[1]Soil Insect Diversity and Abundance Following Different Fertilizer Treatments on the Loess Plateau of China. Lin Ying-hua,Lu Ping,Lin Ying-hua,Lu Ping,Yang Xue-yun,Zhang Fu-dao. 2013

[2]Occurrence of soil insect pests: insight from classical identification supplemented with DNA barcoding. Li, K.,Yin, J.,Zhang, S.,Kajuga, J.,Hategekimana, A.,Waweru, B.,Li, H.,Li, H..

[3]Host shift capability of a specialist seed predator of an invasive plant: roles of competition, population genetics and plant chemistry. Tuda, M.,Wu, L. -H.,Wu, W. -J.,Yamada, N.,Kagoshima, K.,Wang, C. -P.,Buranapanichpan, S.,Chen, Z. -Q.,Teramoto, K. K.,Kumashiro, B. R.,Heu, R..

[4]Isolation and Identification of Bacillus amyloliquefaciens IBFCBF-1 with Potential for Biological Control of Phytophthora Blight and Growth Promotion of Pepper. Zhang, Mengjun,Li, Jilie,Shen, Airong,Tan, Taimeng,Shen, Airong,Tan, Shiyong,Yan, Zhun,Yu, Yongting,Xue, Zhaodong,Zeng, Liangbin.

[5]Antagonistic Streptomyces enhances defense-related responses in cotton for biocontrol of wilt caused by phytotoxin of Verticillium dahliae. Xue, Lei,Lu, Jian-Jun,Xue, Lei,Gu, Mei-Ying,Xu, Wan-Li,Xue, Quan-Hong.

[6]Colonization of Clonostachys rosea on soybean root grown in media inoculated with Fusarium graminearum. Pan, F.,Xu, Y.,Xue, Allen G.,McLaughlin, Neil B.,Li, S.,Zhao, D.,Qu, H..

[7]Transformation of the endochitinase gene Chi67-1 in Clonostachys rosea 67-1 increases its biocontrol activity against Sclerotinia sclerotiorum. Sun, Man-Hong,Zhou, Mo,Li, Shi-Dong. 2017

[8]Effects of culture conditions on spore types of Clonostachys rosea 67-1 in submerged fermentation. Chen, Y. M.,Liu, J. F.,Li, S. D.,Ma, G. Z.. 2014

[9]Effect of pyramiding Bt and CpTI genes on resistance of cotton to Helicoverpa armigera (Lepidoptera: Noctuidae) under laboratory and field conditions. Jinjie Cui,Junyu Luo,Wopke Van Der Werf,Yan Ma,Jingyuan Xia.

[10]Effect of chemical additives on Bacillus thuringiensis (Bacillales: Bacillaceae) against Plutella xylostella (Lepidoptera: Pyralidae). Zhang, L.,Huang, T.,Huang, Z.,Xu, L.,Wu, C.,Guan, X.,Qiu, S.,Gelbic, I..

[11]A multicomponent sugar phosphate sensor system specifically induced in Bacillus cereus during infection of the insect gut. Peng, Qi,Buisson, Christophe,Lereclus, Didier,Nielsen-LeRoux, Christina,Song, Fuping,Peng, Qi,Zhang, Jie,Nielsen-LeRoux, Christina,Huang, Dafang,Brillard, Julien,Broussolle, Veronique,Brillard, Julien,Broussolle, Veronique,de Been, Mark,Abee, Tjakko.

[12]Pyramiding of Bt cry1Ia8 and cry1Ba3 genes into cabbage (Brassica oleracea L. var. capitata) confers effective control against diamondback moth. Cui, Lei,Wang, Li,Liu, Yumei,Zhuang, Mu,Zhang, Yangyong,Fang, Zhiyuan,Yang, Limei,Zhang, Jie,Lang, Zhihong.

[13]The midgut cadherin-like gene is not associated with resistance to Bacillus thuringiensis toxin Cry1Ac in Plutella xylostella (L.). Guo, Zhaojiang,Kang, Shi,Zhu, Xun,Wu, Qingjun,Wang, Shaoli,Xie, Wen,Zhang, Youjun.

[14]A proteomic approach to study the mechanism of tolerance to Bt toxins in Ostrinia furnacalis larvae selected for resistance to Cry1Ab. Xu, Lina,Wang, Zhenying,Zhang, Jie,He, Kanglai,Xu, Lina,Ferry, Natalie,Edwards, Martin G.,Gatehouse, Angharad M. R.,Xu, Lina.

[15]Evaluation of the time-concentration-mortality responses of Plutella xylostella larvae to the interaction of Isaria fumosorosea with the insecticides beta-cypermethrin and Bacillus thuringiensis. Nian, Xiao-ge,He, Yu-rong,Zhao, Rui,Lu, Li-hua.

[16]Identification of an alkaline phosphatase as a putative Cry1Ac binding protein in Ostrinia fumacalis (Guenee). Duan, Xiaoli,Wang, Zhenying,He, Kanglai,Bravo, Alejandra,Soberon, Mario.

[17]Evaluation of alternative Plutella xylostella control by two Isaria fumosorosea conidial formulations-oil-based formulation and wettable powder-combined with Bacillus thuringiensis. Nian, Xiao-ge,He, Yu-rong,Zhao, Rui,Lu, Li-hua.

[18]Baseline susceptibility of Cnaphalocrocis medinalis (Lepidoptera : Pyralidae) to Bacillus thuringiensis toxins in China. Hou, M. L.,Peng, Y. F.,Liu, P. L..

[19]Recombinant Bacillus thuringiensis strain shows high insecticidal activity against Plutella xylostella and Leptinotarsa decemlineata without affecting nontarget species in the field. Zhang, J.,Song, F.,Shao, T.,Huang, D.,Gu, A.,Uwais, A..

[20]Insecticidal Specificity of Cry1Ah to Helicoverpa armigera Is Determined by Binding of APN1 via Domain II Loops 2 and 3. Liu, Yuxiao,Liang, Gemei,Song, Fuping,Zhou, Xueping,Zhang, Jie,Huang, Yongping,Bravo, Alejandra,Soberon, Mario.