marker-assisted selection in wheat

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Chapter 14 – Marker-assisted selection in Eucalyptus 279Marcucci-Poltri, S.N., Zelener, N., Rodriguez Traverso, J., Gelid, P. & Hopp, H. 2003. Selection ofa seed orchard of Eucalyptus dunnii based on genetic diversity criteria calculated using molecularmarkers. Tree Physiol. 23: 625–32.Marques, C.M., Araujo, J.A., Ferreira, J.G., Whetten, R., O’Malley, D.M., Liu, B.H. & Sederoff,R. 1998. AFLP genetic maps of Eucalyptus globulus and E. tereticornis. Theor. Appl. Genet. 96:727–737.Marques, C.M., Vasquez-Kool, J., Carocha, V.J., Ferreira, J.G., O’Malley, D.M., Liu, B.H. &Sederoff, R. 1999. Genetic dissection of vegetative propagation traits in Eucalyptus tereticornis andE. globulus. Theor Appl Genet 99: 936–946.Marques, C.M., Brondani, R.P.V., Grattapaglia, D. & Sederoff, R. 2002. Conservation and syntenyof SSR loci and QTLs for vegetative propagation in four Eucalyptus species. Theor. Appl. Genet.105: 474–478.Martin, B. & Quillet, J. 1974. The propogation by cuttings of forest trees in the Congo. Bois et Forêtsdes Tropiques 155: 15–33.Mauricio, R. 2001. Mapping quantitative trait loci in plants: uses and caveats for evolutionary biology.Nature Revs. Genet. 2: 370–381.Missiaggia, A.A., Piacezzi, A.L. & Grattapaglia, D. 2005. Genetic mapping of Eef1, a major effectQTL for early flowering in Eucalyptus grandis. Tree Genet. & Genomes 1: 79–84.Moran, G.F. & Bell, J.C. 1983. Eucalyptus. In S.D. Tanksley & T.J. Orton, eds. Isozymes in plantgenetics and breeding, pp. 423–441. Amsterdam, Elsevier.Moran, G., Bell, J.C. & Griffin, A.R. 1989. Reduction in levels of inbreeding in a seed orchard ofEucalyptus regnans F. Muell, compared with natural populations. Silvae Genet. 38: 32–36.Moran, G.F., Thamarus, K.A., Raymond, C.A., Qiu, D., Uren, T. & Southerton, S.G. 2002.Genomics of Eucalyptus wood traits. Ann. For. Sci. 59: 645–650.Myburg, A.A. 2001. Genetic architecture of hybrid fitness and wood quality traits in a wide interspecificcross of Eucalyptus tree species. North Carolina State University, Raleigh, NC (PhD thesis;available at www.lib.ncsu.edu/theses/available/etd-20010723-175234).Myburg, A.A. 2004. The International Eucalyptus Genome Consortium (IEuGC): Opportunities andResources for Collaborative Genome Research in Eucalyptus. In B. Li, & S. McKeand, eds. Proc.IUFRO Conf. Forest Genet. & Tree Breeding in the Age of Genomics: Progress and Future, pp.154–155. Charleston, SC, USA.Myburg, A.A., Griffin, A.R., Sederoff, R.R. & Whetten, R.W. 2003. Comparative genetic linkagemaps of Eucalyptus grandis, Eucalyptus globulus and their F1 hybrid based on a double pseudobackcrossmapping approach. Theor. Appl. Genet. 107: 1028–42.Myburg, A.A., Potts, B., Marques, C.M., Kirst, M., Gion, J.M., Grattapaglia, D. & Grima-Pettenati, J. 2006. Eucalyptus. In C. Kole, ed. Genome mapping & molecular breeding in plantsvolume 7: forest trees. Heidelberg, Berlin, New York and Tokyo, Springer (in press).Neale, D.B. & Savolainen, O. 2004. Association genetics of complex traits in conifers. Trends PlantSci. 9: 325–330.Nesbitt, K.A., Potts, B.M., Vaillancourt, R.E., West, A.K. & Reid, J.B. 1995. Partitioning and distributionof RAPD variation in a forest tree species, Eucalyptus globulus (Myrtaceae). Heredity 74:628–637.Nesbitt, K.A., Potts, B.M., Vaillancourt, R.E. & Reid, J.B. 1997. Fingerprinting and pedigree analysisin Eualyptus globulus using RAPDs. Silvae Genet. 46: 6–11.
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MARKER-ASSISTED SELECTIONCurrent st
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iiiContentsAcknowledgementsForeword
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Section v - marker-assisted selecti
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viiithe specific gene or chromosome
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CIATCIMMYTCIPCIRADcMCMDCMVCORPOICAC
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xiiISNARISSRITPGRFAJGIKARILDLDLLD-M
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xvContributorsAmalia BaroneProfesso
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xviiElcio Perpétuo GuimarãesSenio
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xixAndrea SonninoSenior Agricultura
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Chapter 1Marker-assisted selection
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Chapter 1 - An overview of the issu
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16Marker-assisted selection - Curre
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Chapter 3Molecular markers for use
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Chapter 3 - Molecular markers for u
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Chapter 6Targeted introgression of
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Chapter 10Strategies, limitations a
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Chapter 19Technical, economic and p
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