marker-assisted selection in wheat - ictsd

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Chapter 8 – Marker-assisted selection in maize 149mation of the target repeats using a CT primer. Genome 36: 884–889.Senior, M.L., Chin, E.C.L., Lee, M., Smith, J.S.C. & Stuber, C.W. 1996. Simple sequence repeatmarkers developed from maize sequences found in the GENEBANK database: Map construction.Crop Sci. 36: 1676–1683.Servin, B. & Hospital, F. 2002. Optimal positioning of markers to control genetic background inmarker-assisted backcrossing. J. Hered. 93: 214–217.Shattuck-Eidens, D.M., Bell, R.N., Neuhausen, S. & Helentjaris, T. 1990. DNA sequence variationwithin maize and melon: Observations from polymerase chain reaction and direct sequencing.Genetics 126: 207–217.Skroch, P. & Nienhuis, J. 1995. Impact of scoring error and reproducibility of RAPD data on RAPDbased estimates of genetic distance. Theor. Appl. Genet. 91: 1086–1091.Smith, J.S.C. &. Smith, O.S. 1992. Fingerprinting crop varieties. Adv. Agron. 47: 85–140.Smith, O.S., Hoard, K., Shaw, F. & Shaw, R. 1999. Prediction of single-cross performance. In J. G.Coors & S. Pandey, eds. The genetics and exploitation of heterosis in crops, pp. 277–285. Madison,WI, USA, American Society of Agronomy.Sprague, G.F. &. Dudley, J.W. 1988. Corn and corn improvement, 3rd edition. Madison, Wisconsin,USA, American Society of Agronomy.Stam, P. 1995. Marker-assisted breeding. In J.W. Van Ooijen & J. Jansen, eds. Biometrics in plantbreeding: applications of molecular markers. Proc. 9 th Mtg. EUCARPIA Section on Biometrics inPlant Breeding, pp. 32–44. Wageningen, Netherlands, CPRO-DLO.Stromberg, L.D., Dudley, J.W. & Rufener, G.K. 1994. Comparing conventional early generationselection with molecular marker assisted selection in maize. Crop Sci. 34: 1221–1225.Stuber, C.W. 1992. Biochemical and molecular markers in plant breeding. In J. Janick, ed. PlantBreeding Rev. pp 37–61.Stuber, C.W. & Moll, R.H. 1972. Frequency changes of isozyme alleles in a selection experiment forgrain yield in maize (Zea mays L.). Crop Sci. 12: 337–340.Tanksley, S.D., Young, N.D., Patterson, A.H. & Bonierbale, M.W. 1989. RFLP mapping in plantbreeding: New tools for an old science. Biotech. 7: 257–264.Tanksley, S.D., Grandillo, S., Fulton, T.M., Zamir, D., Eshed, Y., Petiard, V., Lopez, J. & Beck-Bunn, T. 1996. Advanced backcross QTL analysis in a cross between an elite processing line oftomato and its wild relative L. pimpinellifolium. Theor. Appl. Genet. 92: 213–224.Tautz, D. 1989. Hypervariability of simple sequences as a general source for polymorphic DNA.Nucl. Acids Res. 17: 6463–6471.Thornsberry, J.M., Goodman, M.M., Doebley, J., Kresovich, S., Nielsen, D. & Buckler, E.S. 2001.Dwarf8 polymorphisms associate with variation in flowering time. Nature Genet. 28: 286–289.Troyer, A.F. 2004. Persistent and popular germplasm in seventy centuries of corn evolution. In C.W.Smith, J. Betrán & E.C.A. Runge, eds. Corn: origin, history, technology, and production, pp. 133–232. Hoboken, NJ, USA, John Wiley & Sons.Utz, H.F. & Melchinger, A.E. 1996. PLABQTL: a program for composite interval mapping of QTL.J. Quant. Trait Loci 2: 1.van Berloo, R. & Stam, P. 1998. Marker-assisted selection in autogamous RIL populations: a simulationstudy. Theor. Appl. Genet. 96: 147–154.van Berloo, R. & Stam, P. 2001. Simultaneous marker-assisted selection for multiple traits in autogamouscrops. Theor. Appl. Genet. 102: 1107–1112.
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iiiContentsAcknowledgementsForeword
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Section v - marker-assisted selecti
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viiForewordSince almost the beginni
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ixAbbreviations and acronymsAATFAB-
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xiFIVIMSFNPFSCFSILGABIGASGCAGCPGDPG
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xiiiOBMOECDOIEOPVPAGEPBRsPCRPGRFAPI
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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 6Targeted introgression of
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