References
- Li ZJ, Lan XY, Guo WJ, et al. Comparative transcriptome profiling of dairy goat microRNAs from dry period and peak lactation mammary gland tissues. PLOS One. 2012;7(12):e52388.
- Li WC, Wang K, Gu Y. Occurrence of Blastocystis sp. and Pentatrichomonas hominis in sheep and goats in China. Parasit Vectors. 2018;11(1):93.
- Berihulay H, Li Y, Liu X, et al. Genetic diversity and population structure in multiple Chinese goat populations using a SNP panel. Anim Genet. 2019;50(3):242–249.
- Ahmed M, Singh MN, Bera AK, et al. Molecular basis for identification of species/isolates of gastrointestinal nematode parasites. Asian Pac J Trop Med. 2011;4(8):589–593.
- Na R, Ni W, E G, et al. SNP screening of the MSTN gene and correlation analysis between genetic polymorphisms and growth traits in Dazu black goat. Anim Biotechnol. 2021;32(5):558–565.
- Menezes MPC, Martinez AM, Filho ECP, et al. Diversity analysis and genetic relationships among local Brazilian goat breeds using SSR markers. Animals. 2020;10(10):1842.
- Marikar FMMT, Musthafa MM. Usefulness of short sequence repeat markers in goat genetic diversity studies on the Asian and African continents. Turk J Vet Anim Sci. 2014;38(6):606–611.
- Agarwal M, Shrivastava N, Padh H. Advances in molecular marker techniques and their applications in plant sciences. Plant Cell Rep. 2008;27(4):617–631.
- Skinner DM, Beattie WG, Blattner FR, et al. The repeat sequence of a hermit crab satellite deoxyribonucleic acid is (-T-A-G-G-)n-(-A-T-C-C-)n. Biochemistry. 1974;13(19):3930–3937.
- Singh L, Purdom IF, Jones KW. Sex chromosome associated satellite DNA: evolution and conservation. Chromosoma. 1980;79(2):137–157.
- Hamada H, Petrino MG, Kakunaga T. A novel repeated element with Z-DNA-forming potential is widely found in evolutionarily diverse eukaryotic genomes. Proc Natl Acad Sci U S A. 1982;79(21):6465–6469.
- Miah G, Rafii MY, Ismail MR, et al. A review of microsatellite markers and their applications in rice breeding programs to improve blast disease resistance. Int J Mol Sci. 2013;14(11):22499–22528.
- E G-X, Zhao Y-J, Chen L-P, et al. Genetic diversity of the Chinese goat in the littoral zone of the Yangtze River as assessed by microsatellite and mtDNA. Ecol Evol. 2018;8(10):5111–5123.
- E G-X, Hong Q-H, Zhao Y-J, et al. Genetic diversity estimation of Yunnan indigenous goat breeds using microsatellite markers. Ecol Evol. 2019;9(10):5916–5924.
- Ceccobelli S, Lasagna E, Demir E, et al. Molecular identification of the “Facciuta Della Valnerina” local goat population reared in the Umbria Region, Italy. Animals. 2020;10(4)
- Piry S, Luikart G, Cornuet JM. Bottleneck: a computer program for detecting recent reductions in the effective population size using allele frequency data. Proceedings of the Aps Meeting; 2001.
- Peakall R, Smouse PE. GenAlEx 6.5: genetic analysis in Excel. Population genetic software for teaching and research–an update. Bioinformatics. 2012;28(19):2537–2539.
- Excoffier L, Lischer HE. Arlequin suite ver 3.5: a new series of programs to perform population genetics analyses under Linux and Windows. Mol Ecol Resour. 2010;10(3):564–567.
- Pritchard JK, Stephens M, Donnelly P. Inference of population structure using multilocus genotype data. Genetics. 2000;155(2):945–959.
- Hines HC, Zikakis JP, Haenlein GF, et al. Linkage relationships among loci of polymorphisms in blood and milk of cattle. J Dairy Sci. 1981;64(1):71–76.
- Botstein D, White RL, Skolnick M, et al. Construction of a genetic linkage map in man using restriction fragment length polymorphisms. Am J Hum Genet. 1980;32(3):314–331.
- Wei C, Lu J, Xu L, et al. Genetic structure of Chinese indigenous goats and the special geographical structure in the Southwest China as a geographic barrier driving the fragmentation of a large population. PLOS One. 2014;9(4):e94435.
- Zhao Y, Zhao R, Zhao Z, et al. Genetic diversity and molecular phylogeography of Chinese domestic goats by large-scale mitochondrial DNA analysis. Mol Biol Rep. 2014;41(6):3695–3704.
- Dixit SP, Verma NK, Aggarwal R, et al. Genetic diversity and relationship among southern Indian goat breeds based on microsatellite markers. Small Rumin Res. 2010;91(2-3):153–159.
- Hussain T, Shaheen M, Babar ME, et al. Molecular diversity analysis of Jattal and Dera Din Panah goat breeds of Pakistan using microsatellite markers. J Hellenic Vet Med Soc. 2018;69(1):791.
- Hague MTJ, Routman EJ. Does population size affect genetic diversity? A test with sympatric lizard species. Heredity (Edinb). 2016;116(1):92–98.
- Bradshaw CJ, Isagi Y, Kaneko S, et al. Low genetic diversity in the bottlenecked population of endangered non-native Banteng in northern Australia. Mol Ecol. 2007;16(14):2998–3008.
- Cornuet JM, Luikart G. Description and power analysis of two tests for detecting recent population bottlenecks from allele frequency data. Genetics. 1996;144(4):2001–2014.
- Luikart G, Allendorf FW, Cornuet JM, et al. Distortion of allele frequency distributions provides a test for recent population bottlenecks. J Hered. 1998;89(3):238–247.
- Luikart G, Cornuet JM. Empirical evaluation of a test for identifying recently bottlenecked populations from allele frequency data. Conserv Biol. 1998;12(1):228–237.
- Di Rienzo A, Peterson AC, Garza JC, et al. Mutational processes of simple-sequence repeat loci in human populations. Proc Natl Acad Sci U S A. 1994;91(8):3166–3170.
- Luikart G, Sherwin WB, Steele BM, et al. Usefulness of molecular markers for detecting population bottlenecks via monitoring genetic change. Mol Ecol. 1998;7(8):963–974.
- Wright S. The genetical structure of populations. Ann Eugen. 1951;15(4):323–354.
- Nomura K, Ishii K, Dadi H, et al. Microsatellite DNA markers indicate three genetic lineages in East Asian indigenous goat populations.Anim Genet, 2012, 43(6): 760–767.
- Cañón J, García D, García-Atance MA, et al. Geographical partitioning of goat diversity in Europe and the Middle East. Anim Genet. 2006;37(4):327–334.
- Liu G, Zhao QJ, Lu J, et al. Insights into the genetic diversity of indigenous goats and their conservation priorities. Asian-Australas J Anim Sci. 2019;32(10):1501–1510.