Publications in English (1998- )(*Corresponding author)

[26]Zhang L, S. Wang, H. Li, Q. Deng, A. Zheng, S. Li, P. Li, Z. Li, J. Wang*, 2010. Effects of missing markers and segregation distortion on QTL mapping in F2 populations.Theor. Appl. Genet. (2010)121:1071-1082.

[25]Li, H., S. Hearne, M. Bänziger, Z. Li, J. Wang*, 2010. Statistical properties of QTL linkage mapping in biparental genetic populations.Heredity, (2010)105:257-267.

[24]Yanping Sun • Jiankang Wang •Jonathan H. Crouch • Yunbi Xu. 2010. Efficiency of selective genotyping for genetic analysis of complex traits and potential applications in crop improvement. Mol Breeding 26:493–511.

[23]Jiankang Wang*,Scott C. Chapman, David G. Bonnett, Greg J. Rebetzke. 2009. Simultaneous selection of major and minor genes: use of QTL to increase selection efficiency of coleoptile length of wheat(Triticum aestivum L.). Theor. Apple. Genet. 119:65-74.

[22]Jiankang Wang*, Ravi P. Singh, Hans-Joachin Braum, Wolfgang H. Pfeiffer. 2009.Investigating the efficiency of the single backcrossing breeding strategy through computer simulation. Theor. Appl. Genet. 118:683-694.

[21]Zhang,L., H. Li, Z. Li, and J. Wang*. 2008. Interactions Between Markers Can Be Caused by the Dominance Effect of Quantitative Trait Loci. Genetics 180:1177-1190.

[20] Li, H, J.-M. Ribaut, Z. Li, and J. Wang*. 2008.Inclusive composite interval mapping (ICIM) for digenic epistasis of quantitative traits in biparental populations. Theor. Appl. Genet. 116:243-260.

[19]Xue, Y., L. Jiang, N. Su, J. Wang, P. Deng, J. F. Ma, H. Q. Zhai, J. M. Wan*. 2007.The genetic basic and fine-mapping of a stable quantitative-trait loci for aluminium tolerance in rice.Planta 227:255-262.

[18] Li, G., K. W u*, F. Gould, J. Wang, J. Miao, X. Gao, and Y. Guo. 2007.Increasing tolerance to Cry 1Ac cotton from cotton bollworm, Helicoverpa armigera , was confirmed in Bt cotton farming area of China . Ecological Entomology 32:366-375.

[17] Wang, J., H. Li, X. Wan, W. Pfeiffer, J. Crouch, J. Wan*. 2007.Application of the identified QTL-marker associations in plant breeding. Theor. Appl. Genet. 115:87-100.

[16] Li, H, G. Ye, and J. Wang*. 2007.A modified algorithm for the improvement of composite interval mapping. Genetics 175:361-374.

[15] Wang, J., * and W. H. Pfeiffer. 2007.Simulation approach and its applications in plant breeding. Agricultural Sciences in China 6(8).

[14] Wang, J., * S.C. Chapman, D.B. Bonnett, G.J. Rebetzke, and J. Crouch. 2007.Application of population genetic theory and simulation models to efficiently pyramid multiple genes via marker-assisted selection. Crop Science 47:580-588.

[13] Wang, J., X. Wan, J. Crossa, J. Crouch, J. Weng, H. Zhai, and J. Wan*. 2006.QTL mapping of grain length in rice ( Oryza sativa L.) using chromosome segment substitution lines.Genetical Research 88: 93-104 .

[12] Wan X., J. Wan, * L. Jiang, J. Wang, H. Zhai, J. Weng, H. Wang, C. Lei, J. Wang, X. Zhang, Z. Cheng, X. Guo. 2006.QTL analysis for rice grain length and fine mapping of an identified QTL with stable and major effects. Theor. Appl. Genet. 112:1258-1270 .

[11] Wu, Q.-S., X.-Y. Wan, N. Su, Z.-J. Cheng, J.-K. Wang, C.-L. Lei, X. Zhang, L. Jiang, J.-F. Ma, J.-M. Wan*. 2006.Genetic dissection of silicon uptake ability in rice (Oryza sativa L.). Plant Science 171:441-448.

[10] Wang, J., * H.A. Eagles, R. Trethowan, and M. van Ginkel. 2005.Using computer simulation of the selection process and known gene information to assist in parental selection in wheat quality breeding. Aus. J. Agric. Res. 56:465-473.

[9] Wang, J., * J. Crossa, M. van Ginkel, and S. Taba . 2004.Statistical genetics and simulation models for genetic resources conservation.Crop Science 44 (6):2246-2253.

[8] Wang, J., * M. van Ginkel, R. Trethowan, G. Ye, I. DeLacy, D. Podlich, and M. Cooper. 2004.Simulating the effects of dominance and epistasis on selection response in the CIMMYT Wheat Breeding Program using QuCim. Crop Science 44 (6):2006-2018.

[7] Wang, J., * M. van Ginkel, R. Trethowan, G. Ye, I. DeLacy, D. Podlich, and M. Cooper. 2004.QuCim 1.1: A software that simulates breeding programs for self-pollinated crops (CD-ROM).Mexico D.F.:CIMMYT.

[6] Wang, J., * M. van Ginkel, D. Podlich, G. Ye, R. Trethowan, W. Pfeiffer, I.H. DeLacy, M. Cooper, and S. Rajaram. 2003.Comparison of two breeding strategies by computer simulation.Crop Science 43:1764-1773.

[5] van Ginkel, M., * R. Trethowan, A. Karim, J. Wang, and M. Lillemo. 2002.Guide to bread wheat breeding at CIMMYT (rev). Wheat Special Report No. 5. CIMMYT, Mexico, D.F., Mexico.

[4] Wang, J., * and J. Gai. 2001.Mixed inheritance model for resistance to agromyzid beanfly ( Melanagromyza sojae Zehntner) in soybean.Euphytica 122:9-18.

[3] Wang, J., D.W. Podlich * , M. Cooper, and I.H. DeLacy. 2001.Power of the joint segregation analysis method for testing mixed major-gene and polygene inheritance models of quantitative traits. Theor. Appl. Genet. 103:804-816.

[2] Wang, J., and R. Bernardo * . 2000.Variance of marker estimates of parental contribution to F 2 and BC 1 -derived inbreds. Crop Science 40:659-665.

[1] Gai, J . , * and J. Wang. 1998.Identification and estimation of a QTL model and its effects. Theor. Appl. Genet. 97:1162-1168.