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Bacterial Resistance to Antibiotics: Modern Lessons from Evolutionary Theory

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Essay / Research Paper Abstract

A 4 page discussion of the practical lessons available in evolution which are applicable to our everyday lives. The author contends that evolutionary theory can have direct application in identifying solutions for a number of real world problems, one of the most concerning of which is the recent phenomena of resistance to antibiotics being noted in some species of bacteria. Bibliography lists 6 sources.

Page Count:

4 pages (~225 words per page)

File: AM2_PPbactEv.rtf

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Unformatted sample text from the term paper:

Evolution is too often viewed in the abstract, too often considered inextractible from the world of theory and conjecture. Few recognize the importance of evolutionary concepts to our everyday lives. Evolutionary theory, however, most definitely applies to our lives. Evolutionary theory can, in fact, have direct application in identifying solutions for a number of real world problems. Futuyma (1998) emphasizes this use in applications as diverse as ensuring biodiversity and conservation among species of special concern and the production of novel processes and concerns such as antibiotics or even organisms used in bioremediation for the decomposition of hazardous waste products. One example of a problem in which our understanding of evolution comes into play is the tendency we are currently observing for bacteria to develop resistance to antibiotics over time (Futuyma, 1998). Futuyma (1998) contends that the reasons for this ability are rooted in the evolutionary paths of bacterial organisms. Hillis (1999) follows up this contention with his own that the evolutionary paths of organisms can be used to predict future manifestations and characteristics. As a result of their evolutionary history, bacteria are prokaryotic organisms. This translates to mean that their cellular nuclei lack a nuclear membrane. Consequently, even though the cell as a whole is contained within the external membrane wall which is referred to as the cytoplasmic membrane, the genetic material within the cell is free to mingle with the rest of the material which composes the organism. This, coupled with the fact, that the cytoplasmic membrane is by nature selectively permeable means that this nuclear material can easily be exchanged between independent organisms. Even such traits as resistance to antibiotics can be passed ...