个人简介
2012年7月获中国农业科学院农学博士学位;2011年3月-2012年4月在澳大利亚CSIRO Livestock Industries做联合培养博士生;2012年7月-2014年7月在中国科学院微生物研究所博士后工作。2014年7月至今在中国农业科学院北京畜牧兽医研究所工作。
研究领域
主要从事反刍动物营养与瘤胃微生物组学研究,构建了瘤胃微生物元基因组学研究技术平台,揭示了粗饲料诱导奶牛瘤胃微生物群落结构与代谢变化,筛选与分析了瘤胃微生物重要功能基因,揭示了瘤胃尿素分解菌群落结构与脲酶基因功能。
近期论文
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1. Zhao S.#, Li G., Zheng N., Wang J.*, and Yu Z. 2018. Steam explosion enhances digestibility and fermentation of corn stover by facilitating ruminal microbial colonization. Bioresource Technology. 2018. 253(2018):244-51
2. Wang P#, Zhao S #, Nan X, Jin D, Wang J*. Influence of hydrolysis rate of urea on ruminal bacterial diversity level and cellulolytic bacteria abundance in vitro. PeerJ. 2018, 6:e5475.
3. Jin D#, Zhao SG#, Zheng N, Bu DP, Beckers Y, Wang JQ*. Urea nitrogen induces changes in rumen microbial and host metabolic profiles in dairy cows. Livestock Science. 2018;210:104-10.
4. Zhang MC#, Zhao SG #, Wang SS, Luo CC, Gao HN, Zheng N, Wang JQ*. D-Glucose and amino acid deficiency inhibits casein synthesis through JAK2/STAT5 and AMPK/mTOR signaling pathways in mammary epithelial cells of dairy cows. Journal of Dairy Science. 2018. 101(2):1737-1746.
5. Luo C#, Zhao S#, Zhang M, Gao Y, Wang J, Hanigan MD, Zheng N*. SESN2 negatively regulates cell proliferation and casein synthesis by inhibition the amino acid-mediated mTORC1 pathway in cow mammary epithelial cells. Scientific Reports. 2018, 8(1):3912.
6. Jin D#, Zhao S #, Zheng N, Bu D, Beckers Y, Denman SE, McSweeney CS, Wang J*. Differences in Ureolytic Bacterial Composition between the Rumen Digesta and Rumen Wall Based on ureC Gene Classification. Frontiers in Microbiology. 2017;8:385.
7. Lan XY#, Zhao SG#, Zheng N, Li SL, Zhang YD, Liu HM, McKillip J, Wang JQ*. Microbiological quality of raw cow milk and its association with herd management practices in Northern China. J Dairy Sci. 2017;100(6):4294-9.
8. Wang P.#, Zhao S. #, Wang X., Zhang Y., Zheng N. and Wang J*.. Ruminal Methanogen Community in Dairy Cows Fed Agricultural Residues of Corn Stover, Rapeseed, and Cottonseed Meals. Journal of Agricultural and Food Chemistry, 2016;64(27):5439-45.
9. Min L#, Cheng J#, Zhao S #, Tian H, Zhang Y, Li S, Yang H, Zheng N, and Wang J.*. Plasma-based proteomics reveals immune response, complement and coagulation cascades pathway shifts in heat-stressed lactating dairy cows. Journal of Proteomics. 2016. 146: 99-108.
10. Jin D#, Zhao S #, Wang P, Zheng N, Bu D, Beckers Y, and Wang J*. Insights into Abundant Rumen Ureolytic Bacterial Community Using Rumen Simulation System. Frontiers in Microbiology. 2016. 7: 1006.
11. Zhang J#, Zhao S #, Zhang Y, Sun P, Bu D, Wang J*. New Primers Targeting Full-Length Ciliate 18S rRNA Genes and Evaluation of Dietary Effect on Rumen Ciliate Diversity in Dairy Cows. Current Microbiology. 2015, 71(6):650-7.
12. Zhao S#, Wang J*, Zheng N, Bu D, Sun P, Yu Z. Reducing microbial ureolytic activity in the rumen by immunization against urease therein. BMC Veterinary Research. 2015, 11:94.
13. Zhao Shengguo#, Wang Jiaqi*, Bu Dengpan, et al. Novel glycoside hydrolases identified by screening a Chinese Holstein dairy cow rumen-derived metagenome library. Applied and Environmental Microbiology, 2010, 76(19): 6701-6705
学术兼职
现任奶业创新团队骨干专家,《Animal》和《FrontiersinMicrobiology》杂志编委,农业农村部“杰出青年农业科学家”(2018年)。