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allele

 
American Heritage Dictionary:

al·lele

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(ə-lēl') pronunciation
n.
One member of a pair or series of genes that occupy a specific position on a specific chromosome.

[German Allel, short for Allelomorph, allelomorph, from EnglishALLELOMORPH .]

allelic al·le'lic (ə-lē'lĭk, ə-lĕl'ĭk) adj.
allelism al·le'lism n.

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Britannica Concise Encyclopedia:

allele

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Any one of two or more alternative forms of a gene that may occur alternatively at a given site on a chromosome. Alleles may occur in pairs, or there may be multiple alleles affecting the expression of a particular trait. If paired alleles are the same, the organism is said to be homozygous for that trait; if they are different, the organism is heterozygous. A dominant allele will override the traits of a recessive allele in a heterozygous pairing (see dominance and recessiveness). In some traits, alleles may be codominant (i.e., neither acts as dominant or recessive). An individual cannot possess more than two alleles for a given trait. All genetic traits are the result of the interactions of alleles.

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McGraw-Hill Science & Technology Encyclopedia:

Allele

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Any of a number of alternative forms of a gene. Allele is a contraction of allelomorph, a term used to designate one of the alternative forms of a unit showing mendelian segregation. New alleles arise from existing ones by mutation. The diversity of alleles produced in this way is the basis for hereditary variation and evolution. The different alleles of a given gene determine the degree to which the specific hereditary characteristic controlled by that gene is manifested. The particular allele which causes that characteristic to be expressed in a normal fashion is often referred to as the wild-type allele. Mutations of the wild-type allele result in mutant alleles, whose functioning in the development of the organism is generally impaired relative to that of the wild-type allele. See also Deoxyribonucleic acid (DNA); Gene; Gene action; Genetic code; Mendelism; Mutation.

An allele occupies a fixed position or locus in the chromosome. In the body cells of most higher organisms, including humans, there are two chromosomes of each kind and hence two alleles of each kind of gene, except for the sex chromosomes. Such organisms and their somatic cells are said to carry a diploid complement of alleles. A diploid individual is homozygous if the same allele is present twice, or heterozygous if two different alleles are present. Let A and a represent a pair of alleles of a given gene; then A/A and a/a are the genetic constitutions or genotypes of the two possible homozygotes, while A/a is the genotype of the heterozygote. Usually the appearance or phenotype of the A/a individuals resembles that of the A/A type; A is then said to be the dominant allele and a the recessive allele. In the case of the sex chromosomes, one sex (usually the male in most higher animals, with the exception of birds) has only one X chromosome, and the Y lacks almost all of the genes in X. The male thus carries only one dose of X-linked genes and is said to be hemizygous for alleles carried on his X chromosome. As a result, if a male inherits a recessive mutant allele such as color blindness on his X chromosome, he expresses color blindness because he lacks the wild-type allele on his Y chromosome. See also Chromosome; Sex-linked inheritance.

In a population of diploid individuals, it is possible to have more than two alleles of a given gene. The aggregate of such alleles is called a multiple allelic series. Since genes are linear sequences of hundreds or even thousands of nucleotide base pairs, the potential number of alleles of a given gene which can arise by base substitution alone is enormous.

Oxford Dictionary of Philosophy:

allele

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(contraction of Greek allelomorph, of another form) Two or more genes that can occur as alternatives, and code for different versions of the same heritable characteristic (e.g. different eye colour). Sometimes the alternative characteristics themselves are referred to as alleles.

Oxford Dictionary of Sports Science & Medicine:

allele

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allelomorph

One of two or more different forms of the same gene, only one of which is carried on a single chromosome.

Biology Q&A:

What is an allele?

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An allele is an alternative form of a gene; there are usually two alleles for each gene, although the number may vary from one trait to another. Each individual inherits one allele from the mother and one from the father. Alleles for a trait are located on corresponding loci on each homologous chromosome.

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Dictionary of Cultural Literacy: Science:

allele

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(ul-leel)

The sequence of nucleotides on a DNA molecule that constitutes the form of a gene at a specific spot or a chromosome. There can be several variations of this sequence, and each of these is called an allele. In the case of the gene for eye color, for example, one allele codes for blue eyes, whereas the other may code for brown eyes.

Oxford Dictionary of Biochemistry:

allele

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or allelomorph

any of the forms of the same gene that occur at the same locus on a homologous chromosome but differ in base sequence. Two or more alleles are said to be allelic or allelomorphic to each other, and if more than two alleles exist in a population, the locus is said to show multiple allelism.

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Saunders Veterinary Dictionary:

allele

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One of two or more alternative forms of a gene at the same site or locus in each of a pair of chromosomes, which determine alternative characters in inheritance. Called also allelomorph.

  • blank a. — an allele which produces an antigen which cannot be detected.
  • null a. — see silent allele (below).
  • silent a. — one that produces no detectable effect.
Mosby's Dental Dictionary:

allele

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(əlēl′)
n

(allelomorph), one or more genes occupying the same location in a chromosome but differing because of a mutational change of one.

Random House Word Menu:

categories related to 'allele'

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Wikipedia on Answers.com:

Allele

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This article is about the forms of a gene. For a non-technical introduction to the topic, see Introduction to genetics. For the alternative metal band, see Allele (band).

An allele (UK play /ˈæll/ or US /əˈll/) is one of two or more forms of a gene or a genetic locus (generally a group of genes).[1][2] The form "allel" is also used, an abbreviation of allelomorph. Sometimes, different alleles can result in different observable phenotypic traits, such as different pigmentation. However, many variations at the genetic level result in little or no observable variation.

Most multicellular organisms have two sets of chromosomes, that is, they are diploid. These chromosomes are referred to as homologous chromosomes. Diploid organisms have one copy of each gene (and therefore one allele) on each chromosome. If both alleles are the same, they are homozygotes. If the alleles are different, they are heterozygotes.

A population or species of organisms typically includes multiple alleles at each locus among various individuals. Allelic variation at a locus is measurable as the number of alleles (polymorphism) present, or the proportion of heterozygotes in the population.

For example, at the gene locus for the ABO blood type carbohydrate antigens in humans,[3] classical genetics recognizes three alleles, IA, IB, and IO, that determine compatibility of blood transfusions. Any individual has one of six possible genotypes (AA, AO, BB, BO, AB, and OO) that produce one of four possible phenotypes: "A" (produced by AA homozygous and AO heterozygous genotypes), "B" (produced by BB homozygous and BO heterozygous genotypes), "AB" heterozygotes, and "O" homozygotes. It is now known that each of the A, B, and O alleles is actually a class of multiple alleles with different DNA sequences that produce proteins with identical properties: more than 70 alleles are known at the ABO locus.[4] An individual with "Type A" blood may be an AO heterozygote, an AA homozygote, or an A'A heterozygote with two different 'A' alleles.

The word "allele" is a short form of allelomorph ('other form'), which was used in the early days of genetics to describe variant forms of a gene detected as different phenotypes. It derives from the Greek root ἄλλος, and alius (latin) meaning "other" ; then the word αλληλους, allelos, meaning "each other".

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Dominant and recessive alleles

In many cases, genotypic interactions between the two alleles at a locus can be described as dominant or recessive, according to which of the two homozygous genotypes the phenotype of the heterozygote most resembles. Where the heterozygote is indistinguishable from one of the homozygotes, the allele involved is said to be dominant to the other, which is said to be recessive to the former.[5] The degree and pattern of dominance varies among loci. For a further discussion see Dominance (genetics). This type of interaction was first formally described by Gregor Mendel. However, many traits defy this simple categorisation and the phenotypes are modeled by polygenic inheritance.

The term "wild type" allele is sometimes used to describe an allele that is thought to contribute to the typical phenotypic character as seen in "wild" populations of organisms, such as fruit flies (Drosophila melanogaster). Such a "wild type" allele was historically regarded as dominant, common, and "normal", in contrast to "mutant" alleles regarded as recessive, rare, and frequently deleterious. It was commonly thought that most individuals were homozygous for the "wild type" allele at most gene loci, and that any alternative 'mutant' allele was found in homozygous form in a small minority of "affected" individuals, often as genetic diseases, and more frequently in heterozygous form in "carriers" for the mutant allele. It is now appreciated that most or all gene loci are highly polymorphic, with multiple alleles, whose frequencies vary from population to population, and that a great deal of genetic variation is hidden in the form of alleles that do not produce obvious phenotypic differences.

Allele and genotype frequencies

The frequency of alleles in a population can be used to predict the frequencies of the corresponding genotypes (see Hardy-Weinberg principle). For a simple model, with two alleles:

p + q=1 \,
p^2 + 2pq + q^2=1 \,

where p is the frequency of one allele and q is the frequency of the alternative allele, which necessarily sum to unity. Then, p2 is the fraction of the population homozygous for the first allele, 2pq is the fraction of heterozygotes, and q2 is the fraction homozygous for the alternative allele. If the first allele is dominant to the second, then the fraction of the population that will show the dominant phenotype is p2 + 2pq, and the fraction with the recessive phenotype is q2.

With three alleles:

p + q + r = 1 \, and
p^2 + 2pq + 2pr + q^2 + 2qr + r^2 = 1 \,

In the case of multiple alleles at a diploid locus, the number of possible genotypes (G) with a number of alleles (a) is given by the expression:

G= \frac{a(a+1)}{2}

Allelic variation in genetic disorders

A number of genetic disorders are caused when an individual inherits two recessive alleles for a single-gene trait. Recessive genetic disorders include Albinism, Cystic Fibrosis, Galactosemia, Phenylketonuria (PKU), and Tay-Sachs Disease. Other disorders are also due to recessive alleles, but because the gene locus is located on the X chromosome, so that males have only one copy (that is, they are hemizygous), they are more frequent in males than in females. Examples include red-green color blindness and Fragile X syndrome.

Other disorders, such as Huntington disease, occur when an individual inherits only one dominant allele.

See also

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References and notes

  1. ^ Feero WG, Guttmacher AE, Collins FS (May 2010). "Genomic medicine--an updated primer". N. Engl. J. Med. 362 (21): 2001–11. doi:10.1056/NEJMra0907175. PMID 20505179. 
  2. ^ Malats N, Calafell F (July 2003). "Basic glossary on genetic epidemiology". Journal of Epidemiology and Community Health 57 (7): 480–2. doi:10.1136/jech.57.7.480. PMC 1732526. PMID 12821687. Archived from the original on 2010-11-16. http://jech.bmj.com/cgi/pmidlookup?view=long&pmid=12821687. 
  3. ^ Victor A. McKusick, Cassandra L. Kniffin, Paul J. Converse and Ada Hamosh (10 November 2009). "ABO Glycosyltransferase; ABO". Online Mendelian Inheritance in Man. National Library of Medicine. Archived from the original on 2010-11-16. http://www.ncbi.nlm.nih.gov/entrez/dispomim.cgi?id=110300. Retrieved 24 March 2010. 
  4. ^ Yip SP (January 2002). "Sequence variation at the human ABO locus". Annals of Human Genetics 66 (1): 1–27. doi:10.1017/S0003480001008995. PMID 12014997. 
  5. ^ Hartl, Daniel L.; Elizabeth W. Jones (2005). Essential genetics: A genomics perspective (4th ed.). Jones & Bartlett Publishers. p. 600. ISBN 978-0-7637-3527-2. 
  • National Geographic Society, Alton Biggs, Lucy Daniel, Edward Ortleb, Peter Rillero, Dinah Zike. "Life Science". New York, Ohio, California, Illinois: Glencoe McGraw-Hill. 2002

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American Heritage Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2009. Published by Houghton Mifflin Company. All rights reserved.  Read more
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Oxford Dictionary of Philosophy. The Oxford Dictionary of Philosophy. Copyright © 1994, 1996, 2005 by Oxford University Press. All rights reserved.  Read more
Oxford Dictionary of Sports Science & Medicine. The Oxford Dictionary of Sports Science & Medicine. Copyright © Michael Kent 1998, 2006, 2007. All rights reserved.  Read more
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Dictionary of Cultural Literacy: Science. The New Dictionary of Cultural Literacy, Third Edition Edited by E.D. Hirsch, Jr., Joseph F. Kett, and James Trefil. Copyright © 2002 by Houghton Mifflin Company. Published by Houghton Mifflin. All rights reserved.  Read more
 Oxford Dictionary of Biochemistry. Oxford University Press. Oxford Dictionary of Biochemistry and Molecular Biology © 1997, 2000, 2006 All rights reserved.  Read more
Saunders Veterinary Dictionary. Saunders Comprehensive Veterinary Dictionary 3rd Edition. Copyright © 2007 by D.C. Blood, V.P. Studdert and C.C. Gay, Elsevier. All rights reserved.  Read more
Mosby's Dental Dictionary. Mosby's Dental Dictionary. Copyright © 2004 by Elsevier, Inc. All rights reserved.  Read more
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