Molecular markers in a commercial breeding program

Crop Science

Volumn 47, Issue SUPPL. DEC., 2007, Pages

  Eathington, Sam R ^a   Crosbie, Theodore M ^a   Edwards, Marlin D ^b   Reiter, Robert S ^a   Bull, Jason K ^a  

^a MONSANTO COMPANY   (United States)

^b Seminis Vegetable Seeds   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ZEA MAYS;

EID: 34548166134     PISSN: 0011183X     EISSN: None     Source Type: Journal    
DOI: 10.2135/cropsci2007.04.0015IPBS     Document Type: Conference Paper

References (34)

1. Akkaya, M.S., A.A. Bhagwat, and P.B. Cregan. 1992. Length polymorphisms of simple sequence repeat DNA in soybean. For. Genet. 132:1131-1139.
2. Botstein, D., R.L. White, M. Skolnick, and R.W. Davis. 1980. Construction of a genetic linkage map in man using restriction fragment length polymorphisms. Am. J. Hum. Genet. 32:314-331.
3. Charcosset, A., and A. Gallais. 2003. Application of markers in selection. p. 153-176. In D. de Vienne (ed.) Molecular markers in plant genetics and biotechnology. Science Publishers, Inc., Enfield, NH.
4. Cregan, P.B., T. Jarvik, A.L. Bush, R.C. Shoemaker, K.G. Lark, A.L. Kahler, and K.N. Van Toi. 1999. An integrated genetic linkage map of the soybean. Crop Sci. 39:1464-1490.
5. Crosbie, T.M., S.R. Eathington, G.R. Johnson, M. Edwards, R. Reiter, S. Stark, R.G. Mohanty, M. Oyervides, R.E. Buehler, A.K. Walker, R. Dobert, X. Delannay, J.C. Pershing, M.A. Hall, and K.R. Lamkey. 2006. Plant breeding: Past, present, and future. p. 3-50. In K.R. Lamkey and M. Lee (ed.) Plant breeding: The Arnel R. Hallauer international symposium. Blackwell Press, Ames, IA.
6. Darvasi, A., and M. Soller. 1995. Advanced intercross lines, an experimental population for fine genetic mapping. For. Genet. 141:1199-1207.
7. de Vienne, D., and M. Causse. 2003. Mapping and characterization quantitative trait loci. p. 89-124. In D. de Vienne (ed.) Molecular markers in plant genetics and biotechnology. Science Publishers, Inc., Enfield, New Hampshire.
8. Eathington, S.R., J.W. Dudley, and G.K. Rufener, II. 1997. Usefulness of marker QTL associations in early generation selection. Crop Sci. 37:1686-1693.
9. Edwards, M.D., and L. Johnson. 1994. RFLPs for rapid recurrent selection. p. 33-40. In Proc. Joint Plant Breeding Symposium Series of CSSA and ASHA, Corvallis, OR. 5-6 Aug. 1994. Am. Soc. of Hort. Sci., Alexandria, VA.
10. Falconer, D.S. 1960. Introduction to quantitative genetics. The Ronald Press Co., New York.
11. Falush, D., M. Stephens, and J.K. Pritchard. 2003. Inference of population structure using multilocus genotype data: Linked loci and correlated allele frequencies. For. Genet. 164:1567-1587.
12. Frisch, M. 2004. Breeding strategies: Optimum design of marker assisted backcross program. p. 319-334. In H. Lorz and G. Wenzel (ed.) Biotechnology in agriculture and forestry: Molecular marker systems in plant breeding and crop improvement. Vol. 55. Springer, Berlin.
13. Helentjaris, T., G. King, M. Slocum, C. Siedenstrang, and S. Wegman. 1985. Restriction fragment length polymorphisms as probes for plant diversity and as tools for applied plant breeding. Plant Mol. Biol. 5:109-118.
14. Hoisington, D.A., and A.E. Melchinger. 2004. From theory to practice: Marker-assisted selection in maize. p. 335-352. In H. Lorz and G. Wenzel (ed.) Biotechnology in agriculture and forestry: Molecular marker systems in plant breeding and crop improvement. Vol. 55. Springer, Berlin.
15. Jenkins, S., and N. Gibson. 2002. High-throughput SNP genotyping. Comp. Funct. Genom. 3:57-66.
16. Johnson, L. 2001. Marker assisted sweet corn breeding: A model for specialty crops. Proc. 56th Ann. Corn and Sorghum Research Conf., Am. Seed Trade Assoc. 56:25-30.
17. Johnson, R.G. 2003. Marker-assisted selection. p. 293-306. In J. Janick (ed.) Plant breeding reviews. Vol. 24, Part 1. Long-term selection: Maize. John Wiley and Sons, Inc., Hoboken, NJ.
18. Kearsey, M.J., and A.G.L. Farquhar. 1998. QTL analysis in plants; where are we now? Heredity 80:137-142.
19. Lande, R., and R. Thompson. 1990. Efficiency of marker assisted selection in the improvement of quantitative traits. For. Genet. 124:743-756.
20. Laurie, C.C., S.D. Chasalow, J.R. LeDeaux, R. McCarroll, D. Bush, B. Hauge, C. Lai, D. Clark, T.R. Rocheford, and J.W. Dudley. 2004. The genetic architecture of response to long-term artificial selection for oil concentration in the maize kernel. For. Genet. 168:2141-2155.
21. Lawrence, C.J., Q. Dong, M.L. Polacco, T.E. Seigfried, and V. Brendel. 2004. MaizeGDB, the community database for maize genetics and genomics. Nucleic Acids Res. 32:D393-D397.
22. Lawrence, C.J., M.L. Schaeffer, T.E. Seigfried, D.A. Campbell, and L.C. Harper. 2007. MaizeGDB's new data types, resources and activities. Nucleic Acids Res. 35:D895-D900.
23. Lawrence, C.J., T.E. Seigfried, and V. Brendel. 2005. The maize genetics and genomics database. The community resource for access to diverse maize data. Plant Physiol. 138:55-58.
24. Lee, M., N. Sharopova, W.D. Beavis, D. Grant, M. Katt, D. Blair, and A. Hallauer. 2002. Expanding the genetic map of maize with the intermated B73 x Mo17 (IBM) population. Plant Mol. Biol. 48:453-461.
25. Mohler, V., and C. Singrun. 2004. General considerations: Marker-assisted selection. p. 305-318. In H. Lorz and G. Wenzel (ed.) Biotechnology in agriculture and forestry: Molecular marker systems in plant breeding and crop improvement. Vol. 55. Springer, Berlin.
26. Padgette, S.R., K.H. Kolacz, X. Delannay, D.B. Re, B.J. LaVallee, C.N. Tinius, W.K. Rhodes, Y.I. Otero, G.F. Barry, D.A. Eichholtz, V.M. Peschke, D.L. Nida, N.B. Taylor, and G.M. Kishore. 1995. Development, identification, and characterization of a glyphosate-tolerant soybean line. Crop Sci. 35:1451-1461.
27. Paterson, A.H. 1998. High-resolution mapping of QTLs. p. 163-173. In A.H. Paterson (ed.) Molecular dissection of complex traits. CRC Press, New York.
28. Paterson, A.H., E.S. Lander, J.D. Hewitt, S. Peterson, S. Lincoln, and S.E. Tanksley. 1988. Resolution of quantitative traits into Mendelian factors by using a complete linkage map of restriction fragment length polymorphisms. Nature 335:721-726.
29. Pritchard, J.K., M. Stephens, and P. Donnelly. 2000a. Inference of population structure using multilocus genotype data. For. Genet. 155:945-959.
30. Pritchard, J.K., M. Stephens, N.A. Rosenberg, and P. Donnelly. 2000b. Association mapping in structured populations. Am. J. Hum. Genet. 67:170-181.
31. Spielman, R.S., R.E. McGinnis, and W.J. Ewens. 1993. Transmission test for linkage disequilibrium: The insulin gene region and insulin-dependent diabetes mellitus. Am. J. Hum. Genet. 52:506-513.
32. Stuber, C.W., and M.D. Edwards. 1986. Genotypic selection for improvement of quantitative traits in corn using molecular marker loci. Proc. 41st Annu. Corn and Sorghum Res. Conf., Am. Seed Trade Assoc. 41:70-83.
33. Thornsberry, J.M., M.M. Goodman, J. Doebly, S. Kresovich, D. Nielsen, and E.S. Buckler, IV. 2001. Dwarf8 polymorphisms associate with variation in flowering time. Nat. Genet. 28:286-289.
34. Xiong, M., and S. Guo. 1997. Fine-scale mapping of quantitative trait loci using historical recombinations. For. Genet. 145:1201-1218.