Pleiotropy: Difference between revisions
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Revision as of 11:36, 18 February 2025
Pleiotropy refers to the phenomenon where a single gene influences multiple, seemingly unrelated phenotypic traits. The term was first coined by the British geneticist Ludwig Plate in 1910. Pleiotropy is a fundamental aspect of genetics and is critical to our understanding of how genes function and interact within the genome.
Overview
Pleiotropy occurs when a single gene impacts more than one phenotypic trait. This can happen in several ways. For instance, the gene might code for a product that is used by various cells or tissues in the body, or it might control several different reactions in the biochemical pathway.
Types of Pleiotropy
There are two main types of pleiotropy: Antagonistic Pleiotropy and Synergistic Pleiotropy.
Antagonistic Pleiotropy
Antagonistic pleiotropy refers to the situation where a gene has a positive effect on one trait and a negative effect on another. This concept is central to the Evolutionary Theory of Aging, which suggests that natural selection favors genes that enhance survival and reproduction early in life, even if those same genes have detrimental effects later in life.
Synergistic Pleiotropy
Synergistic pleiotropy, on the other hand, occurs when a gene has a positive effect on two or more traits. This can lead to an increase in the fitness of an organism, as the beneficial effects of the gene are amplified across multiple traits.
Examples of Pleiotropy
One of the most well-known examples of pleiotropy is the sickle cell gene. This gene, when present in a single copy, provides resistance to malaria. However, when present in two copies, it causes sickle cell anemia, a serious and often fatal disease.
Another example is the phenylketonuria (PKU) gene. Individuals with two copies of this gene cannot metabolize the amino acid phenylalanine, leading to a buildup of toxic substances in the body. This can result in mental retardation, seizures, and other serious health problems.
Implications of Pleiotropy
Pleiotropy has significant implications for genetic research and medicine. Understanding the pleiotropic effects of genes can help scientists develop more effective treatments for genetic diseases. It can also provide insights into the complex interactions between genes and the environment, and how these interactions influence health and disease.
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Pleiotropy
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Pleiotropy
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Albino peacock at Southwick's Zoo, Massachusetts, USA
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Phenylketonuria testing
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Red Blood Cells in Sickle Cell Disease
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Marfan syndrome patient
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Padoue frisée blanche chicken
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