Multiple Choice
True or False:Bacteria and viruses can use RNA as their genetic material.
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7. DNA and Chromosome Structure
Bacterial and Viral Chromosome Structure
1:54 minutesProblem 3
Textbook Question
Contrast the size of the single chromosome in bacteriophage and T2 with that of E. coli. How does this relate to the relative size and complexity of phages and bacteria?
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Understand the context: Bacteriophages, such as T2, are viruses that infect bacteria. They have a much simpler structure and smaller genome compared to bacteria like E. coli, which are single-celled organisms with a more complex structure and larger genome.
Compare genome sizes: The genome of bacteriophage T2 is composed of double-stranded DNA and is significantly smaller than the genome of E. coli. For example, T2 has approximately 170 kilobase pairs (kbp) of DNA, while E. coli has about 4.6 million base pairs (Mbp) of DNA. This reflects the simpler biological functions of phages compared to bacteria.
Relate genome size to complexity: The smaller genome of T2 means it encodes fewer genes, which are primarily focused on infecting the host and replicating its DNA. In contrast, E. coli's larger genome encodes a wide variety of genes necessary for its independent survival, metabolism, and reproduction.
Consider structural differences: The size of the chromosome also correlates with the physical size of the organism. Bacteriophages are much smaller than bacteria, as they do not need the cellular machinery that bacteria require for independent life. This is another reason for the smaller genome size in phages.
Summarize the relationship: The smaller chromosome size in bacteriophage T2 compared to E. coli reflects the reduced complexity and dependency of phages on their host for survival and reproduction, whereas E. coli, as a free-living organism, requires a larger genome to support its independent life processes.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Chromosome Structure in Bacteriophages and E. coli
Bacteriophages, such as T2, typically possess a single, linear or circular chromosome that is much smaller than the chromosomal DNA found in E. coli. E. coli has a single, circular chromosome that is approximately 4.6 million base pairs long, while T2's genome is about 170,000 base pairs. This difference in chromosome size reflects the simpler genetic requirements of phages compared to bacteria.
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Genetic Complexity and Function
The genetic complexity of an organism is often related to its size and the number of genes it possesses. Bacteriophages, being simpler entities, have fewer genes that primarily encode proteins necessary for infection and replication within a host. In contrast, E. coli has a more complex genome that encodes a wider array of proteins for various cellular functions, reflecting its status as a living organism capable of independent metabolism.
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Relationship Between Size and Biological Function
The size of an organism's genome often correlates with its biological functions and lifestyle. Bacteriophages, which rely on host cells for replication, have streamlined genomes that focus on essential functions for infection. E. coli, as a free-living bacterium, requires a larger genome to support diverse metabolic pathways and cellular processes, illustrating how size and complexity are adapted to their respective life strategies.
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