NED365343NED

167 328. Williams J.G.K., Kubelik A.R., Livak K.J., Rafalski J.A., Tingey S.V. DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucl. Acids Res. 1990. 18: 6231-6235 329. Williams J.G.K., Hanafey M.K., Rafalski J.A., Tingey S.V. Genetic analysis using random amplified polymorphic markers. Methods Enzymol. 1993. 218: 704-740 330. Whittaker J.C., Curnow R.N., Haley C.S., Thompson R. Using marker-maps in marker-assisted selection. Genet. Res. 1995. 66: 255-265 331. Wolyn D.J., Borevitz J.O., Loudet O., Scwartz C., Maloof J., Ecker J.R., Berry C.C., Chory J. Light-response quantitative trait loci identified by compo- site interval mapping and eXtreme array mapping in Arabidopsis thaliana . Ge- netics. 2004. 167: 907-917 332. Wright S. Evolution in Mendelian populations. Genetics. 1931. 16: 97-159 333. Wu J., Maehara T., Shimokawa T., Yamamoto S., Harada C., Takazaki Y., Ono N., Mukai Y., Koike K., Yazaki J., Fujii F., Shomura A., Ando T., Kono I., Waki K., Yamamoto K., Yano M., Matsumoto T., Sasaki T. A comprehen- sive rice transcript map containing 6591 expressed sequence tag sites. Plant Cell. 2002. 14: 525-535 334. Wu K.S., Tanksley S.D. Abundance polymorphism and genetic mapping of mi- crosatellites in rice. Mol. Gen. Genet. 1993. 241: 225-235 335. Xu S. Estimating polygenic effects using markers of the entire genome. Genetics. 2003. 163: 789-801 336. Xu Y., Crouch J.H. Marker-assisted selection in plant breeding: from publica- tions to practice. Crop Sci. 2008. 48: 391-407 337. Xu Y., Lu Y., Xie C., Gao S., Wan J., Prasanna B.M. Whole-genome strate- gies for marker-assisted plant breeding. Mol. Breeding. 2012. 29: 833-854 338. Yang G.P., Saghai-Maroof M.A., Xu C.G., Zhang Q., Biayshev R.M. Com- parative analysis of microsatellite DNA polymorphism in landraces and cultivars of rice. Mol. Gen. Genet. 1994. 245: 187-194 339. Young N.D. A cautiously optimistic vision for marker-assisted breeding. Mol. Breeding. 1999. 5: 505-510 340. Young N.D., Tanksley S.D. RFLP analysis of the size of the chromosomal seg- ments retained around the Tm-2 locus of tomato during back-cross breeding. Theor. Appl. Genet. 1989. 77: 353-359 341. Yousef G.G., Juvik J.A. Comparison of phenotypic and marker-assisted selec- tion for quantitative traits in sweet corn. Crop Sci. 2001. 41: 645-655 342. Yu K., Park S.J., Poysa V. Marker assisted selection of common beans for re- sistance to common bacterial blight: efficacy and economics. Plant Breed. 2000. 119: 411-415 343. Zhang W., Smith C. Computer simulation of marker assisted selection utilizing linkage disequilibrium. Theor. Appl. Genet. 1992. 83: 813-820 344. Zhang W., Smith C. Simulation of marker-assisted selection utilizing linkage disequilibrium: the effect of several additional factors. Theor. Appl. Genet. 1993. 86: 492-496 345. Zhivotovsky L. Estimating population structure in diploids with multilocus dom- inant DNA markers. Molecular Ecology. 1999. 8: 907-913