Textbook Question
Bacteria transfer genes by conjugation, transduction, and transformation. Compare and contrast these mechanisms. In your answer, identify which if any processes involve homologous recombination and which if any do not.
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Ch. 6 - Genetic Analysis and Mapping in Bacteria and Bacteriophages
Sanders3rd EditionGenetic Analysis: An Integrated ApproachISBN: 9780135564172
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Table of contents
- Ch. 1 - The Molecular Basis of Heredity, Variation, and Evolution64
- Ch. 2 - Transmission Genetics144
- Ch. 3 - Cell Division and Chromosome Heredity81
- Ch. 4 - Gene Interaction87
- Ch. 5 - Genetic Linkage and Mapping in Eukaryotes103
- Ch. 6 - Genetic Analysis and Mapping in Bacteria and Bacteriophages73
- Ch. 7 - DNA Structure and Replication71
- Ch. 8 - Molecular Biology of Transcription and RNA Processing79
- Ch. 9 - The Molecular Biology of Translation110
- Ch. 10 - Eukaryotic Chromosome Abnormalities and Molecular Organization100
- Ch. 11 - Gene Mutation, DNA Repair, and Homologous Recombination86
- Ch. 12 - Regulation of Gene Expression in Bacteria and Bacteriophage90
- Ch. 13 - Regulation of Gene Expression in Eukaryotes38
- Ch. 14 - Analysis of Gene Function via Forward Genetics and Reverse Genetics72
- Ch. 15 - Recombinant DNA Technology and Its Applications69
- Ch. 16 - Genomics: Genetics from a Whole-Genome Perspective49
- Ch. 17 - Organelle Inheritance and the Evolution of Organelle Genomes27
- Ch. 18 - Developmental Genetics43
- Ch. 19 - Genetic Analysis of Quantitative Traits66
- Ch. 20 - Population Genetics and Evolution at the Population, Species, and Molecular Levels105
Sanders3rd EditionGenetic Analysis: An Integrated ApproachISBN: 9780135564172Not the one you use?Change textbook
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Sanders 3rd EditionCh. 6 - Genetic Analysis and Mapping in Bacteria and BacteriophagesProblem 5c
Sanders 3rd EditionCh. 6 - Genetic Analysis and Mapping in Bacteria and BacteriophagesProblem 5cChapter 6, Problem 5c
Explain the importance of the following features in conjugating donor bacteria:
homologous recombination
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Homologous recombination is a process where genetic material is exchanged between two similar or identical DNA sequences. In the context of conjugating donor bacteria, this mechanism is crucial for integrating transferred genetic material into the recipient's genome.
During bacterial conjugation, the donor bacterium transfers a plasmid or a segment of DNA to the recipient bacterium. For this transferred DNA to be stably maintained and expressed, homologous recombination allows it to integrate into the recipient's chromosome at regions of sequence similarity.
Homologous recombination ensures genetic diversity by allowing the recipient bacterium to acquire new traits, such as antibiotic resistance or metabolic capabilities, which may enhance its survival in specific environments.
The process involves enzymes such as RecA, which facilitates the pairing and exchange of homologous DNA strands. This ensures that the integration is precise and does not disrupt essential genes in the recipient's genome.
In summary, homologous recombination is essential for the stable incorporation of genetic material during bacterial conjugation, promoting genetic variation and adaptation in bacterial populations.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Homologous Recombination
Homologous recombination is a genetic process where two DNA molecules exchange genetic information, typically involving sequences that are similar or identical. This mechanism is crucial for the integration of donor DNA into the recipient's genome during bacterial conjugation, allowing for genetic diversity and adaptation. It ensures that the transferred genes can be stably maintained and expressed in the new host.
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Recombination after Single Strand Breaks
Conjugation in Bacteria
Conjugation is a form of horizontal gene transfer in bacteria, where genetic material is transferred from a donor to a recipient cell through direct contact. This process often involves a pilus, a specialized structure that facilitates the transfer of plasmids or chromosomal DNA. Understanding conjugation is essential for grasping how bacteria can acquire new traits, such as antibiotic resistance.
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Genetic Diversity
Genetic diversity refers to the variety of genetic characteristics within a population, which is vital for the adaptability and survival of species. In the context of bacterial conjugation, the introduction of new genetic material through homologous recombination enhances genetic diversity, enabling bacteria to evolve rapidly in response to environmental pressures, such as the presence of antibiotics.
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Related Practice
Textbook Question
Explain the importance of the following features in conjugating donor bacteria:
the origin of transfer
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Textbook Question
Explain the importance of the following features in conjugating donor bacteria:
the conjugation pilus
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Textbook Question
Explain the importance of the following features in conjugating donor bacteria:
the relaxosome
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Textbook Question
Explain the importance of the following features in conjugating donor bacteria:
relaxase
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Textbook Question
Explain the importance of the following features in conjugating donor bacteria:
T strand DNA
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