marker-assisted selection in wheat

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Chapter 8 – Marker-assisted selection in maize 145Coe, E., Hancock, D., Kowalewski, S. & Polacco, M. 1995. Gene list and working maps. MaizeGenet. Coop. Newsl. 69: 191–267.Concibio, V.C., La Vallee, B., McLaird, P., Pineda, N., Meyer, J., Hummer, L., Yang, J., Wu, K. &Delannay, X. 2003. Introgression of a quantitative trait locus for yield from Glycine soja into commercialsoybean cultivars. Theor. Appl. Genet. 106: 575–582.Crosbie, T.M., Eathington, S.R., Johnson, G.R., Edwards, M., Reiter, R., Stark, S., Mohanty, R.G.,Oyervides, M., Buehler, R.E., Walker, A.K., Dobert, R., Delannay, X., Pershing, J.C., Hall, M.A.& Lamkey, K.R. 2006. Plant breeding: past, present, and future. In K.R. Lamkey & M. Lee, eds.Plant Breeding: The Arnel R. Hallauer Internat. Symp. Ames, IA, USA., Blackwell Publishing.Davis, G.L., McMullen, M.D., Baysdorfer, C., Musket, T., Grant, D., Staebell, M., Xu, G., Polacco,M., Koster, L., Melia-Hancock, S., Houchins, K., Chao, S. & Coe Jr., E.H. 1999. A maize mapstandard with sequenced core markers, grass genome reference points and 932 expressed sequencetagged sites (ESTs) in a 1736-locus map. Genetics 152: 1137–1172.Delmer, D.P. 2005. Agriculture in the developing world: connecting innovations in plant research todownstream applications. Proc. Natl. Acad. Sci. USA 102: 15739–15746.Duvick, D.N., Smith, J.S.C. & Cooper, M. 2004. Long-term selection in a commercial hybrid maizebreeding program. In J. Janick, ed. Plant Breeding Rev. 24: 109–152.Eathington, S.R. 2005. Practical applications of molecular technology in the development of commercialmaize hybrids. Proc. 60 th Ann. Corn and Sorghum Seed Res. Conf. Washington, D.C.,USA, American Seed Trade Association.Eathington, S.R., Dudley, J.W. & Rufener, G.K. 1997. Usefulness of marker-QTL associations inearly generation selection. Crop Sci. 37: 1686–1693.Edwards, M. & Johnson, L. 1994. RFLPs for rapid recurrent selection. Proc. Symp. Analysis ofMolecular Marker Data, pp. 33–40. Corvallis, OR, USA, American Society of HorticulturalScience and Crop Science Society of America.Edwards, M.D. & Page, N.J. 1994. Evaluation of marker-assisted selection through computer simulation.Theor. Appl. Genet. 88: 376–382.Fehr, W.R. 1987. Principles of cultivar development. New York, USA, Macmillan.Frisch, M. & Melchinger, A.E. 2001a. Marker-assisted backcrossing for introgression of a recessivegene. Crop Sci. 41: 1485–1494.Frisch, M. & Melchinger, A.E. 2001b. Marker-assisted backcrossing for simultaneous introgressionof two genes. Crop Sci. 41: 1716–1725.Frisch, M., Bohn, M. & Melchinger, A.E. 1999a. Minimal sample size and optimal positioning of flankingmarkers in marker-assisted backcrossing for transfer of a target gene. Crop Sci. 39: 967–975.Frisch, M., Bohn, M. & Melchinger, A.E. 1999b.Comparison of selection strategies for markerassistedbackcrossing of a gene. Crop Sci. 39: 1295–1301.Fu, H. & Dooner, H.K. 2002. Intraspecific violation of genetic co-linearity and its implications inmaize. Proc. Natl. Acad. Sci. USA 99: 9573–9578.Gallais, A., Dillmann, C. & Hospital, F. 1997. An analytical approach of marker assisted selectionwith selection on markers only. In R. Krajewski & Z. Kaczmarek, eds. Advances in biometricalgenetics. Proc.10 th . Mtg. EUCARPIA Section Biometrics in Plant Breeding, pp. 111–116. Poznan,Institute of Plant Genetics, Polish Academy of Sciences.Gelman, A., Carlin, J.B., Stern, H.S. & Rubin, D.B. 2004. Bayesian data analysis, 2nd edition. BocaRaton, FL, USA, Chapman and Hall/CRC.
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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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Section VMarker-assisted selectioni
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