Genetic variability
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'''Genetic variability''' is a measure of the tendency of individuals in a [[population]] to vary from one another. Variability is different from [[genetic variation]], which is the actual amount of variation seen in a particular population.<ref name="YAL1995"> {{cite book| title=Variation and Variability| year=1995| publisher=Yale University| accessdate=2007-05-24| url=http://www.cbc.yale.edu/old/cce/papers/ALife/node2.html}} </ref> The variability of a trait describes how much that trait tends to vary in response to changes in the genetics of a population.<ref name="YAL1995"/> Genetic variability in a population is very important, because without variability, it becomes difficult for a population to adapt to environmental changes, creating a static population. Variability is an important factor in [[evolution]] since it provides the potential for genetic variation, the raw material for [[natural selection]].
==Causes of Variability==
There are many sources of genetic variability in a population:<br />
*Genetic [[recombination]] is one source of variability; during [[meiosis]] in sexual creatures two [[homologous]] [[chromosomes]] from the male and the female cross over one another and exchange gene sequences. The chromosomes then split apart and are ready to form an offspring. The cross-over is random and is governed by its own set of genes that code for where crossovers can occur (in cis) and for the mechanism behind the exchange of [[DNA]] chunks (in trans). Being controlled by genes means that recombination is also variable in frequency, location, thus it can be selected to increase [[Fitness (biology)|fitness]] by nature, because the more recombination the more variability and the more variability the easier it is for the population to handle changes.<ref> {{cite journal| author=Burt, Austin| title=Perspective: Sex, Recombination, and the Efficacy of Selection—Was Weismann Right?| journal=Evolution: International Journal of Organic Evolution| issue=54.2 |year=2000| pages=337–351}} </ref>
*[[Immigration]], [[emigration]], and [[translocation]] – each of these is the movement of an individual into or out of a population. When an individual comes from a previously genetically isolated population into a new one it will increase the genetic variability of the next generation if it reproduces.<ref name="EHR2005"> {{cite journal| author=Ehrich, Dorothy and Per Erik Jorde| title=High Genetic Variability Despite High-Amplitude Population Cycles in Lemmings| journal=Journal of Mammalogy| issue=86.2| year=2005| pages=380–385| doi=10.1644/BER-126.1| volume=86}} </ref>
*[[Polyploidy]] – having more than two homologous chromosomes allows for even more recombination during meiosis allowing for even more genetic variability in one's offspring.
*Diffuse centromeres – in [[asexual]] organisms where the offspring is an exact genetic copy of the parent, there are limited sources of genetic variability. One thing that increased variability, however, is having diffused instead of localized [[centromeres]]. Being diffused allows the [[chromatids]] to split apart in many different ways allowing for chromosome fragmentation and polyploidy creating more variability.<ref name="LIN2003"> {{cite journal| author=Linhart, Yan and Janet Gehring| title=Genetic Variability and its Ecological Implications in the Clonal Plant Carex scopulurum Holm. In Colorado Tundra| journal=Arctic, Antarctic and Alpine Research| issue=35.4 |year=2003| pages=429–433| doi=10.1657/1523-0430(2003)035[0429:GVAIEI]2.0.CO;2| volume=35}} </ref>
*Genetic [[mutations]] – mutations are accidental mistakes made in [[transcription]], [[translation]], and all the other processes that DNA and [[RNA]] are put through before the creation of a protein. They can be positive, negative, or neutral in regards to fitness, and because they are random they contribute to the genetic variability within a population.<ref name="WIL1980"> {{cite book| author=Wills, Christopher| title=Genetic Variability| publisher=NewYork: Oxford University Press| year=1980}} </ref> This variability can be easily propagated throughout a population by [[natural selection]] if the mutation increases the affected individual's fitness and its effects will be minimized/hidden if the mutation is [[deleterious]]. However, the smaller a population and its genetic variability are, the more likely the recessive/hidden deleterious mutations will show up causing genetic drift.<ref name="WIL1980"/>
==References==
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[[Category:Population genetics]]
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