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J. J. Zhang, Zhang, X. Q., Liu, Y. H., Liu, H. M., Wang, Y. B., Tian, M. L., and Huang, Y. B., Variation characteristics of the nitrate reductase gene of key inbred maize lines and derived lines in China, vol. 9, pp. 1824-1835, 2010.
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Selection and application of superior maize inbred line Dan340. J. Maize Sci. 10: 30-33.   Schrag TA, Mohring J, Melchinger AE, Kusterer B, et al. (2010). Prediction of hybrid performance in maize using molecular markers and joint analyses of hybrids and parental inbreds. Theor. Appl. Genet. 120: 451-461. PMid:19916002   Sivasankar S and Oaks A (1995). Regulation of nitrate reductase during early seedling growth (a role for asparagine and glutamine). Plant Physiol. 107: 1225-1231. PMid:12228428 PMCid:157256   Stevens R (2008). Prospects for using marker-assisted breeding to improve maize production in Africa. J. Sci. Food Agric. 88: 745-755.   Stöhr C and Ullrich WR (1997). A succinate-oxidising nitrate reductase is located at the plasma membrane of plant roots. Planta 203: 129-132.   Szalma SJ, Hostert BM, Ledeaux JR, Stuber CW, et al. (2007). QTL mapping with near-isogenic lines in maize. Theor. Appl. Genet. 114: 1211-1228. PMid:17308934   Taramino G and Tingey S (1996). 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The important position of huangzaosi in maize breeding and production in China. J. Maize Sci. 4: 1-6.   Zhang SH (2005). Maize Production and Research in China: Advancement and Challenges, p. 3. In: Proceedings of the Ninth Asia Regional Maize Workshop, September 5-9, Beijing.   Zhang JH, Zhang JY, Yang XH, Jin H, et al. (2007). A study on genetic relationship of main maize inbred lines in Yunnan by SSR markers. J. Maize Sci. 15: 30-35.   Zhuang QS (2003). Chinese Wheat Improvement and Pedigree Analysis. Agricultural Publishing House, Beijing.