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variation in chromosome number and genome size among species of the Betulaceae, some degree of microsatellite marker transferability is expected based on results in other plant families. Microsatellites, also known as simple sequence repeats (SSR), are

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’, ‘Weeping Red’, ‘Wichita’, ‘William Toovey’, NA63872, NA67620, and NA69850]. The polymorphic markers were also tested for cross-species amplification in L. fauriei (‘Kiowa’), L. limii , and L. subcostata (NA40181). Microsatellite amplification was

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length polymorphism (RFLP), random amplified polymorphic DNA (RAPD), amplified fragment length polymorphism (AFLP), and microsatellites or simple sequence repeat (SSR)]. RAPD and AFLP markers are dominant and present limited reproducibility ( Jones et al

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: SRA054037. These resources can be used to develop additional microsatellite or single nucleotide polymorphic markers for further molecular studies. Literature Cited Bay, L. Howells, E. van Oppen, M. 2009 Isolation, characterisation and cross

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. Microsatellite markers, or SSRs, are an efficient method to assess the genetic diversity and population structure of plant populations [ Powell et al. (1996) ; reviewed in Varshney et al. (2005) ; Wang et al. (2009 )], and have proved useful for guiding

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(ISSR) markers to assay genetic diversity in Chinese populations of R. tanguticum , whereas Wang (2011) optimized ISSR–polymerase chain reaction in R. officinale , R. palmatum , and R. tanguticum . Compared with AFLPs and ISSRs, microsatellite or

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informativeness of a small number of available molecular markers. The development of three sets of microsatellite markers ( Ashworth et al., 2004 ; Borrone et al., 2007 ; Sharon et al., 1997 ) expands the potential number of fully informative markers available

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-scale spatial genetic structure, mating system, or gene flow among populations in both its native and introduced ranges are of interest to foresters and ecologists. Over previous decades, microsatellites have emerged as markers of choice in such analyses because

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related taxa making it possible to study other species whose genome sequence data are not available. The objective of this study was to develop microsatellite markers for A. melanocarpa and assess their transferability to A. arbutifolia and A

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., 2003 ). In this report, we describe the development of the first polymorphic microsatellite markers for ongoing molecular genetic research in kentucky bluegrass. Total genomic DNA was extracted from a single plant of the kentucky bluegrass cultivar

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