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Genetic diversity of the Chinese goat in the littoral zone of the Yangtze River as assessed by microsatellite and mtDNA.
E, Guang-Xin; Zhao, Yong-Ju; Chen, Li-Peng; Ma, Yue-Hui; Chu, Ming-Xing; Li, Xiang-Long; Hong, Qiong-Hua; Li, Lan-Hui; Guo, Ji-Jun; Zhu, Lan; Han, Yan-Guo; Gao, Hui-Jiang; Zhang, Jia-Hua; Jiang, Huai-Zhi; Jiang, Cao-De; Wang, Gao-Fu; Ren, Hang-Xing; Jin, Mei-Lan; Sun, Yuan-Zhi; Zhou, Peng; Huang, Yong-Fu.
Afiliação
  • E GX; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Zhao YJ; State Key Laboratory of Genetic Resources and Evolution Kunming Institute of Zoology Chinese Academy of Sciences Kunming China.
  • Chen LP; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Ma YH; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Chu MX; Institute of Animal Science Chinese Academy of Agricultural Sciences (CAAS) Beijing China.
  • Li XL; Institute of Animal Science Chinese Academy of Agricultural Sciences (CAAS) Beijing China.
  • Hong QH; College of Animal Science and Technology Hebei Normal University of Science & Technology Qinghuangdao China.
  • Li LH; Yunnan Animal Scinence and Veterinary Institute Kunming China.
  • Guo JJ; College of Animal Science and Technology Agricultural University of Hebei Baoding, Hebei China.
  • Zhu L; Animal Husbandry Station of Qinghai Province Xining, Qinghai China.
  • Han YG; Yunnan Animal Scinence and Veterinary Institute Kunming China.
  • Gao HJ; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Zhang JH; Institute of Animal Science Chinese Academy of Agricultural Sciences (CAAS) Beijing China.
  • Jiang HZ; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Jiang CD; Animal Science and Technology College Jilin Agriculture University Changchun, Jilin China.
  • Wang GF; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Ren HX; Chongqing Academy of Animal Sciences Chongqing China.
  • Jin ML; Chongqing Academy of Animal Sciences Chongqing China.
  • Sun YZ; College of Animal Science and Technology, Chongqing Key Laboratory of Forage & Herbivore Chongqing Engineering Research Centre for Herbivores Resource Protection and Utilization Southwest University Chongqing China.
  • Zhou P; Wuhan Tianyi Huiyuan Bioscience & Technology Inc Wuhan China.
  • Huang YF; Chongqing Academy of Animal Sciences Chongqing China.
Ecol Evol ; 8(10): 5111-5123, 2018 May.
Article em En | MEDLINE | ID: mdl-29876086
ABSTRACT
The objective of this study was to assess the genetic diversity and population structure of goats in the Yangtze River region using microsatellite and mtDNA to better understand the current status of those goat genetic diversity and the effects of natural landscape in fashion of domestic animal genetic diversity. The genetic variability of 16 goat populations in the littoral zone of the Yangtze River was estimated using 21 autosomal microsatellites, which revealed high diversity and genetic population clustering with a dispersed geographical distribution. A phylogenetic analysis of the mitochondrial D-loop region (482 bp) was conducted in 494 goats from the Yangtze River region. In total, 117 SNPs were reconstructed, and 173 haplotypes were identified, 94.5% of which belonged to lineages A and B. Lineages C, D, and G had lower frequencies (5.2%), and lineage F haplotypes were undetected. Several high-frequency haplotypes were shared by different ecogeographically distributed populations, and the close phylogenetic relationships among certain low-frequency haplotypes indicated the historical exchange of genetic material among these populations. In particular, the lineage G haplotype suggests that some west Asian goat genetic material may have been transferred to China via Muslim migration.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Revista: Ecol Evol Ano de publicação: 2018 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Revista: Ecol Evol Ano de publicação: 2018 Tipo de documento: Article