Author
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Volk, Gayle |
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Richards, Christopher |
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Forsline, Philip |
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Submitted to: Meeting Abstract
Publication Type: Abstract Only Publication Acceptance Date: 11/1/2010 Publication Date: 11/14/2010 Citation: Volk, G.M., Richards, C.M., Forsline, P.L. 2010. Diversity and Domestication of Apples. Meeting Abstract. 5th International Rosaceae Genomics Conference, November 14-17, 2010. South Africa. pp. O51. Interpretive Summary: Species within Malus are genetically diverse. Individuals within the USDA-ARS National Plant Germplasm System have been identified with ploidies ranging from diploid to hexaploid. Chloroplast sequence data from seven regions have revealed genetic relationships among apple species and has aided in the assignment of individuals to specific species. We have also used both chloroplast sequence data and nuclear microsatellite data to determine genetic relationships among European cider apples and wild apple species including M. sieversii, M. orientalis, and M. sylvestris as well as species of Chinese origin. The integration of genetic data types over large populations of individuals will serve to understand the complex and reticulate history of apple domestication. Technical Abstract: Species within Malus are genetically diverse. Individuals within the USDA-ARS National Plant Germplasm System have been identified with ploidies ranging from diploid to hexaploid. Chloroplast sequence data from seven regions have revealed genetic relationships among apple species and has aided in the assignment of individuals to specific species. We have also used both chloroplast sequence data and nuclear microsatellite data to determine genetic relationships among European cider apples and wild apple species including M. sieversii, M. orientalis, and M. sylvestris as well as species of Chinese origin. The integration of genetic data types over large populations of individuals will serve to understand the complex and reticulate history of apple domestication. |
