[1]Molecular cytogenetic characterization of two partial wheat Elytrigia elongata amphiploids resistant to powdery mildew. He, Fang,Xu, Jinqiu,Qi, Xiaolei,Bao, Yinguang,Li, Xingfeng,Wang, Honggang,Zhao, Fengtao.

[2]Characterization of a partial amphiploid between Triticum aestivum cv. Chinese Spring and Thinopyrum intermedium ssp trichophorum. Yang, ZJ,Li, GR,Chang, ZJ,Zhou, JP,Ren, ZL. 2006

[3]Characterization of genomes and chromosomes in partial amphiploids of the hybrid Triticum aestivum x Thinopyrum ponticum by in situ hybridization, isozyme analysis, and RAPD. Zhang, XY,Dong, YS,Wang, RRC. 1996

[4]Genetic relationship and genomic in situ hybridization analysis of the three genomes in Triticum aestivum. Li, DY,Zhang, XY,Yang, J,Rao, GY. 2000

[5]Identification of Wheat-Barley 2H Alien Substitution Lines. Yuan, YP,Chen, X,Xiao, SH,Islam, AKMR,Xin, ZY.

[6]Molecular Characterization of a New Wheat-Thinopyrum intermedium Translocation Line with Resistance to Powdery Mildew and Stripe Rust. Zhan, Haixian,Li, Guangrong,Pan, Zhihui,Yang, Zujun,Zhan, Haixian,Zhang, Xiaojun,Hu, Jin,Li, Xin,Qiao, Linyi,Guo, Huijuan,Chang, Zhijian,Jia, Juqing,Chang, Zhijian. 2015

[7]Molecular cloning, functional verification, and evolution of TmPm3, the powdery mildew resistance gene of Triticum monococcum L.. Zhao, C. Z.,Li, Y. H.,Dong, H. T.,Geng, M. M.,Liu, W. H.,Li, F.,Ni, Z. F.,Xie, C. J.,Sun, Q. X.,Zhao, C. Z.,Dong, H. T.,Geng, M. M.,Liu, W. H.,Li, F.,Ni, Z. F.,Xie, C. J.,Sun, Q. X.,Zhao, C. Z.,Wang, X. J.. 2016

[8]Leaf rust resistance gene LR34 is involved in powdery mildew resistance of CIMMYT bread wheat line Saar. Lillemo, M.,Singh, R. P.,Huerta-Espino, J.,He, Z. H.,Brown, J. K. M.. 2007

[9]Microsatellite marker identification of a Triticum aestivum Aegilops umbellulata substitution line with powdery mildew resistance. Zhu, Zhendong,Zhou, Ronghua,Kong, Xiuying,Kong, Xiuying,Dong, Yuchen,Jia, Jizeng. 2006

[10]Analysis of differential transcriptional profiling in wheat infected by Blumeria graminis f. sp tritici using GeneChip. Wang, Jun-Mei,Liu, Hong-Yan,Wang, Jun-Mei,Liu, Hong-Yan,Xu, Hong-Ming,Li, Min,Wang, Jun-Mei,Liu, Hong-Yan,Kang, Zhen-Sheng,Kang, Zhen-Sheng,Kang, Zhen-Sheng. 2012

[11]Microsatellite markers linked to 2 powdery mildew resistance genes introgressed from Triticum carthlicum accession PS5 into common wheat. Zhu, ZD,Zhou, RH,Kong, XY,Dong, YC,Jia, JZ. 2005

[12]Comparative analysis of early H2O2 accumulation in compatible and incompatible wheat-powdery mildew interactions. Li, AL,Wang, ML,Zhou, RH,Kong, XY,Huo, NX,Wang, WS,Jia, JZ. 2005

[13]Gene expression profiling related to powdery mildew resistance in wheat with the method of suppression subtractive hybridization. Luo, M,Kong, XY,Huo, NX,Zhou, RH,Jia, JZ. 2002

[14]Intercropping influenced the occurrence of stripe rust and powdery mildew in wheat. Luo, Huisheng,Jin, Ming'an,Jin, Shelin,Jia, Qiuzhen,Zhang, Bo,Huang, Jin,Wang, Xiaoming,Sun, Zhenyu,Shang, Xunwu,Cao, Shiqin,Duan, Xiayu,Zhou, Yilin,Chen, Wanquan,Liu, Taiguo.

[15]AvrPm2 encodes an RNase-like avirulence effector which is conserved in the two different specialized forms of wheat and rye powdery mildew fungus. Praz, Coraline R.,Bourras, Salim,Sanchez-Martin, Javier,Menardo, Fabrizio,Roffler, Stefan,Boni, Rainer,Herren, Gerard,McNally, Kaitlin E.,Parlange, Francis,Oberhaensli, Simone,Fluckiger, Simon,Schafer, Luisa K.,Wicker, Thomas,Keller, Beat,Zeng, Fansong,Xue, Minfeng,Yang, Lijun,Yu, Dazhao,Zeng, Fansong,Xue, Minfeng,Yang, Lijun,Yu, Dazhao,Zeng, Fansong,Xue, Minfeng,Yang, Lijun,Yu, Dazhao,Ben-David, Roi.

[16]Genome-wide identification and functional prediction of novel and fungi-responsive lincRNAs in Triticum aestivum. Zhang, Hong,Hu, Weiguo,Hao, Jilei,Lv, Shikai,Wang, Changyou,Tong, Wei,Wang, Yajuan,Wang, Yanzhen,Liu, Xinlun,Ji, Wanquan,Hu, Weiguo. 2016

[17]Molecular cytogenetic discrimination and reaction to wheat streak mosaic virus and the wheat curl mite in Zhong series of wheat - Thinopyrum intermedium partial amphiploids. Chen, Q,Conner, RL,Li, HJ,Sun, SC,Ahmad, F,Laroche, A,Graf, RJ. 2003

[18]Molecular and Cytogenetic Characterization of a Powdery Mildew-Resistant Wheat-Aegilops mutica Partial Amphiploid and Addition Line. Liu, Cheng,Gong, Wen-Ping,Li, Gen-Ying,Han, Ran,Li, Hao-Sheng,Song, Jian-Min,Liu, Ai-Feng,Cao, Xin-You,Chu, Xiu-Sheng,Huang, Cheng-Yan,Zhao, Zhen-Dong,Liu, Jian-Jun,Li, Guang-Rong,Yang, Zu-Jun.

[19]Production and characterization of interspecific somatic hybrids between Brassica oleracea var. botrytis and B. nigra and their progenies for the selection of advanced pre-breeding materials. Wang, Gui-xiang,Tang, Yu,Sheng, Xiao-guang,Hao, Wei-wei,Zhang, Li,Lu, Kun,Liu, Fan,Yan, Hong. 2011

[20]Characterization of euploid backcross progenies derived from interspecific hybrids between Oryza sativa and O-eichingeri by restriction fragment length polymorphism (RFLP) analysis and genomic in situ hybridization (GISH). Yan, HH,Liu, GQ,Cheng, ZK,Min, SK,Zhu, LH. 2001