Population Genetics of Heterosis: Effects of Hardy-Weinberg Disequilibrium

COORS, J. G. and PANDEY, S.: The genetics and exploitation of heterosis in crop plants. Crop Science Society of America and American Society of Agronomy, Madison, WI (1999)Search in Google Scholar

COX, T. S. and MURPHY, J. P.: The effect of parental divergence on heterosis in winter wheat crosses. Theor Appl Genet 79: 241-250 (1990)10.1007/BF0022595824226225Search in Google Scholar

CRESS, C. E.: Heterosis of the hybrid related to gene frequency differences between two populations. Genetics 53: 269-274 (1966)10.1093/genetics/53.2.26912110155913285Search in Google Scholar

CROW, J. F.: Dominance and overdominance. In: J. W. GOWEN (ed.). Heterosis, pp. 282-297. Iowa State College Press, Ames, IA (1952) Search in Google Scholar

CROW, J. F.: Mutation, mean fitness, and genetic load. Evol Biol 9: 3-42 (1993)Search in Google Scholar

CROW, J. F.: Dominance and overdominance. In: COORS J. G., PANDEY, S. (eds.). The genetics and exploitation of heterosis in crop plants, pp. 49-58. Crop Science Society of America and American Society of Agronomy, Madison, WI (1999)Search in Google Scholar

FALCONER D. S. and MACKAY, T. F. C.: Introduction to quantitative genetics. 4th Edn. Longman Sci. and Tech., Harlow, UK (1996)Search in Google Scholar

GOODNIGHT, C. J.: Epistasis and heterosis. In: COORS, J. G., PANDEY, S. (eds.). The genetics and exploitation of heterosis in crop plants, pp. 59-68. Crop Science Society of America and American Society of Agronomy, Madison, WI (1999)Search in Google Scholar

GORDON, I. L.: Quantitative genetics of intraspecific hybrids. Heredity 83: 757-764 (1999) 10.1046/j.1365-2540.1999.00634.x10651921Open DOISearch in Google Scholar

GOWEN, I. W.: Heterosis. Iowa State College Press, Ames, IA (1952)Search in Google Scholar

HERNANDEZ, J. L. and WEIR, B. S.: A disequilibrium coefficient approach to Hardy-Weinberg testing. Biometrics 45: 53-70 (1989)10.2307/2532034Search in Google Scholar

LEBATE, J. A., LAMKEY, K. R., LEE, M. and WOODMAN, W. L.: Population genetics of increased hybrid performance between two maize populations under reciprocal recurrent selection. In: COORS, J. G., PANDEY, S. (eds.). The genetics and exploitation of heterosis in crop plants, pp. 127-137. Crop Science Society of America and American Society of Agronomy, Madison, WI (1999)10.2134/1999.geneticsandexploitation.c12Search in Google Scholar

LAMKEY, K. R. and EDWARDS, J. W.: Quantitative genetics of heterosis. In: COORS, J. G., PANDEY, S. (eds.). The genetics and exploitation of heterosis in crop plants, pp. 31-48. Crop Science of America and American Society of Agronomy, Madison, WI (1999)10.2134/1999.geneticsandexploitation.c4Search in Google Scholar

LI, B. and WU, R.: Genetic causes of heterosis in juvenile aspen: a quantitative comparison across intra- and interspecific crosses. Theor Appl Genet 93: 380-391 (1996)10.1007/BF0022318024162295Open DOISearch in Google Scholar

LI, C. C.: Pseudo-random mating population. In celebration of the 80th anniversary of the Hardy-Weinberg law. Genetics 119: 731-737 (1988)10.1093/genetics/119.3.73112034583402735Search in Google Scholar

RIESEBERG, L. H.: Hybrid origins of plant species. Annu Rev Ecol Syst 28: 359-389 (1997)10.1146/annurev.ecolsys.28.1.359Open DOISearch in Google Scholar

SCHNELL, F. W. and COCKERHAM, C. C.: Multiplicative vs. arbitrary gene action in heterosis. Genetics 131: 461-469 (1992). -10.1093/genetics/131.2.46112050181644280Search in Google Scholar

STETTLER, R. F., ZSUFFA, L. and WU, R.: The role of hybridization in the genetic manipulation of Populus. In: STETTLER, R. F., BRADSHAW, H. D. JR., HEILMAN, P. E., HINCKLEY, T. M. (eds.). Biology of Populus and its implications for management and conservation, pp 87-112. NRC Research Press, National Research Council of Canada, Ottawa, ON (1996).Search in Google Scholar

STUBER, C. W., LINCOLN, S. E., WOLFF, D. W., HELENTJARIS, T. and LANDER, E. S.: Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers. Genetics 132: 823-839 (1992)10.1093/genetics/132.3.82312052181468633Search in Google Scholar

WEIR, B. S.: Genetic data analysis II. Sinauer Associates, Sunderland, MA (1996)Search in Google Scholar

WILLIAMS, W.: Heterosis and the genetics of complex characters. Nature 184: 527-530 (1959).10.1038/184527a013844942Search in Google Scholar

WRIGHT, S.: The effect of inbreeding and crossbreeding on guinea pigs. III. Crosses between highly inbred families. Tech Bull USDA 1121, 60 pp (1922)10.5962/bhl.title.67257Search in Google Scholar

WU, R. L., WANG, M. X. and HUANG, M. R.: Quantitative genetics of yield breeding for Populus short rotation culture. I. Dynamics of genetic control and selection models of yield traits. Can J For Res 22: 175-182 (1992)10.1139/x92-023Search in Google Scholar

XIAO, J., LI, J., YUAN, L. and TANKSLEY, S. D.: Dominance is the major genetic basis of heterosis in rice as revealed by QTL analysis using molecular markers. Genetics 140: 745-754 (1995).10.1093/genetics/140.2.74512066497498751Search in Google Scholar

XU, Z. C. and ZHU, J.: An approach for predicting heterosis based on an additive, dominance and additive × additive model with environment interaction. Heredity 82: 510-517 (1999)10.1038/sj.hdy.688480010383671Open DOISearch in Google Scholar

YU, S. B., LI, J. X., TAN, X. F., GAO, Y. J., LI, X. H., ZHANG, Q. and MAROOF, M. A. S.: Importance of epistasis as the genetic basis of heterosis in an elite rice hybrid. Proc Natl Acad Sci USA 94: 9226-9231 (1997).10.1073/pnas.94.17.92262312711038567Open DOISearch in Google Scholar