Textbook Question
Write a short essay or sketch a diagram that provides an overview of how recombinant DNA techniques help geneticists study genes.
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Ch. 20 - Recombinant DNA Technology
Klug12th EditionConcepts of Genetics ISBN: 9780135564776
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Table of contents
- Ch. 1 - Introduction to Genetics17
- Ch. 2 - Mitosis and Meiosis36
- Ch. 3 - Mendelian Genetics51
- Ch. 4 - Extensions of Mendelian Genetics74
- Ch. 5 - Chromosome Mapping in Eukaryotes51
- Ch. 6 - Genetic Analysis and Mapping in Bacteria and Bacteriophages46
- Ch. 7 - Sex Determination and Sex Chromosomes33
- Ch. 8 - Chromosome Mutations: Variation in Number and Arrangement40
- Ch. 9 - Extranuclear Inheritance31
- Ch. 10 - DNA Structure and Analysis43
- Ch. 11 - DNA Replication and Recombination44
- Ch. 12 - DNA Organization in Chromosomes30
- Ch. 13 - The Genetic Code and Transcription54
- Ch. 14 - Translation and Proteins47
- Ch. 15 - Gene Mutation, DNA Repair, and Transposition41
- Ch. 16 - Regulation of Gene Expression in Bacteria29
- Ch. 17 - Transcriptional Regulation in Eukaryotes41
- Ch. 18 - Post-transcriptional Regulation in Eukaryotes33
- Ch. 19 - Epigenetics33
- Ch. 20 - Recombinant DNA Technology44
- Ch. 21 - Genomic Analysis36
- Ch. 22 - Applications of Genetic Engineering and Biotechnology36
- Ch. 23 - Developmental Genetics37
- Ch. 24 - Cancer Genetics34
- Ch. 25 - Quantitative Genetics and Multifactorial Traits54
- Ch. 26 - Population and Evolutionary Genetics45
Chapter 20, Problem 5
Although many cloning applications involve introducing recombinant DNA into bacterial host cells, many other cell types are also used as hosts for recombinant DNA. Why?
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Understand that different host cells offer unique advantages for cloning recombinant DNA, depending on the goals of the experiment or application.
Recognize that bacterial cells, such as Escherichia coli, are commonly used because they grow quickly and are easy to manipulate genetically, but they may not perform certain post-translational modifications needed for some proteins.
Consider that eukaryotic host cells (like yeast, insect, or mammalian cells) are used when the recombinant protein requires proper folding, glycosylation, or other modifications that bacteria cannot provide.
Acknowledge that some host cells are chosen based on their ability to express large or complex genes, or to produce proteins in a form that is biologically active and functional in higher organisms.
Summarize that the choice of host cell depends on factors such as the type of recombinant DNA, the desired protein product, and the biological processes needed for correct expression and modification.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Host Cell Diversity in Recombinant DNA Technology
Different host cells, such as bacteria, yeast, and mammalian cells, are used in recombinant DNA technology because each offers unique advantages. For example, bacterial cells grow quickly and are easy to manipulate, while eukaryotic cells can perform complex post-translational modifications necessary for some proteins.
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Recombination after Single Strand Breaks
Post-Translational Modifications
Post-translational modifications are chemical changes to proteins after synthesis, such as glycosylation or phosphorylation. These modifications often occur only in eukaryotic cells, making certain host types essential for producing functional proteins that require these modifications.
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04:30Post Translational Modifications
Expression Systems and Protein Folding
Different host cells provide distinct cellular environments that affect protein folding and expression levels. Proper folding is crucial for protein function, and some proteins require eukaryotic chaperones or cellular machinery absent in bacterial hosts, necessitating alternative host cells.
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Related Practice
Textbook Question
What roles do restriction enzymes, vectors, and host cells play in recombinant DNA studies? What role does DNA ligase perform in a DNA cloning experiment? How does the action of DNA ligase differ from the function of restriction enzymes?
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Textbook Question
The human insulin gene contains a number of sequences that are removed in the processing of the mRNA transcript. In spite of the fact that bacterial cells cannot excise these sequences from mRNA transcripts, explain how a gene like this can be cloned into a bacterial cell and produce insulin.
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Textbook Question
Using DNA sequencing on a cloned DNA segment, you recover the nucleotide sequence shown below. Does this segment contain a palindromic recognition sequence for a restriction enzyme? If so, what is the double-stranded sequence of the palindrome, and what enzyme would cut at this sequence?
CAGTATGGATCCCAT
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Textbook Question
Restriction sites are palindromic; that is, they read the same in the 5' to 3' direction on each strand of DNA. What is the advantage of having restriction sites organized this way?
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Textbook Question
List the advantages and disadvantages of using plasmids as cloning vectors. What advantages do BACs and YACs provide over plasmids as cloning vectors?
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