Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/genetic-drift-outweighs-natural-selection-at-toll-like-receptor-tlr-jCuKFYNFkp
References (71)
-
S. Taylor, Deborah Jenkins, P. Arcese (2012)
Loss of Mhc and Neutral Variation in Peary Caribou: Genetic Drift Is Not Mitigated by Balancing Selection or Exacerbated by Mhc Allele DistributionsPLoS ONE, 7
-
M. Oliver, S. Piertney (2012)
Selection maintains MHC diversity through a natural population bottleneck.Molecular biology and evolution, 29 7
-
Irem Sepil, S. Lachish, B. Sheldon (2013)
Mhc‐linked survival and lifetime reproductive success in a wild population of great titsMolecular Ecology, 22
-
Juliane Casquet, C. Thébaud, R. Gillespie (2012)
Chelex without boiling, a rapid and easy technique to obtain stable amplifiable DNA from small amounts of ethanol‐stored spidersMolecular Ecology Resources, 12
-
R. Agudo, M. Alcaide, C. Rico, J. Lemus, G. Blanco, F. Hiraldo, J. Donázar (2011)
Major histocompatibility complex variation in insular populations of the Egyptian vulture: inferences about the roles of genetic drift and selectionMolecular Ecology, 20
-
G. Turner (2001)
The Ecology of Adaptive RadiationHeredity, 86
-
Mandy Haldane (1927)
A Mathematical Theory of Natural and Artificial Selection, Part V: Selection and MutationMathematical Proceedings of the Cambridge Philosophical Society, 23
-
Amy Ellison, J. Allainguillaume, S. Girdwood, J. Pachebat, K. Peat, Patricia Wright, Sofia Consuegra (2012)
Maintaining functional major histocompatibility complex diversity under inbreeding: the case of a selfing vertebrateProceedings of the Royal Society B: Biological Sciences, 279
-
S. Townsend, I. Jamieson (2013)
INBREEDING INFLUENCES WITHIN‐BROOD HETEROZYGOSITY‐FITNESS CORRELATIONS (HFCS) IN AN ISOLATED PASSERINE POPULATIONEvolution, 67
-
P. Walsh, D. Metzger, Russell Higuchi (2013)
Chelex 100 as a medium for simple extraction of DNA for PCR-based typing from forensic material.BioTechniques, 10 4
-
J. Gratten, J. Pilkington, E. Brown, T. Clutton‐Brock, J. Pemberton, J. Slate (2012)
Selection and microevolution of coat pattern are cryptic in a wild population of sheepMolecular Ecology, 21
-
A. Agresti, B. Coull (1998)
Approximate is Better than “Exact” for Interval Estimation of Binomial ProportionsThe American Statistician, 52
-
J. Maccluer, J. VandeBerg, B. Read, O. Ryder (1986)
Pedigree analysis by computer simulationZoo Biology, 5
-
P. Seddon (2010)
From Reintroduction to Assisted Colonization: Moving along the Conservation Translocation SpectrumRestoration Ecology, 18
-
M. Macnair (2000)
Genetics of Populations (2nd edn)Heredity, 85
-
Danielle Middleton, E. Minot, B. Gartrell (2010)
Salmonella enterica serovars in lizards of New Zealand's offshore islands.New Zealand Journal of Ecology, 34
-
J. Alho, K. Välimäki, J. Merilä (2010)
Rhh: an R extension for estimating multilocus heterozygosity and heterozygosity–heterozygosity correlationMolecular Ecology Resources, 10
-
B. Weir, C. Cockerham (1984)
ESTIMATING F‐STATISTICS FOR THE ANALYSIS OF POPULATION STRUCTUREEvolution, 38
-
M. Kawashima, J. Ohashi, N. Nishida, K. Tokunaga (2012)
Evolutionary Analysis of Classical HLA Class I and II Genes Suggests That Recent Positive Selection Acted on DPB1*04∶01 in Japanese PopulationPLoS ONE, 7
-
Tanja Strand, G. Segelbacher, M. Quintela, L. Xiao, T. Axelsson, J. Höglund (2012)
Can balancing selection on MHC loci counteract genetic drift in small fragmented populations of black grouse?Ecology and Evolution, 2
-
M. Alcaide (2010)
On the relative roles of selection and genetic drift in shaping MHC variationMolecular Ecology, 19
-
J. Goudet (1995)
FSTAT (Version 1.2): A Computer Program to Calculate F-StatisticsJournal of Heredity, 86
-
S. Akira, S. Uematsu, O. Takeuchi (2006)
Pathogen Recognition and Innate ImmunityCell, 124
-
J. Bollmer, ELIZABETH Ruder, Jeff Johnson, J. Eimes, P. Dunn (2011)
Drift and selection influence geographic variation at immune loci of prairie‐chickensMolecular Ecology, 20
-
W. Babik (2010)
Methods for MHC genotyping in non‐model vertebratesMolecular Ecology Resources, 10
-
M. Alcaide, S. Edwards (2011)
Molecular evolution of the toll-like receptor multigene family in birds.Molecular biology and evolution, 28 5
-
(2009)
Binom: Binomial Confidence Intervals for Several Parameterizations (version 1.0-5 -
M. Ejsmond, J. Radwan (2011)
MHC diversity in bottlenecked populations: a simulation modelConservation Genetics, 12
-
G. Leveque, Vincenzo Forgetta, S. Morroll, Adrian Smith, N. Bumstead, P. Barrow, J. Loredo-Osti, K. Morgan, D. Malo (2003)
Allelic Variation in TLR4 Is Linked to Susceptibility to Salmonella enterica Serovar Typhimurium Infection in ChickensInfection and Immunity, 71
-
T. Dobzhansky (1955)
GENETIC HOMEOSTASISEvolution, 9
-
K. Burnham, David Anderson (2003)
Model selection and multimodel inference : a practical information-theoretic approachJournal of Wildlife Management, 67
-
P. Hedrick (2012)
What is the evidence for heterozygote advantage selection?Trends in ecology & evolution, 27 12
-
I. Jamieson (2011)
Founder Effects, Inbreeding, and Loss of Genetic Diversity in Four Avian Reintroduction ProgramsConservation Biology, 25
-
Renaud Kaeuffer, D. Coltman, J. Chapuis, D. Pontier, D. Réale (2007)
Unexpected heterozygosity in an island mouflon population founded by a single pair of individualsProceedings of the Royal Society B: Biological Sciences, 274
-
E. Weiser, C. Grueber, I. Jamieson (2013)
Simulating Retention of Rare Alleles in Small Populations to Assess Management Options for Species with Different Life HistoriesConservation Biology, 27
-
J. Radwan, A. Biedrzycka, W. Babik (2009)
Collaboration for Environmental Evidence Systematic Review No . 65 DOES REDUCED MHC DIVERSITY DECREASE VIABILITY OF VERTEBRATE POPULATIONS ? -
C. Thomas (2011)
Translocation of species, climate change, and the end of trying to recreate past ecological communities.Trends in ecology & evolution, 26 5
-
R. Laws, I. Jamieson (2011)
Is lack of evidence of inbreeding depression in a threatened New Zealand robin indicative of reduced genetic load?Animal Conservation, 14
-
J. Bouzat (2010)
Conservation genetics of population bottlenecks: the role of chance, selection, and historyConservation Genetics, 11
-
S. Townsend, I. Jamieson (2013)
Molecular and pedigree measures of relatedness provide similar estimates of inbreeding depression in a bottlenecked populationJournal of Evolutionary Biology, 26
-
E. Weiser, C. Grueber, I. Jamieson (2012)
AlleleRetain: a program to assess management options for conserving allelic diversity in small, isolated populationsMolecular Ecology Resources, 12
-
M. Nei, T. Maruyama, R. Chakraborty (1975)
THE BOTTLENECK EFFECT AND GENETIC VARIABILITY IN POPULATIONSEvolution, 29
-
S. Taylor, I. Jamieson, G. Wallis (2007)
Historic and contemporary levels of genetic variation in two New Zealand passerines with different histories of declineJournal of Evolutionary Biology, 20
-
S. Bensch, Henrik Andrén, B. Hansson, H. Pedersen, H. Sand, D. Sejberg, Petter Wabakken, Mikael Åkesson, O. Liberg (2006)
Selection for Heterozygosity Gives Hope to a Wild Population of Inbred WolvesPLoS ONE, 1
-
Y. Yasukochi, Y. Satta (2013)
Current perspectives on the intensity of natural selection of MHC lociImmunogenetics, 65
-
S. Townsend, T. King, I. Jamieson (2012)
Isolation and characterisation of microsatellite markers from the South Island robin (Petroica australis)Conservation Genetics Resources, 4
-
M. Villaseñor-Cardoso, E. Ortega (2011)
Polymorphisms of innate immunity receptors in infection by parasitesParasite Immunology, 33
-
R. Brownlie, B. Allan (2010)
Avian toll-like receptorsCell and Tissue Research, 343
-
Jolene Sutton, Shinichi Nakagawa, B. Robertson, I. Jamieson (2011)
Disentangling the roles of natural selection and genetic drift in shaping variation at MHC immunity genesMolecular Ecology, 20
-
S. Mukherjee, N. Sarkar-Roy, D. Wagener, P. Majumder (2009)
Signatures of natural selection are not uniform across genes of innate immune system, but purifying selection is the dominant signatureProceedings of the National Academy of Sciences, 106
-
S. Uematsu, S. Akira (2008)
Toll-Like receptors (TLRs) and their ligands.Handbook of experimental pharmacology, 183
-
I. Bergman, Kjell Edman, K. Ekdahl, K. Ekdahl, K. Rosengren, K. Rosengren, I. Edfors (2012)
Extensive polymorphism in the porcine Toll‐like receptor 10 geneInternational Journal of Immunogenetics, 39
-
S. O'Brien, J. Evermann (1988)
Interactive influence of infectious disease and genetic diversity in natural populationsTrends in Ecology & Evolution, 3
-
J. Eimes, J. Bollmer, L. Whittingham, Jeff Johnson, C. Oosterhout, P. Dunn (2011)
Rapid loss of MHC class II variation in a bottlenecked population is explained by drift and loss of copy number variationJournal of Evolutionary Biology, 24
-
W. Babik, P. Taberlet, M. Ejsmond, J. Radwan (2009)
New generation sequencers as a tool for genotyping of highly polymorphic multilocus MHC systemMolecular Ecology Resources, 9
-
L. Barreiro, M. Ben-ali, Hélène Quach, G. Laval, E. Patin, Joseph Pickrell, C. Bouchier, M. Tichit, O. Neyrolles, B. Gicquel, J. Kidd, K. Kidd, A. Alcaïs, J. Ragimbeau, S. Pellegrini, L. Abel, J. Casanova, L. Quintana-Murci (2009)
Evolutionary Dynamics of Human Toll-Like Receptors and Their Different Contributions to Host DefensePLoS Genetics, 5
-
J. Bollmer, P. Dunn, L. Whittingham, C. Wimpee (2010)
Extensive MHC class II B gene duplication in a passerine, the common Yellowthroat (Geothlypis trichas).The Journal of heredity, 101 4
-
C. Saponaro, A. Cianciulli, R. Calvello, P. Cavallo, V. Mitolo, M. Panaro (2011)
First identification of Toll-like receptor-4 in avian brain: evolution of lipopolysaccharide recognition and inflammation-dependent responsesImmunopharmacology and Immunotoxicology, 33
-
M. Vinkler, A. Bryjová, T. Albrecht, J. Bryja (2009)
Identification of the first Toll-like receptor gene in passerine birds: TLR4 orthologue in zebra finch (Taeniopygia guttata).Tissue antigens, 74 1
-
S. Clegg, S. Degnan, C. Moritz, A. Estoup, J. Kikkawa, I. Owens (2002)
MICROEVOLUTION IN ISLAND FORMS: THE ROLES OF DRIFT AND DIRECTIONAL SELECTION IN MORPHOLOGICAL DIVERGENCE OF A PASSERINE BIRD, 56
-
A. Ferrer-Admetlla, E. Bosch, M. Sikora, Tomàs Marquès-Bonet, A. Ramírez-Soriano, A. Muntasell, A. Navarro, R. Lazarus, F. Calafell, J. Bertranpetit, F. Casals (2008)
Balancing Selection Is the Main Force Shaping the Evolution of Innate Immunity Genes1The Journal of Immunology, 181
-
J. Lush (1948)
The genetics of populations -
R. Team (2014)
R: A language and environment for statistical computing.MSOR connections, 1
-
Radwan Radwan, Biedrzycka Biedrzycka, Babik Babik (2010)
Does reduced MHC diversity decrease viability of vertebrate populations?Biological Conservation, 143
-
S. Piertney, M. Oliver (2006)
The evolutionary ecology of the major histocompatibility complexHeredity, 96
-
C. Grueber, G. Wallis, T. King, I. Jamieson (2012)
Variation at Innate Immunity Toll-Like Receptor Genes in a Bottlenecked Population of a New Zealand RobinPLoS ONE, 7
-
K. Acevedo-Whitehouse, J. Vicente, C. Gortázar, U. Höfle, I. Fernández-de-Mera, W. Amos (2005)
Genetic resistance to bovine tuberculosis in the Iberian wild boarMolecular Ecology, 14
-
A. Overall, K. Byrne, J. Pilkington, J. Pemberton (2005)
Heterozygosity, inbreeding and neonatal traits in Soay sheep on St KildaMolecular Ecology, 14
-
C. Oosterhout (2013)
Maintenance of major histocompatibility supertype variation in selfing vertebrate is no evidence for overdominant selectionProceedings of the Royal Society B: Biological Sciences, 280
-
C. Oosterhout (2009)
A new theory of MHC evolution: beyond selection on the immune genesProceedings of The Royal Society B: Biological Sciences, 276
-
J. Ewen, R. Thorogood, C. Nicol, D. Armstrong, M. Alley (2007)
Salmonella Typhimurium in Hihi, New ZealandEmerging Infectious Diseases, 13
- Publisher
- Wiley
- Copyright
- Copyright © 2013 John Wiley & Sons Ltd
- ISSN
- 0962-1083
- eISSN
- 1365-294X
- DOI
- 10.1111/mec.12404
- pmid
- 23901904
- Publisher site
- See Article on Publisher Site
Abstract
During population establishment, genetic drift can be the key driver of changes in genetic diversity, particularly while the population is small. However, natural selection can also play a role in shaping diversity at functionally important loci. We used a well‐studied, re‐introduced population of the threatened Stewart Island robin (N = 722 pedigreed individuals) to determine whether selection shaped genetic diversity at innate immunity toll‐like receptor (TLR) genes, over a 9‐year period of population growth following establishment with 12 genetic founders. We found no evidence for selection operating with respect to TLR diversity on first‐year overwinter survival for the majority of loci, genotypes and alleles studied. However, survival of individuals with TLR4BE genotype was significantly improved: these birds were less than half as likely to die prior to maturity compared with all other TLR4 genotypes. Furthermore, the population frequency of this genotype, at a two‐fold excess over Hardy–Weinberg expectation, was increased by nonrandom mating. Near‐complete sampling and full pedigree and reproductive data enabled us to eliminate other potential causes of these patterns including inbreeding, year effects, density dependence, selection on animals at earlier life history stages or genome‐level association of the TLR4E allele with ‘good genes’. However, comparison of observed levels of gene diversity to predictions under simulated genetic drift revealed results consistent with neutral expectations for all loci, including TLR4. Although selection favoured TLR4BE heterozygotes in this population, these effects were insufficient to outweigh genetic drift. This is the first empirical study to show that genetic drift can overwhelm natural selection in a wild population immediately following establishment.
Journal
Molecular Ecology – Wiley
Published: Sep 1, 2013