[1]hsdS, Belonging to the Type I Restriction-Modification System, Contributes to the Streptococcus suis Serotype 2 Survival Ability in Phagocytes. Xu, Bin,Zhang, Ping,Li, Weiyi,Liu, Rui,Tang, Jinsheng,Fan, Hongjie,Zhang, Ping,Fan, Hongjie. 2017

[2]Roles of nitric oxide in alleviating heavy metal toxicity in plants. Xiong, Jie,Fu, Guanfu,Tao, Longxing,Zhu, Cheng.

[3]Nitric oxide signaling in aluminum stress in plants. Zhan, Jie,He, Longfei,Gu, Minghua,He, Huyi.

[4]The role of carbon monoxide signaling in the responses of plants to abiotic stresses. He, Longfei,He, Huyi.

[5]The diversity of nitric oxide function in plant responses to metal stress. He, Longfei,Gu, Minghua,He, Huyi.

[6]Glucose-6-phosphate dehydrogenase plays critical role in artemisinin production of Artemisia annua under salt stress. Wang, J. W.,Tian, H.,Yu, X.,Tian, H.,Zheng, L. P..

[7]Comparative proteome analyses reveal that nitric oxide is an important signal molecule in the response of rice to aluminum toxicity. Yang, Liming,Luo, Yuming,Tian, Dagang,Hu, Xiangyang,Tian, Dagang,Todd, Christopher D..

[8]Characterization of cadmium-resistant bacteria and their potential for reducing accumulation of cadmium in rice grains. Chen, Mingxue.

[9]Label-free quantitative proteomics analysis of cotton leaf response to nitric oxide. Yanyan Meng,Feng Liu,Chaoyou Pang,Shuli Fan,Meizhen Song,Dan Wang,Weihua Li,Shuxun Yu.

[10]Enhanced Anti-Inflammatory Activities by the Combination of Luteolin and Tangeretin. Funaro, Antonietta,Wu, Xian,Song, Mingyue,Zheng, Jinkai,Guo, Shanshan,Rakariyatham, Kanyasiri,Xiao, Hang,Funaro, Antonietta,Rodriguez-Estrada, Maria Teresa,Xiao, Hang,Zheng, Jinkai,Guo, Shanshan. 2016

[11]Hydrogen-induced osmotic tolerance is associated with nitric oxide-mediated proline accumulation and reestablishment of redox balance in alfalfa seedlings. Su, Jiuchang,Zhang, Yihua,Nie, Yang,Cheng, Dan,Shen, Wenbiao,Wang, Ren,Hu, Huali,Chen, Jun,Zhang, Jiaofei,Du, Yuanwei. 2018

[12]Exogenously Applied Nitric Oxide Enhances the Drought Tolerance in Hulless Barley. Zhong, Yan,Wu, Xiaoli. 2015

[13]Nitric oxide suppresses aluminum-induced programmed cell death in peanut (Arachis hypoganea L.) root tips by improving mitochondrial physiological properties. Huang, Wenjing,Oo, Thet Lwin,Gu, Minghua,Zhan, Jie,Wang, Aiqin,He, Long-Fei,He, Huyi,He, Long-Fei. 2018

[14]Effects of nitric oxide treatment on the cell wall softening related enzymes and several hormones of papaya fruit during storage. Guo, Qin,Chen, Weixin,Li, Xueping,Guo, Qin,Zhang, Yuli,Wang, Jide,Wu, Bin. 2014

[15]Nitrite oxide and inducible nitric oxide synthase were regulated by polysaccharides isolated from Glycyrrhiza uralensis Fisch. Cheng, Anwei,Jin, Zhengyu,Xu, Xueming,Wan, Fachun,Wang, Jiaqi. 2008

[16]Picomol Assay of Nitric Oxide Screening in Biological Samples by Derivatization Combined with High-throughput Microplate Format. Zhang, Xiaoling,Yang, Qiao. 2013

[17]Molecular regulation of terpenoid indole alkaloids pathway in the medicinal plant, Catharanthus roseus. Zhou, Mei-Liang,Wu, Yan-Min,Tang, Yi-Xiong,Zhou, Mei-Liang,Shao, Ji-Rong,Hou, Hong-Li,Zhu, Xue-Mei. 2010

[18]Nitric oxide synthase-dependent nitric oxide production enhances chilling tolerance of walnut shoots in vitro via involvement chlorophyll fluorescence and other physiological parameter levels. Dong, Ningguang,Qi, Jianxun,Chen, Yonghao,Hao, Yanbin,Li, Yuanfa. 2018

[19]Nitric oxide-generating compound GSNO suppresses porcine circovirus type 2 infection in vitro and in vivo. Liu, Chuanmin,Wen, Libin,Xiao, Qi,He, Kongwang,Liu, Chuanmin,Wen, Libin,Xiao, Qi,He, Kongwang,Liu, Chuanmin,Wen, Libin,Xiao, Qi,He, Kongwang,Liu, Chuanmin,Wen, Libin,Xiao, Qi,He, Kongwang. 2017

[20]Exogenous nitric oxide enhances cadmium tolerance of rice by increasing pectin and hemicellulose contents in root cell wall. Xiong, Jie,An, Lingyao,Lu, Han,Zhu, Cheng,Xiong, Jie.