFD3 vector so that the recombinant plasmid could express an sgRNA useful for making null mutations in the NiPp1 gene.
e.	Show exactly where Cas9 would cut the NiPp1 gene.
f.	Briefly outline what you would do with your recombinant plasmid to make a null mutation in the fly NiPp1 gene.
g.	Briefly outline how you would modify this technique to generate a knockin allele in which the first amino acid in the NiPp1 protein after the initiating Met (that is, Thr) would be changed to Ala.

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Chapter 18, Problem 28P

Chapter 18, Problem 30P

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Explain why you chose this mutation. Begin by transcribing and translating BOTH the normal and abnormal DNA sequences. The genetic code below is for your reference. SECOND BASE OF CODON כ FIRST BASE OF CODON O THIRD BASE OF CODON SCAGUCAGUGAGUCAG UUU UUC UCU UAU UGU Phenylalanine (F) Tyrosine (Y) Cysteine (C) UCC UAC UGC Serine (S) UUA UUG Leucine (L) UCA UCG_ UAA UGA Stop codon -Stop codon UAG UGG -Tryptophan (W) CUU CUC CCU CAU CGU Histidine (H) CCC CAC CGC -Leucine (L) Proline (P) CUA CCA CAA CUG CCG CAG-Glutamine (Q) -Arginine (R) CGA CGG AUU ACU AAU AGU AUC Isoleucine (1) Asparagine (N) ACC AAC Threonine (T) AUA ACA AAA Methionine (M) Lysine (K) AUG ACG Start codon AAG AGC-Serine (S) -Arginine (R) AGA AGG GUU GCU GAU GUC GUA GUG GCC Valine (V) -Alanine (A) GCA GCG GAC GAA GAG Aspartic acid (D) GGU Glutamic acid (E) GGC GGA GGG Glycine (G) In order to provide a complete answer to the question stated above, fill in the mRNA bases and amino acid sequences by using the Genetic Code…

Chapter 18 Solutions

GENETICS(LL)-W/CONNECT >CUSTOM<

Ch. 18 - Match each of the terms in the left column to the...Ch. 18 - Mice are usually gray, but a mouse geneticist has...Ch. 18 - Sometimes, genes transferred into the mouse genome...Ch. 18 - In mice, a group of so-called Hox genes encode...Ch. 18 - The fly eyes shown in Fig. 18.7 are malformed...Ch. 18 - This problem concerns a technique called enhancer...Ch. 18 - Fish and other organisms that live in the Arctic...Ch. 18 - a. Describe two ways you could potentially make a...Ch. 18 - Figure 18.6 shows a picture of Glofish ,...Ch. 18 - Some people are concerned about the possible...

Ch. 18 - The goal of the Knockout Mouse Project is to...Ch. 18 - Prob. 12P Ch. 18 - Prob. 13P Ch. 18 - a. Which genome manipulation technique would you...Ch. 18 - a. Diagram a knockin construct that could have...Ch. 18 - Prob. 16P Ch. 18 - Prob. 17P Ch. 18 - The transcription factor Pax6 is required...Ch. 18 - Mouse models for human genetic diseases are...Ch. 18 - One way to determine where inside a cell a protein...Ch. 18 - In Problem 5 in Chapter 17, you saw that a SNP...Ch. 18 - Scientists now routinely use CRISPR/Cas9 to make...Ch. 18 - Geneticists are currently considering using...Ch. 18 - a. Figures 18.9 and 18.12 demonstrated methods to...Ch. 18 - Nonhomologous end-joining NHEJ of a double-strand...Ch. 18 - One problem that researchers sometimes encounter...Ch. 18 - Researchers at the University of California at San...Ch. 18 - Prob. 28P Ch. 18 - F. Port and S. Bullock at the University of...Ch. 18 - On Fig 18.14, locate the PAM site and identify the...Ch. 18 - Prob. 31P Ch. 18 - Prob. 32P Ch. 18 - Recall that Leber congenital amaurosis LCA, a form...Ch. 18 - One potential strategy for gene therapy to correct...Ch. 18 - Recently, scientists have used a mouse model for...

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Solution Summary: The author explains how the PAM site and the CGG can be used to produce a null allele of NiPp1 gene.

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