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{{Genetics sidebar}}
'''Quantitative genetics''' is the study of the inheritance of continuously measured traits (such as height or weight) and their mechanisms. It can be an extension of simple [[Mendelian inheritance]] in that the combined effects of one or more [[gene]]s and the environments in which they are expressed give rise to [[Continuous probability distribution|continuous distributions]] of [[phenotypic]] values.


== Introduction ==
usted necesita un moldeador de pelo ghd. Su versatilidad y calidad son el mejor, y usted se sorprenderá de lo saludable y hermoso se ve el pelo. Echa un vistazo a Straightenershop para su gama completa de. Ya sea que usted está buscando una plancha para el pelo corto o largo, Para mucho mejor cuidado para el bienestar, cultivan sus verduras-y plancha de pelo ghd naturales personal un par de ollas es todo lo que necesita. Tienda Profesional suministra todo tipo de fragmento con servicio elivery Speedy, Get Pago y Gran Satisfacción del cliente.
Quantitative genetics is that branch of [[population genetics]] which deals with phenotypes which vary continuously, and are best dealt with using [[Statistics]] (Biometrics). The phenotypes and underlying genotypes are summarised by measures of central tendency (''e.g.'' the [[mean]]) and variability (''e.g.'' the [[variance]]). Unlike other foci of Population Genetics, the phenotypes are not readily classifiable into "classes", of which a census may be ascertained. Some attributes may be analysable either way, depending upon the metric used to quantify them. Mendel himself had to discuss this matter in his famous paper, especially with respect to his attribute "length of stem".<ref>{{cite journal
| last = Mendel
| first = Gregor
| title = ''transl'' Experiments in plant hybridization
| year = 1865
| journal = Verhandlungen naturforschender Verain
| volume = iv }}</ref> Quantitative genetic analyses are heavily dependant on appropriate population Mating Systems, allowing zygotic frequencies to be specified appropriately from the gametic frequencies giving rise to them. Consequently, it can analyse phenotypic results arising from many situations, such as small mating-groups, gene-"islands", genetic drift, and inbreeding. It can analyse and "explain" heredity in its passage through both space (populations) and time (generations). It allows an understanding of methods used in plant and animal breeding, and of micro-evolution (''e.g.'' [[natural selection]]).


== History ==
Factores para la compra de Salud de las mascotas Seguros [http://tinyurl.com/ntsklkt ghd plancha] de pelo de su gato Los gatos son criaturas graciosas. Un minuto que quieren ser acariciados y acarició, lo siguiente straighener ghd que puede estar tomando un golpe fuerte en la mano y actuando como que son de la comunidad cantidad enemigo uno. Algunas personas aman el enigma de los gatos domésticos, junto con otras personas que ellos detestan. Usted puede encontrar muchas tiendas en línea la venta de estos modelos con las tasas de descuento que el valor de mercado.
The field was founded by the originators of the [[Modern evolutionary synthesis|modern synthesis]], [[Ronald Fisher|R.A. Fisher]], [[Sewall Wright]] and [[J. B. S. Haldane]], and aimed to predict the response to selection given data on the [[phenotype]] and relationships of individuals.


Analysis of [[Quantitative Trait Locus|Quantitative Trait Loci]], or QTL, is a more recent addition to the study of quantitative genetics. A QTL is a region in the genome that affects the trait or traits of interest. Quantitative trait loci approaches require accurate phenotypic, pedigree, and genotypic data from a large number of individuals.
La compra de lo que realmente se puede ventajosamente con sus increíbles características y accesorios o caso gratis. Bueno, si usted está pensando en el regalo de este increíble juego de plancha de pelo a alguno de sus seres cercanos o queridos en esta Navidad entonces tengo una sugerencia sorprendente para usted. es por lo general para obtener una idea de cómo un cliente podría responder a diversos métodos de terapia. En segundo lugar, es siempre para producir un diagnóstico diferencial entre tartamudeo del desarrollo neurológico o psicológico.


== Basic principles ==
Allí podrá obtener el valor completo de sus dólares de los alisadores de pelo ghd atractivo. o quieres amar la versatilidad y el estado de las opciones de arte de ghd alisadores naturales de belleza y productos para el tratamiento del cabello? Echa un vistazo a nuestro sitio web hoy en día para que pueda elegir confiable y grado del salón hairstraightener ghd lo cual puede pasar rápidamente a través de nuestro catálogo on-line. http:www. Sin embargo, las personas que tienen los dientes manchados de color marrón o amarillo son realmente conscientes de esta carencia.
The phenotypic value (P) of an [[individual]] is the combined effect of the genotypic value (G) and the environmental deviation (E):
:P = G + E
The genotypic value is the combined effect of all the genetic effects, including [[nuclear gene]]s, [[Mitochondrion|mitochondrial]] genes, and interactions between the genes. It is worthwhile to note that the mathematics ''is'' related to the genetics: for which the brief following overview may be useful. In diploid organisms, a nucleus gene is represented twice in the genotype, one provided by each parent during sexual reproduction. Each gene is located at a particular place (a locus) on homologous chromosomes, one from each parent. Functional forms are called alleles. If both alleles at a gene have the same phenotypic effect, the gene is homozygous: if each allele at a gene is different, the gene is heterozygous. The average phenotypic outcome may be affected by dominance and by how genes interact with genes at other loci ("epistasis"). The founder of quantitative genetics - Sir Ronald Fisher - perceived all of this when he proposed the first mathematics of this branch of genetics.<ref>{{cite book
| last = Fisher
| first=  R.A.
| title = The Genetic theory of natural selection.
| publisher = [[Oxford Clarendon Press]]
| year = 1930 (facsimile 1999)
| isbn = 0-19-850440-3}}</ref>
He sought to define a single statistical summary of all the variance arising from phenotypic change during the course of genetic assortment and segregation, which he called "genetic" variance. His residual genotypic variance (called simply "residual" by Fisher) represented assortment which did not lead to phenotypic change. Subsequently, these partitions became known respectively as the "additive"(σ²A) and "dominance" (σ²D) variances, which titles do not appear to convey Fisher's partitions. However, the assortment/substitution partition of Fisher can be viewed as the average effects of genes after inheritance from parents (remember they pass through meiosis and fertilisation to be inherited - the very mechanisms effecting assortment/substitution).<ref>{{cite book
| last = Falconer
| first = ''et al''
| title = Introduction to quantitative genetics
| publisher = [[Longman]]
| year = 1996
| isbn = 0582-24302-5 }}</ref> So, "additive" actually means "average inherited effect", and is equivalent to Fisher's assortative disequilibrium. Recently it has been shown to contain the homozygote variance, a portion of the heterozygote variance, and a covariance between homozygote and heterozygote effects.<ref>{{cite journal
| last = Gordon
| first = I.L.
| title = Refinements to the partitioning of the inbred genotypic variance
| year = 2003
| journal = Heredity
| volume = 91
| pages = 85–89
| doi = 10.1038/sj.hdy.6800284
| pmid = 12815457
| issue = 1 }}</ref>
Falconer and Mackay next show that Fisher's "residual" (depicted in their Fig.7.2, p.&nbsp;117) is due to heterozygosis, ''ie'' "dominance"; but not all of it, as some is embedded in the "additive" component, as we noted earlier.


This is not the only approach to defining and partitioning genotypic variances. An alternative was advanced by Mather and Jinks.<ref>{{cite book
Bien puede también causar la inseguridad social. Entre las mejores estrategias de terapia disponibles para la adquisición de nuevo que el blanco sonrisa perfecta es el blanqueamiento dental. podría ser la actitud normal en la indicación inicial de este tipo de dolencias (como la fiebre y la tos). Sin embargo, hay una alternativa para curar estas enfermedades y que es, sin duda a causa del ayuno en la longitud conveniente de tres veces.
| last = Mather
| first = ''et al''
| title = Biometrical genetics
| publisher = [[Chapman and Hall]]
| year = 1971
| isbn = 0-412-10220-X }}</ref>
Their notation was entirely different to that of Fisher, and his method predominates. However, when their approach is translated into Fisher's notation, the relationships between the two approaches are clear. The Mather and Jinks approach is more "genetical" than Fisher's, being based on variances arising straightforwardly from homozygotes and heterozygotes. The inter-conversion between the Fisher and Mather & Jinks methods are given in Gordon (2003).


The mating-system assumed in deriving these genotypic variances is '''panmixia''' : which implies random fertilisation with uniform distribution of gametes in a very large population (theoretically, ''infinity''). This rarely occurs in nature, as gamete distribution may be limited, for example by dispersal restrictions, or preferential matings, or chance sampling in small populations of gametes (gamodemes). Each gamete restriction leads to a descendant small-population (line). Individuals within a line will not all be the same, but they will be more similar than individuals from panmictic populations. In any source breeding group, many separate gamete restrictions will occur during a mating cycle, each one leading to a line. These lines also will vary with respect to their mean phenotypess, and the process is called '''dispersion'''. The '''inbreeding coefficient''' quantifies the increase in homozygosity which results. The values of this coefficient for a wide variety of situations (e.g. islands, "onion-skin" aggregates, linear strips, matings of related parents) are available.<ref>{{cite journal
Como remedio para los resfriados y la tos, Eso es. Estoy empezando a divagar sobre nada ya tiempo para volver a la pista. Ghd tomó originalmente la industria de la peluquería por la tormenta poco después del inicio del nuevo milenio, el styler ghd fue un éxito de noche con las dos peluqueros y clientes del salón. De cualquier manera, ellos pueden poner un freno a cualquier viaje en moto de nieve, si no se toman correctamente cuidado al recibir capturado.
| last = Wright
| first = Sewall
| title = The genetical structure of populations
| journal = Annals of Eugenics
| year = 1951
| volume = 15
| pages = 323–354
| doi = 10.1111/j.1469-1809.1949.tb02451.x }}</ref> As well as a general rise in homozygosity, the dispersed lines  vary in their allele frequencies because of '''gamete sampling'''. However, the mean of the frequencies across all lines from the one source will be the same as the original frequencies in the source population. The '''phenotypic mean''' of all of these lines is less than that of the original source, this being '''inbreeding depression'''. The '''genetic variances''' also change relative to those of panmixia. Variance-within-lines decreases, but the variance-amongst-lines and the total-variance-in-the-system both increase (Mackay et al.; Gordon 2003). The first of these facts is common knowledge, but the latter two are not. Many of these lines will be inferior in phenotype: but, some lines will be superior, and some will be about average (Chapter 13 in Falconer et al.). Selection assisted by dispersion leads to maximum '''genetic advance''' (see previous references). Plant and animal breeders utilise these properties routinely, and have devised breeding methods especially to do so (e.g. line breeding, pure-line breeding, backcrossing).<ref>{{cite book
| last = Allard
| first = R.W.
| title = Principles of plant breeding
| year = 1960
| publisher = [[John Wiley & Sons|Wiley]]
| isbn = none }}</ref> The role of dispersion in natural selection has not received much attention.


The Environmental variance is much more straightforward. This can be subdivided into a pure environmental component (E) and an interaction component (I) describing the gene-environment interaction. The overall "single gene" model can be written as:
  Como ser un simple medida de seguridad, un buen número de especialistas animan motos de nieve a menudo viajan con un mínimo de una persona más.
:P = a + d + E + I.
Expansion of the model to multiple genes (loci) is still not resolved satisfactorily, and until that is solved it is not possible to account for epistasis. The problem is being tackled currently.
The contribution of those components cannot be determined in a single individual, but they can be estimated for whole populations by estimating the [[variance]]s for those components, denoted as:
:V<sub>P</sub> = V<sub>a</sub> + V<sub>d</sub> + V<sub>E</sub> + V<sub>I</sub>
The [[heritability]] of a trait is the proportion of the total (i.e. phenotypic) variance (V<sub>P</sub>) that is explained by the total genotypic variance (V<sub>G</sub>). This is known also as the "broad sense" heritability (H<sup>2</sup>). If only Additive genetic variance (V<sub>A</sub>) is used in the numerator, the heritability is "narrow sense" (h<sup>2</sup>). The broadsense heritability indicates the genotypic determination of the phenotype: while the latter estimates the degree of assortative disequlibrium in the trait. Fisher proposed that this narrow-sense heritability might be appropriate in considering the results of natural selection, focusing as it does on disequilibrium: and it has been used also for predicting the results of selection.
 
=== Resemblance between relatives ===
Central in estimating the variances for the various components is the principle of relatedness. A child has a father and a mother. Consequently, the child and father share 50% of their alleles, as do the child and the mother. However, the mother and father normally do not share alleles as a result of shared ancestors. Similarly, two full siblings share also on average 50% of the alleles with each other, while half siblings share only 25% of their alleles. This variation in relatedness can be used to estimate which proportion of the total phenotypic variance (V<sub>P</sub>) is explained by the above-mentioned components.
 
The principle of relationship (R) is central to understanding the resemblances within families and can be useful when calculating inbreeding. Relationship has two definitions that can be applied:
-The probable portion of genes that are the same for two individuals due to common ancestry exceeding that of the base population
-Additive/numerator relationship: the relationship coefficient (Rxy¬) = twice the probability of two genes at loci in different individuals being identical by descent. Rxy values can range from 0 to 2.
Relationship can be calculated in several ways; from the known relationships of the individual, from bracket pedigrees, and from pedigree path diagrams.
 
==== Calculating relationship from known relationships ====
{| class="wikitable"
|-
! Relationship !! Relationship Coefficient
|-
| Individual and itself || 1.00
|-
| Individual and a monozygotic twin || 1.00
|-
| Individual and parent || 0.50
|-
| Full siblings || 0.50
|-
| Half siblings || 0.25
|-
| Individual and grandparent || 0.25
|-
| Son of sire and granddaughter of sire || 0.125
|-
| Grandson and granddaughter of sire || 0.0625
|}
*Note: if the common ancestor is inbred, multiply the relationship by (1+inbreeding coefficient)
 
==== Calculating relationship from pathway diagrams ====
 
RXY = Σ(.5)n(1+FCA)
 
n = number of segregations between X and Y through their common ancestor
FCA = the inbreeding coefficient of the common ancestor
 
Example: calculating '''R'''AE and '''R'''BE
Note: valid pathways only go through ancestors (only go against the direction of the arrow). For example, to calculate the relationship of A and B, the pathway A-D-B would be acceptable, whereas the pathway A-X-B would be not. The reason behind this is that having progeny together does not make two individuals related.
 
RAB: there are two possible pathways from A to E.
A-D-F-E = (1/2)3 = .125
A-D-E = (1/2)2 = .25
Total: .375
 
RBE: there are four possible pathways from B to E.
B-D-E = (1/2)2 = .25
B-D-F-E = (1/2)3 = .125
B-C-D-E = (1/2)3 = .125
B-C-D-F-E = (1/2)4 = .0625
Total: .5625
 
=== Heritability and repeatability ===
Heritability in the broad sense (H^2) measures the total genetic influence on phenotype. It takes into account additive genetics, dominance, and epistatic genetic effects. The more specific measure of heritability (h^2) is generally more useful in production because only additive effects are passed from one generation to the next, and h^2 represents the average proportion of differences due to additive genetics. The square root of h^2 equals the correlation between additive genotype and expressed phenotype. Low heritability leads to higher environmental influence, while high heritability can lead to more rapid genetic progress. Typically, heritability of reproductive traits is low, disease resistance and production are moderately low to moderate, and conformation is high.
 
Heritability can be calculated by taking the variance of additive genetics and dividing it by the variance of the phenotype.
 
h^2 = σ^2a/σ^2p
 
σ^2p is the sum of the variances of additive genetics, dominance, epistasis, and environmental effects, and can also be written as σ^2g.
 
Repeatability (r) is the average proportion of differences likely to be repeated in later records. This value can only be determined for traits that manifest multiple times in an animal’s lifetime, such as adult body mass, metabolic rate or litter size.  Birth mass would not have a repeatability value. Generally, but not always, repeatability indicates the upper level of the heritability. Repeatability is calculated by taking the sum of genetic variance (σ^2g) and permanent environment variance, and dividing by the phenotypic variance.
 
r = (σ^2g + σ^2pe)/σ^2p
 
The above concept of repeatability is problematic for traits that necessarily change greatly between measurements. For example, [[body size]] increases greatly in most organisms between [[birth]] and adult-hood. Nonetheless, at a given age (or [[Biological life cycle|lifecycle]] stage), the relative size of individuals within a [[population]] could still be relatively consistent from time-to-time.  For such traits, more complicated calculations can be used or pairs of measures can be compared with a [[Pearson product-moment correlation coefficient]].
 
=== Correlated traits ===
Although some genes have only an effect on a single trait, many genes have an effect on various traits, which is termed [[pleiotropy]]. Because of this, a change in a single gene will have an effect on all those traits. This is calculated using [[covariance]]s, and the phenotypic covariance (Cov<sub>P</sub>) between two traits can be partitioned in the same way as the variances described above. The [[genetic correlation]] is calculated by dividing the covariance between the additive genetic effects of two traits by the square root of the product of the variances for the additive genetic effects of the two traits:
:<math>\mbox{Genetic correlation} = \frac{\mathrm{Cov}(A_{1}, A_{2})}{\sqrt{{V_{A_1}*V_{A_2}}}}</math>
 
<!-- Various omitted pieces:
is the effect of the genes, the environment and interaction between genes and genes ([[gene interaction]], [[epistasis]]), and between genes and the environment ([[genotype-by-environment interaction]], [[reaction norm]], [[phenotypic plasticity]]). -->
 
== See also ==
* [[Diallel cross]]
* [[Ewens's sampling formula]]
* [[Experimental evolution]]
* [[Genetic distance]]
 
== References ==
 
{{reflist}}
*Allard R.W. (1951). Principles of Plant Breeding. Wiley, New York. {a classic}
*Dohm, M.R. (2002). Repeatability estimates do not always set an upper limit to [[heritability]]. Functional Ecology 16: 273-280.
*[[Douglas Scott Falconer|Falconer, D. S.]] & Mackay TFC (1996). Introduction to Quantitative Genetics. Fourth edition. Addison Wesley Longman, Harlow, Essex, UK.
*Fisher R.A. (1930). The Genetical Theory of Natural Selection. Clarendon Press, Oxford, UK.
*Gordon I.L. (2003). Refinements to the partitioning of the inbred genotypic variance. Heredity 91: 85-89.
*Lynch M & Walsh B (1998). Genetics and Analysis of Quantitative Traits. Sinauer, Sunderland, MA.
*Mather K. & Jinks J.L. (1971). Biometrical Genetics. Chapman & Hall, London.
*Roff DA (1997). Evolutionary Quantitative Genetics. Chapman & Hall, New York.
*Seykora, Tony. Animal Science 3221 Animal Breeding. Tech. Minneapolis: University of Minnesota, 2011. Print.
*Wright S. (1951). The genetical structure of populations. Annals of Eugenics 15: 323-354.
 
==External links==
*[http://nitro.biosci.arizona.edu/zbook/book.html Quantitative Genetics Resources] by [[Michael Lynch (geneticist)|Michael Lynch]] and [[Bruce Walsh (geneticist)|Bruce Walsh]], including the two volumes of their textbook, '' Genetics and Analysis of Quantitative Traits'' and ''Evolution and Selection of Quantitative Traits''.
*[http://www.evolution-textbook.org/content/free/figures/ch14.html Resources by] [[Nick Barton]] et al. from the textbook, ''Evolution''.
 
{{qg}}
{{genetics-footer}}
 
[[Category:Genetics]]

Latest revision as of 18:29, 4 January 2015


usted necesita un moldeador de pelo ghd. Su versatilidad y calidad son el mejor, y usted se sorprenderá de lo saludable y hermoso se ve el pelo. Echa un vistazo a Straightenershop para su gama completa de. Ya sea que usted está buscando una plancha para el pelo corto o largo, Para mucho mejor cuidado para el bienestar, cultivan sus verduras-y plancha de pelo ghd naturales personal un par de ollas es todo lo que necesita. Tienda Profesional suministra todo tipo de fragmento con servicio elivery Speedy, Get Pago y Gran Satisfacción del cliente.

Factores para la compra de Salud de las mascotas Seguros ghd plancha de pelo de su gato Los gatos son criaturas graciosas. Un minuto que quieren ser acariciados y acarició, lo siguiente straighener ghd que puede estar tomando un golpe fuerte en la mano y actuando como que son de la comunidad cantidad enemigo uno. Algunas personas aman el enigma de los gatos domésticos, junto con otras personas que ellos detestan. Usted puede encontrar muchas tiendas en línea la venta de estos modelos con las tasas de descuento que el valor de mercado.
La compra de lo que realmente se puede ventajosamente con sus increíbles características y accesorios o caso gratis. Bueno, si usted está pensando en el regalo de este increíble juego de plancha de pelo a alguno de sus seres cercanos o queridos en esta Navidad entonces tengo una sugerencia sorprendente para usted. es por lo general para obtener una idea de cómo un cliente podría responder a diversos métodos de terapia. En segundo lugar, es siempre para producir un diagnóstico diferencial entre tartamudeo del desarrollo neurológico o psicológico.
Allí podrá obtener el valor completo de sus dólares de los alisadores de pelo ghd atractivo. o quieres amar la versatilidad y el estado de las opciones de arte de ghd alisadores naturales de belleza y productos para el tratamiento del cabello? Echa un vistazo a nuestro sitio web hoy en día para que pueda elegir confiable y grado del salón hairstraightener ghd lo cual puede pasar rápidamente a través de nuestro catálogo on-line. http:www. Sin embargo, las personas que tienen los dientes manchados de color marrón o amarillo son realmente conscientes de esta carencia.
Bien puede también causar la inseguridad social. Entre las mejores estrategias de terapia disponibles para la adquisición de nuevo que el blanco sonrisa perfecta es el blanqueamiento dental. podría ser la actitud normal en la indicación inicial de este tipo de dolencias (como la fiebre y la tos). Sin embargo, hay una alternativa para curar estas enfermedades y que es, sin duda a causa del ayuno en la longitud conveniente de tres veces.
Como remedio para los resfriados y la tos, Eso es. Estoy empezando a divagar sobre nada ya tiempo para volver a la pista. Ghd tomó originalmente la industria de la peluquería por la tormenta poco después del inicio del nuevo milenio, el styler ghd fue un éxito de noche con las dos peluqueros y clientes del salón. De cualquier manera, ellos pueden poner un freno a cualquier viaje en moto de nieve, si no se toman correctamente cuidado al recibir capturado.
Como ser un simple medida de seguridad, un buen número de especialistas animan motos de nieve a menudo viajan con un mínimo de una persona más.