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Genetic ecology is the study of the stability and expression of varying genetic material within abiotic mediums. Typically, genetic data is not thought of outside of any organism save for criminal forensics. However, genetic material has the ability to be taken up by various organisms that exist within an abiotic medium through natural transformations that may occur. Thus, this field of study focuses on interaction, exchange, and expression of genetic material that may not be shared by species had they not been in the same environment.


History

E.B. Ford was the first geneticist to begin work in this field of study. E.B. Ford worked mostly during the 1950s and is most noted for his work with ''Maniola jurtina'' and published a book entitled ''Ecological Genetics'' in 1975. This type of evolutionary biological study was only possible after gel electrophoresis had been designed in 1937. Prior to this, a high throughput method for DNA analysis did not exist. This field of study began to become more popular following the 1980s with the development of polymerase chain reaction (PCR 1985) and poly-
acrylamide Acrylamide (or acrylic amide) is an organic compound with the chemical formula CH2=CHC(O)NH2. It is a white odorless solid, soluble in water and several organic solvents. From the chemistry perspective, acrylamide is a vinyl-substituted primary ...
gel electrophoresis (p. 1967). With this technology, segments of DNA could be sequenced, amplified, and proteins produced using bacterial transformations. The genetic material along with the proteins could be analyzed and more correct phylogenetic trees could be created. Since E.B. Ford's research, multiple other genetic ecologists have continued study within the field of genetic ecology such as PT Hanford Alina von Thaden, and many others.


Gene transfer

Genetic information may transfer throughout an ecosystem in multiple ways. The first of which, on the smallest scale, being bacterial gene transfer (see
bacterial transformation In molecular biology and genetics, transformation is the genetic alteration of a cell resulting from the direct uptake and incorporation of exogenous genetic material from its surroundings through the cell membrane(s). For transformation to t ...
). Bacteria have the ability to exchange DNA. This DNA exchange, or
horizontal gene transfer Horizontal gene transfer (HGT) or lateral gene transfer (LGT) is the movement of genetic material between organisms other than by the ("vertical") transmission of DNA from parent to offspring (reproduction). HGT is an important factor in the e ...
, may provide various species of bacteria with the genetic information they need to survive in an environment. This can help many bacterial species survive within an environment. A similar event has the ability to happen between plants and bacteria. For example, ''
Agrobacterium tumefaciens ''Agrobacterium tumefaciens'' (also known as ''Rhizobium radiobacter'') is the causal agent of crown gall disease (the formation of tumours) in over 140 species of eudicots. It is a rod-shaped, Gram-negative soil bacterium. Symptoms are cause ...
'' has the ability to introduce genes into plants to cause the development of Gall disease. This occurs through genetic transfer between the ''A. tumefaciens'' and between the plant in question. In fact, a similar event occurs each time viral infections occur within living organisms. The
viruses A virus is a submicroscopic infectious agent that replicates only inside the living cells of an organism. Viruses infect all life forms, from animals and plants to microorganisms, including bacteria and archaea. Viruses are found in almo ...
, whether positive or negative sense viruses, require a living organism to replicate their genes and produce more viruses. Once a virus is inside a living organism, it utilizes polymerases, ribosomes, and other biomolecules to replicate its own genetic material and to produce more virus genetic material similar to the original virus.7. Weaver, R. (2012). ''Molecular biology'' (5th ed.). New York: McGraw-Hill Thus, gene transfer may occur through many varying means. Thus, the study of this gene transfer throughout each ecosystem, whether it be through a bacterial ecosystem or through the ecosystem of an organism, genetic ecology is the study of this gene transfer and its causes.


See also

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Ecological genetics Ecological genetics is the study of genetics in natural populations. It combines ecology, evolution, and genetics to understand the processes behind adaptation. It is virtually synonymous with the field of molecular ecology. This contrasts wit ...


References

{{Branches of ecology Genetics Subfields of ecology