https://orcid.org/0000-0002-9083-7167
References
- Nosrati M. The pattern of linkage disequilibrium in livestock genome. Iran J Appl Anim Sci. 2017;7(1):1–7.
- Karimi K, Esmailizadeh Koshkoiyeh A, Gondro C. Comparison of linkage disequilibrium levels in Iranian indigenous cattle using whole genome SNPs data. J Anim Sci Technol. 2014;57:47–53.
- Taylor JF. Implementation and accuracy of genomic selection. Aquaculture. 2014;420–421:S8–S14.
- Gouveia JJS, Da Silva MGBV, Paiva SR, de Oliveira SMP. Identification of selection signatures in livestock species. Genet Mol Biol. 2014;37(2):330–342.
- Bohmanova J, Sargolzaei M, Schenkel FS. Characteristics of linkage disequilibrium in North American Holsteins. BMC Genom. 2010;11:421–432.
- Meuwissen THE, Hayes BJ, Goddard ME. Prediction of total genetic value using genome-wide dense marker maps. Genetics. 2001;157:1819–1829.
- Vallejo RL. Estimates of linkage disequilibrium. BMC Genet. 2009;10:83.
- Scraggs E, Zanella R, Wojtowicz A, et al. Estimation of inbreeding and effective population size of full-blood Wagyu cattle registered with the American Wagyu Cattle Association. J Anim Breed Genet. 2014;131(1):3–10.
- Leroy G. Inbreeding depression in livestock species: review and meta-analysis. Anim Genet. 2014;45(5):618–628.
- Notter DR. The importance of genetic diversity in livestock populations of the future. J Anim Sci. 1999;77(1):61–69.
- Broman KW, Weber JL. Long homozygous chromosomal segments in reference families from the centre d'etude du polymorphisme humain. Am J Hum Genet. 1999;65(6):1493–1500.
- Wright S. Coefficients of inbreeding and relationship. Am Nat. 1922;56(645):330–338.
- Crow JF. Breeding structure of populations. II. Effective population number. In: Kempthorne O, Bancroft TA, Gowen JW, Lush JL, eds. Statistics and Mathematics in Biology. Ames, Iowa: Iowa State College Press; 1954: 543–556.
- Nosrati M. Run of homozygosity a procedure to detecting inbreeding in farm animals. Iran J Appl Anim Sci. 2017;7(4):1–7.
- Carothers AD, Rudan I, Kolcic I, et al. Estimating human inbreeding coefficients: comparison of genealogical and marker heterozygosity approaches. Ann Hum Genet. 2006;70(Pt 5):666–676.
- Suwanlee S, Baumung R, Sölkner J, Curik I. Evaluation of ancestral inbreeding coefficients: Ballou's formula versus gene dropping. Conserv Genet. 2007;8(2):489–495.
- Curik I, Solkner J, Stipic N. Effects of models with finite loci, selection, dominance epistasis and linkage on inbreeding coefficients based on pedigree and genotypic information. J Anim Breed Genet. 2002;119(2):101–115.
- Khatkar MS, Nicholas FW, Collins AR, et al. Extent of genome-wide linkage disequilibrium in Australian Holstein-Friesian cattle based on a high-density SNP panel. BMC Genom. 2008;9(1):187.
- Lin S, Zhao H, eds. Handbook on analysing human genetic data. Berlin, Heidelberg, Germany: Springer Verlag, 2010.
- Guryev V, Smits BMG, Van De Belt J, Verheul M, Hubner N, Cuppen E. Haplotype block structure is conserved across mammals. PLoS Genet 2006;2:1111–1118. https://doi.org/10.1371/journal.pgen.0020121
- Wright S. Evolution in Mendelian populations. Genet. 1931;16(2):97–159. doi:10.1093/genetics/16.2.97.
- Husemann M, Zachos FE, Paxton RJ, Habel JC. Effective population size in ecology and evolution. Heredity. 2016;117(4):191–192.
- Gurgul A, Semik E, Pawlina K, Szmatoła T, Jasielczuk I, Bugno-Poniewierska M. The application of genome-wide SNP genotyping methods in studies on livestock genomes. J Appl Genet. 2014;55(2):197–208.
- Grossi DA, Brito LF, Jafarikia M, Schenkel FS, Feng Z. Genotype imputation from various low-density SNP panels and its impact on accuracy of genomic breeding values in pigs. Animal. 2018;12(11):2235–2245.
- Purcell S, Neale B, Todd-Brown K, Thomas L, Ferreira MAR, Bender D, Maller J, Sklar P, de Bakker PI, Daly MJ, Sham PC. Plink: a toolset for whole-genome association and population-based linkage analysis. Am J Hum Genet. 2007;81:275–291.
- Hill W, Robertson A. The effects of inbreeding at loci with heterozygote advantage. Genetics. 1968;60(3):615–628.
- Lewontin RC. The interaction of selection and linkage. I. General considerations; heterotic models. Genetics. 1964;49(1):49–67.
- Barbato M, Orozco-terWengel P, Tapio M, Bruford MW. SNeP: a tool to estimate trends in recent effective population size trajectories using genome-wide SNP data. Front Genet. 2015;6:109.
- Sved J. Linkage disequilibrium and homozygosity of chromosome segments in finite populations. Theor Popul Biol. 1971;2(2):125–141.
- Gutierrez JP, Goyache F. A note on ENDOG: a computer program for analysing pedigree information. J Anim Breed Genet. 2005;122(3):172–176.
- Gibson J, Morton NE, Collins A. Extended tracts of homozygosity in outbred human populations. Hum Mol Genet. 2006;15(5):789–795.
- McQuillan R, Leutenegger A-L, Abdel-Rahman R, et al. Runs of homozygosity in European populations. Am J Hum Genet. 2008;83(3):359–372.
- Anderson CA, Pettersson FH, Clarke GM, Cardon LR, Morris AP, Zondervan KT. Data quality control in genetic case-control association studies. Nat Protoc. 2010;5(9):1564–1573.
- Senczuk G, Guerra L, Mastrangelo S, et al. Fifteen shades of grey: combined analysis of genome-wide SNP data in steppe and mediterranean grey cattle sheds new light on the molecular basis of coat color. Genes. 2020;11:932.
- Kelleher MM, Berry DP, Kearney JF, McParland S, Buckley F, Purfield DC. Inference of population structure of purebred dairy and beef cattle using high-density genotype data. Animal. 2017;11(1):15–23.
- Rahal O, Aissaoui C, Elmokhefi M, Sahraoui H, Ciani E, Gaouar SBS. A comprehensive characterization of guelmoise, a native cattle breed from eastern Algeria. Gen Biodiv J. 2017;1(1):30–42.
- Ben Jemaa S, Rahal O, Gaouar SBS, Mastrangelo S, Boussaha M, Ciani E. Genomic characterization of Algerian Guelmoise cattle and their genetic relationship with other North African populations inferred from SNP genotyping arrays. Livestock Science. 2018;217:19–25.
- Farnir F, Coppieters W, Arranz JJ, et al. Extensive genome-wide linkage disequilibrium in cattle. Genome Res. 2000;10(2):220–227.
- Tenesa A, Navarro P, Hayes BJ, et al. Recent human effective population size estimated from linkage disequilibrium. Genome Res. 2007;17(4):520–526.
- Khatkar MS, Collins A, Cavanagh JAL, Hawken RJ, Hobbs M. A first-generation metric linkage disequi-librium map of bovine chromosome 6. Genetics. 2006;174:79–85.
- Khatkar MS, Thomson PC, Tammen I, Cavanagh JAL, Nicholas FW. Linkage disequilibrium on chromosome 6 in Australian Holstein-Friesian cattle. Genet Select Evol. 2006;38:463–477.
- McKay SD, Schnabel RD, Murdoch BM, et al. Whole genome linkage disequilibrium maps in cattle. BMC Genet. 2007;8:74–85.
- Sargolzaei M, Schenkel FS, Jansen GB, Schaeffer LR. Extent of linkage disequilibrium in Holstein cattle in North America. J Dairy Sci. 2008;91(5):2106–2117.
- Laodim T, Koonawootrittriron S, Elzo MA, Suwanasopee S. Genome-wide linkage disequilibrium in a Thai multibreed dairy cattle population. Livest. Sci., 2015;180:27–33.
- Kim E-S, Kirkpatrick BW. Linkage disequilibrium in the North American Holstein population. Anim Genet. 2009;40(3):279–288. doi:10.1111/j.1365-2052.2008.01831.x.
- Groeneveld LF, Lenstra JA, Eding H, et al. Genetic diversity in farm animals-a review. Anim Genet. 2010;41(Suppl 1):6–31.
- Qanbari S, Pimentel E, Tetens J, Thaller G, Lichtner P, Sharifi A, Simianer H. The pattern of linkage disequilibrium in German Holstein cattle. Anim Genet. 2010;41:346–356.
- Marras G, Gaspa G, Sorbolini S, et al. Analysis of runs of homozygosity and their relationship with inbreeding in five cattle breeds farmed in Italy. Anim Genet. 2015;46(2):110–121.
- Rodríguez-Ramilo ST, Fernández J, Toro MA, Hernández D, Villanueva B. Genome-wide estimates of coancestry, inbreeding and effective population size in the Spanish Holstein population. PLoS One. 2015;10(4):e0124157.
- Stachowicz K, Sargolzaei M, Miglior F, Schenkel FS. Rates of inbreeding and genetic diversity in Canadian Holstein and Jersey cattle. J Dairy Sci. 2011;94(10):5160–5175.
- Weller JI. Quantitative Trait Loci Analysis in Animals. Wallingford, UK: CABI Publishing; 2001:187–188.
- Bjelland DW, Weigel KA, Vukasinovic N, Nkrumah JD. Evaluation of inbreeding depression in Holstein cattle using whole-genome SNP markers and alternative measures of genomic inbreeding. J Dairy Sci. 2013;96(7):4697–4706.
- Gómez‐Romano F, Villanueva B, Sölkner J, et al. The use of coancestry based on shared segments for maintaining genetic diversity. J Anim Breed Genet. 2016;133(5):357–365.
- Ferenčaković M, Hamzic E, Gredler B, Curik I, Solkner J. Runs of homozygosity reveal genome wide autozygosity in the Austrian fleckvieh cattle. Agric Conspec Sci. 2011;76:325–328.
- Purfield D, Berry D, McParland S, Bradley D. Runs of homozygosity and population history in cattle. BMC Genet. 2012;13:70.
- Ferenčaković M, Hamzić E, Gredler B, et al. Estimates of autozygosity derived from runs of homozygosity: empirical evidence from selected cattle populations. J Anim Breed Genet. 2013;130(4):286–293. 66.
- Gaouar SBS. Etude de la biodiversité: Analyse de la variabilité génétique des races ovines algériennes et de leurs relations phylogénétiques par l’utilisation de microsatellites. [Thèse de Doctorat, Spécialité Génétique, Option: polymorphisme Génétique, Laboratoire de Biologie Moléculaire et Génétique, Institut Des Sciences de la Nature]. Oran: Université d’Es-Sénia; 2009.
- Kim ES, Sonstegard TS, Van Tassell CP, Wiggans G, Rothschild MF. The relationship between runs of homozygosity and inbreeding in Jersey cattle under selection. PLoS One. 2015;10(7):e0129967
- Sölkner J, Ferencakovic M, Gredler B, Curik I. Genomic metrics of individual autozygosity, applied to a cattle population. Proceedings of the 61st Annual Meeting of the European Association for Animal Production; 2010:306–307; Wageningen, Netherlands.
- Zhang Q, Guldbrandtsen B, Bosse M, Lund MS, Sahana G. Runs of homozygosity and distribution of functional variants in the cattle genome. BMC Genom. 2015;16:542–545.
- Iacolina L, Stronen AV, Pertoldi C, et al. Novel graphical analyses of runs of homozygosity among species and livestock breeds. Int J Genom. 2016;2016:1–8.
- Mastrangelo S, Tolone M, Di Gerlando R, Fontanesi L, Sardina M, Portolano B. Genomic inbreeding estimation in small populations: evaluation of runs of homozygosity in three local dairy cattle breeds. Animal. 2016;10(5):746–754.
- Peripolli E, Stafuzza NB, Munari DP, et al. Assessment of runs of homozygosity islands and estimates of genomic inbreeding in Gyr (Bos indicus) dairy cattle. BMC Genom. 2018;19(1):34.
- Gurgul A, Szmatoła T, Topolski P, Jasielczuk I, Żukowski K, Bugno-Poniewierska M. The use of runs of homozygosity for estimation of recent inbreeding in Holstein cattle. J Appl Genet. 2016;57(4):527–530.
- Signer-Hasler H, Burren A, Neuditschko M, et al. Population structure and genomic inbreeding in nine Swiss dairy cattle populations. Genet Sel Evol. 2017;49(1):83.
- Mastrangelo S, Portolano B, Di Gerlando R, et al. Genome-wide analysis in endangered populations: a case study in Barbaresca sheep. Animal. 2017;11(7):1107–1116.
- Ferenčaković M, Sölkner J, Curik I. Estimating autozygosity from high-throughput information: effects of SNP density and genotyping errors. Genet Sel Evol. 2013;45:42.,
- Islam R, Li Y, Liu X, Berihulay H, Abied A, Gebreselassie G. Genome-wide runs of homozygosity, effective population size, and detection of positive selection signatures in six Chinese goat breeds. Genes. 2019;10:938.
- Xu Z, Sun H, Zhang Z, et al. Assessment of autozygosity derived from runs of homozygosity in Jinhua pigs disclosed by sequencing data. Front Genet. 2019;10:274.
- Ceballos FC, Hazelhurst S, Ramsay M. Assessing runs of homozygosity: a comparison of SNP array and whole genome sequence low coverage data. BMC Genom. 2018;19:106.