Multiplexed Microsatellite Markers for the Genetic Analysis of Eucalyptus leucoxylon (Myrtaceae) and Their Utility for Ecological and Breeding Studies in other Eucalyptus Species

doi:10.1093/jhered/esi057

Journal of Heredity Advance Access originally published online on April 20, 2005
Journal of Heredity 2005 96(4):445-451; doi:10.1093/jhered/esi057

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Brief Communication

Multiplexed Microsatellite Markers for the Genetic Analysis of Eucalyptus leucoxylon (Myrtaceae) and Their Utility for Ecological and Breeding Studies in other Eucalyptus Species

K. M. Ottewell, S. C. Donnellan, G. F. Moran, and D. C. Paton

From the Department of Environmental Biology (Ottewell and Paton), Evolutionary Biology Unit and Centre for Evolutionary Biology and Biodiversity (Ottewell and Donnellan), University of Adelaide, North Terrace, Adelaide, SA, Australia 5000; CSIRO Forestry and Forestry Products, P.O. Box E4008, Kingston, ACT, Australia 2614 (Moran)

Address correspondence to D. C. Paton, Department of Environmental Biology, University of Adelaide.

Eucalyptus leucoxylon is a widespread woodland tree speciesfound in southeastern Australia that has suffered from, andcontinues to be, threatened by the impacts of habitat clearanceand degradation. Populations now consist predominantly of scatteredindividuals, and their conservation status is of increasingconcern. We report the development and characterization of aset of eight highly polymorphic microsatellite loci for E. leucoxylon.The loci can be amplified in three PCR multiplexes and electrophoresedin a single lane, allowing rapid throughput of large numbersof samples. A total of 111 alleles were detected in 68 individualswith an average of 12.3 alleles per locus, a mean expected heterozygosityof 0.83, and a mean observed heterozygosity of 0.72. The combinedprobabilities of identity and probabilities of paternity exclusionallow an extremely precise level of individual identification,indicating that these microsatellite markers will be ideal forpopulation genetic and parentage-type studies in E. leucoxylon.The markers also exhibited an average of 76% conservation withinthe subgenus Symphyomyrtus, to which E. leucoxylon belongs,and 53% conservation across other subgenera of Eucalyptus, demonstratingthe potential of these markers in ecological and breeding studiesin a wide range of Eucalyptus species.

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