[1]Denissen C J M. Influence of race and post infection temperature on two components of partial resistance to wheat leaf rust in seedlings of wheat. Euphytica, 1991, 58: 13-20.[2]贾继增. 小麦的抗叶锈基因及其抗源. 麦类作物, 1990, 2: 32-34.Jia J Z. Wheat leaf rust resistance gene and antigen. Triticeae Crops, 1990, 2: 32-34. (in Chinese)[3]Kolmer J A. Genetics of resistance to wheat leaf rust. Annual Review of Phytopathology, 1996, 34: 435-455.[4]杨武云, 余 毅, 胡晓蓉, 杨家秀, 颜 济, 杨俊良, 郑有良. 节节麦及其在小麦生物技术育种的研究与应用. 西南农业学报, 1999, 12: 19-25.Yang W Y, Yu Y, Hu X R, Yang J X, Yan J, Yang J L, Zheng Y L. Exploring useful genes in Aegilops tauschii for modern commercial wheat improvement by biotechnology. Southwest China Journal of Agricultural Sciences, 1999, 12: 19-25. (in Chinese)[5]孔令让, 董玉琛. 粗山羊草 (Aegilops tauschii) 有效利用的研究进展. 山东农业大学学报, 1998, 29(4): 543-548.Kong L R, Dong Y S. Progress in effective utilization of Aegilops tauschii (Coss.) Schmal.. Journal of Shandong Agricultural University, 1998, 29(4): 543-548. (in Chinese)[6]Gill B S, Sharma H C, Raupp W J, Browder L E, Hatchett J H, Harvey T L, Moseman J G, Waines J G. Evaluation of Aegilops species for resistance to wheat powdery mildew, wheat leaf rust, hessian fly, and greenbug. Plant Disease, 1985, 69(4): 314-316.[7]Huang L, Gill B S. An RGA-like marker detects all known Lr21 leaf rust resistance gene family members in Aegilops tauschii and wheat. Theoretical and Applied Genetics, 2001, 103: 1007-1013.[8]Hiebert C W, Thomas J B, Somers D J, McCallum B D, Fox S L. Microsatellite mapping of adult-plant leaf rust resistance gene Lr22a in wheat. Theoretical and Applied Genetics, 2007, 115: 877-884.[9]Kerber E R. Resistance to leaf rust in hexaploid wheat: Lr32, a third gene derived from Triticum tauschii. Crop Science, 1987, 27: 204-206.[10]Raupp W J, Singh S, Brown-Guedira G L, Gill B S. Cytogenetic and molecular mapping of the leaf rust resistance gene Lr39 in wheat. Theoretical and Applied Genetics, 2001, 102: 347-352.[11]Cox T S, Raupp W J, Gill B S. Leaf rust-resistance genes Lr41, Lr42 and Lr43 transferred from Triticum tauschii to common wheat. Crop Science, 1994, 34: 339-343.[12]McIntosh R A, Lagudah E S. Cytogenetical studies in wheat. XVIII. Gene Yr24 for resistance to stripe rust. Plant Breeding, 2000, 119: 81-83. [13]Singh R P, Nelson J C, Sorrells M E. Mapping Yr28 and other genes for resistance to stripe rust in wheat. Crop Science, 2000, 40: 1148-1155. [14]张海泉, 符晓棠, 郝晨阳, 张宝石. 小麦白粉病抗性基因的研究进展. 沈阳农业大学学报, 2003, 34(1): 68-71. Zhang H Q, Fu X T, Hao C Y, Zhang B S. Progress of studies on powdery mildew resistance genes in wheat. Journal of Shenyang Agricultural University, 2003, 34(1): 68-71. (in Chinese)[15]Miranda L M, Murphy J P, Marshall D, Leath S. Pm34: a new powdery mildew resistance gene transferred from Aegilops tauschii Coss. to common wheat (Triticum aestivum L). Theoretical and Applied Genetics, 2006, 113: 1497-1504. [16]Miranda L M, Murphy J P, Marshall D, Cowger C, Leath S. Chromosomal location of Pm35, a novel Aegilops tauschii derived powdery mildew resistance gene introgressed into common wheat (Triticum aestivum L.). Theoretical and Applied Genetics, 2007, 114: 1451-1456.[17]孔令让, 董玉琛, 贾继增. 普通小麦与粗山羊草属间杂种的染色体构型及后代的育性特征. 实验生物学报, 1997, 30(1): 35-43.Kong L R, Dong Y S, Jia J Z. Chromosome configurations and fertility characteristics of hybrids between Triticum aestivum L. and Aegilops tauschii (coss.) schmal. Acta Biologiae Experimentalis Sinica, 1997, 30(1): 35-43. (in Chinese) [18]张 娜, 杨文香, 王海燕, 郄艳敏, 贾继增, 刘大群. 23 个二倍体小麦材料抗叶锈性的分子鉴定. 麦类作物学报, 2008, 28(4): 691-696. Zhang N, Yang W X, Wang H Y, Qie Y M, Jia J Z, Liu D Q. Molecular identification of leaf rust resistance in 23 diploid wild relatives of wheat. Journal of Triticeae Crops, 2008, 28(4): 691-696. (in Chinese)[19]冯丽娜, 刘常红, 杨文香, 刘大群, 贾继增. 粗山羊草苗期抗叶 锈性鉴定及抗叶锈基因推导. 河北农业大学学报, 2008, 31(5): 75-80.Feng L N, Liu C H, Yang W X, Liu D Q, Jia J Z. Resistance surveying of wheat leaf rust and postulation of resistant genes in Aegilops tauschii. Journal of Agricultural University of Hebei, 2008, 31(5): 75-80. (in Chinese)[20]Roelfs A P, Singh R P, Saari E E. Rust Diseases of Wheat: Concepts and Methods of Disease Management. Mexico: D.F. ClMMYT, 1992: 7-14.[21]Gill K S, Lubbers E L, Gill B S, Raupp W J, Cox T S. A genetic linkage map of Triticum tauschii (DD) and its relationship to the D genome of bread wheat (AABBDD). Genome, 1991, 34: 362-374.[22]Michelmore R W, Paran I, Kesseli R V. Identification of markers linked to disease-resistance genes by bulked segregant analysis: A rapid method to detect markers in specific genomic regions by using segregating populations. Proceedings of the National Academy of Sciences of the United States of America, 1991, 88: 9828-9832.[23]Dubin H J, Johnson R. Postulated genes for resistance to strip rust in selected CIMMYT and related wheats. Plant Disease, 1989, 73: 472-475.[24]Singh S, Franks C D, Huang L, Brown-Guedira G L, Marshall D S, Gill B S, Fritz A. Lr41, Lr39, and a leaf rust resistance gene from Aegilops cylindrica may be allelic and are located on wheat chromosome 2DS. Theoretical and Applied Genetics, 2004, 108: 586-591.[25]McIntosh R A, Dubcovsky J, Rogers W J, Morris C, Appels R, Xia X C. Catalogue of gene symbols for wheat: 2010 supplement. Annual Wheat Newsletter, 2010: www. shigen.nig.ac.jp/wheat/komugi/genes/ macgene/supplement 2010.[26]Boyko E V, Gill K S, Mickelson-Young L, Nasuda S, Raupp W J, Ziegle J N, Singh S, Hassawi D S, Fritz A K, Namuth D, Lapitan N L V, Gill B S. A high-density genetic linkage map of Aegilops tauschii, the D-genome progenitor of bread wheat. Theoretical and Applied Genetics, 1999, 99: 16-26. |