Establishment of a microsatellite set for noninvasive paternity testing in free-ranging Macaca mulatta tcheliensis in Mount Taihangshan area, Jiyuan, China

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• 作者：Bai-Shi Wang (1)
  Zhen-Long Wang (1)
  Jun-Dong Tian (1) (2)
  Zhen-Wei Cui (1)
  Ji-Qi Lu (1)
  
  1. Institute of Biodiversity and Ecology ; Zhengzhou University ; Kexue Dadao 100 ; Zhengzhou ; 450001 ; PR China
  2. Current address ; Department of Wildlife Diseases ; Leibniz Institute for Zoo and Wildlife Research ; Alfred-Kowalke-Stra脽e 17 ; Berlin ; 10315 ; Germany
  
• 关键词：Rhesus macaque ; Microsatellite loci ; Noninvasive ; Fecal DNA ; Paternity testing ; Maternity
• 刊名：Zoological Studies
• 出版年：2015
• 出版时间：December 2015
• 年：2015
• 卷：54
• 期：1
• 全文大小：561 KB
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• 刊物主题：Zoology;
• 出版者：Springer Berlin Heidelberg
• ISSN：1810-522X

文摘

Background Within multi-male and multi-female mammalian societies, paternity assignment is crucial for evaluating male reproductive success, dominance hierarchy, and inbreeding avoidance. It is, however, difficult to determine paternity because of female promiscuity during reproduction. Noninvasive molecular techniques (e.g., fecal DNA) make it possible to match the genetic father to his offspring. In the current study, a troop of free-ranging Taihangshan macaques (Macaca mulatta tcheliensis) in Mt. Taihangshan area, Jiyuan, China, was selected for studying the paternity. We successfully screened a set of microsatellite loci from fecal DNA and evaluated the efficiency of these loci for paternity testing using clearly recorded data of maternity. Results The results showed that: 1) ten loci out of 18 candidate microsatellite loci were amplified successfully in the fecal samples of Taihangshan macaques. The error probability in maternity assignments and paternity testing was very low as indicated by their power of discrimination (0.70 to 0.95), power of exclusion (0.43 to 0.84), and the values of polymorphic information content ranging from 0.52 to 0.82; 2) the combined probability of exclusion in paternity testing for ten qualified loci was as high as 99.999%, and the combined probability of exclusion reached 99.99% when the seven most polymorphic loci were adopted; 3) the offspring were assigned to their biological mother correctly and also matched with their genetic father. Conclusions We concluded that the ten polymorphic microsatellite loci, especially a core set of seven most polymorphic loci, provided an effective and reliable tool for noninvasive paternity testing in free-ranging rhesus macaques.