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Deleterious Alleles in the Human Genome Are on Average Younger Than Neutral Alleles of the Same Frequency
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نویسنده
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kiezun a. ,pulit s.l. ,francioli l.c. ,van dijk f. ,swertz m. ,boomsma d.i. ,van duijn c.m. ,slagboom p.e. ,van ommen g.j.b. ,wijmenga c. ,de bakker p.i.w. ,sunyaev s.r.
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منبع
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plos genetics - 2013 - دوره : 9 - شماره : 2
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چکیده
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Large-scale population sequencing studies provide a complete picture of human genetic variation within the studied populations. a key challenge is to identify,among the myriad alleles,those variants that have an effect on molecular function,phenotypes,and reproductive fitness. most non-neutral variation consists of deleterious alleles segregating at low population frequency due to incessant mutation. to date,studies characterizing selection against deleterious alleles have been based on allele frequency (testing for a relative excess of rare alleles) or ratio of polymorphism to divergence (testing for a relative increase in the number of polymorphic alleles). here,starting from maruyama's theoretical prediction (maruyama t (1974),am j hum genet usa 6:669-673) that a (slightly) deleterious allele is,on average,younger than a neutral allele segregating at the same frequency,we devised an approach to characterize selection based on allelic age. unlike existing methods,it compares sets of neutral and deleterious sequence variants at the same allele frequency. when applied to human sequence data from the genome of the netherlands project,our approach distinguishes low-frequency coding non-synonymous variants from synonymous and non-coding variants at the same allele frequency and discriminates between sets of variants independently predicted to be benign or damaging for protein structure and function. the results confirm the abundance of slightly deleterious coding variation in humans. © 2013 kiezun et al.
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آدرس
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division of genetics,department of medicine,brigham and women's hospital,harvard medical school,boston,ma,united states,program in medical and population genetics,broad institute of mit and harvard,cambridge,ma,united states,cancer program,broad institute of mit and harvard,cambridge,ma, United States, program in medical and population genetics,broad institute of mit and harvard,cambridge,ma, United States, departments of medical genetics and of epidemiology,university medical center utrecht,utrecht, Netherlands, department of genetics,university of groningen,university medical center groningen,groningen, Netherlands, department of genetics,university of groningen,university medical center groningen,groningen, Netherlands, department of biological psychology,vu university,amsterdam, Netherlands, department of epidemiology,erasmus medical center,rotterdam, Netherlands, department of medical statistics and bioinformatics,leiden university medical center,leiden, Netherlands, department of human genetics,leiden university medical center,leiden, Netherlands, department of genetics,university of groningen,university medical center groningen,groningen, Netherlands, division of genetics,department of medicine,brigham and women's hospital,harvard medical school,boston,ma,united states,program in medical and population genetics,broad institute of mit and harvard,cambridge,ma,united states,departments of medical genetics and of epidemiology,university medical center utrecht,utrecht, Netherlands, division of genetics,department of medicine,brigham and women's hospital,harvard medical school,boston,ma,united states,program in medical and population genetics,broad institute of mit and harvard,cambridge,ma, United States
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Authors
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