教育和工作背景
2011-2015,芬兰东芬兰大学,农林学博士
2005-2008,河北农业大学,理学硕士,
2001-2005,河北农业大学,农学学士
2015-2018,西北农林科技大学,副教授
2008-2010,华北制药集团,工程师
主讲课程
分子生物学
主持课题
1.河北省自然科学基金京津冀基础研究合作专项, B2021204034,农作物秸秆全组分生物转化与利用研究,2022-2024,主持
2.河北省重点研发计划,21322917D,复合菌剂协同发酵提高全株玉米青贮质量关键技术与应用,2021-2023,主持
3.河北农业大学博士科研启动费,YJ201910,农林生物质降解与生物能源转化关键技术研究,2019-2023,主持
4.陕西省自然科学基金,2018JQ3009,产丁醇梭菌高效利用木糖的机理研究,2018-2019,主持
5.中央高校基本科研业务费,2452017098,高效利用半纤维素水解液制备生物丁醇的初步研究,2017-2019,主持
6.国家自然科学基金面上项目,31670598,木质素非生产性吸附木质纤维降解酶的规律及其调控,2017-2020,参加
7.国家重点研发计划项目“人工林剩余物资源化利用技术研究”子课题,2017YFD0601000,2017-2020,参加
代表性学术成果
1.Yang J, Dou S, Liu X, Zhu L, Liu K, Zhang Y, Li L, Liu G, Yang M*. Enhanced starch accumulation in Chlorella sorokiniana as sugar platform and the expression profiling of key regulatory proteins. Industrial Crops & Products, 2024, 213, 118433.
2.Liu X, Wang A, Zhu L, Guo W, Guo X, Zhu B, Yang M*. Effect of additive cellulase on fermentation quality of whole-plant corn silage ensiling by a Bacillus inoculant and dynamic microbial community analysis. Frontiers in Microbiology, 2024, 14:1330538.
3.Yang J, Cai D, Liu X, Zhu L, Zhang C, Peng Q, Han Y, Liu G, Yang M*. Glucose conversion for biobutanol production from fresh Chlorella sorokiniana via direct enzymatic hydrolysis. Fermentation, 2023, 9(3): 284.
4.Wang Y, Xu H, Yang J, Zhou Y, Wang X, Dou S, Li L, Liu G, Yang M*. Effect of sulfur limitation strategies on glucose-based carbohydrate production from Chlorella sorokiniana. Renewable Energy, 2022, 200: 449-456.
5.Xu H, Yang J, Wang X, Peng Q, Han Y, Liu X, Liu K, Dou S, Li L, Liu G*, Yang M*. Starch accumulation dynamics and transcriptome analysis of Chlorella sorokiniana during transition of sulfur nutritional status. Frontiers in Marine Science, 2022, 9.
6.Wang X, Zhou Y, Peng Q, Han Y, Yang J, Xu H, Li Ch, Li L, Dou S, Yang M*, Liu G*. Development of plastic flatbed-based algal culture system deployable on non-arable land. Algal Research, 2022, 66, 102814.
7.Yang M, Guo X, Liu G, Nan Y, Zhang J, Noyazzesh H, Kuittinen S, Vepsalainen J, Pappinen A. Effect of solvent mixture pretreatment on sugar release from short-rotation coppice Salix schwerinii for biobutanol production. Bioresource Technology, 2022, 344, 126262.
8.Yang M, Wang J, Nan Y, Zhang J, Li L, Liu G, Vepsäläinen J, Kuittinen S, Pappinen A. Effect of salts formed by neutralization for the enzymatic hydrolysis of cellulose and acetone–butanol–ethanol fermentation. RSC Adv. 2019, 9, 33755.
9.Nan Y#, Yang M#, Xin D, Li K, Kuittinen S, Pappinen A. Acetone-butanol-ethanol solvents improved enzymatic hydrolysis of pretreated energy grass. Fuel, 245, 2019, 406-412. (co-first author)
10.Yang M, Xu M, Nan Y, Kuittinen S, Md. Hassan K, Vepsäläinen J, Xin D, Zhang J, Pappinen A. Influence of size reduction treatments on sugar recovery from Norway spruce for butanol production. Bioresource Technology, 2018, 257, 113-120.
11.Yang M, Wang J, Hou X, Wu J, Fan X, Jiang F, Tao P, Wang F, Peng P, Yang F, Zhang J. Exploring surface characterization and electrostatic property of Hybrid Pennisetum during alkaline sulfite pretreatment for enhanced enzymatic hydrolysability. Bioresource Technology, 2017, 244: 1166-1172.
12.Yang M, Kuittinen S, Zhang J, Vepsäläinen J, Zhang J, Pappinen A. Enhanced acetone-butanol-ethanol production from lignocellulosic hydrolysates by using starchy slurry as supplement. Bioresource Technology, 2017, 243, 126-134.
13.Yang M, Zhang J, Kuittinen S, Vepsäläinen J, Soininen P, Keinänen M, Pappinen A. Enhanced sugar production from pretreated barley straw by additive xylanase and surfactants in enzymatic hydrolysis for acetone-butanol-ethanol fermentation. Bioresource Technology, 2015, 189: 131–137.
14.Yang M, Kuittinen S, Zhang J, Vepsäläinen J, Keinänen M, Pappinen A. Co-fermentation of hemicelluloses and starch from barley straw and grain for efficient pentoses utilization in acetone-butanol-ethanol production. Bioresource Technology, 2015, 179: 128–135.
15.Yang M, Kuittinen S, Keinänen M, Vepsäläinen J, Romar H, Tynjälä P, Lassi U, Pappinen A. The use of (green field) biomass pretreatment liquor for fermentative butanol production and the catalytic oxidation of biobutanol. Chemical Engineering Research and Design, 2014, 92: 1531–1538.
16.Yang M, Kuittinen S, Zhang J, Keinänen M, Pappinen A. Effect of dilute acid pretreatment on the conversion of barley straw with grains to fermentable sugars. Bioresource Technology, 2013, 146: 444–450.
17.杨明, 刘力强, 牛昆, 贾娟娟, 李寅, 张延平, 王正品. 丙酮丁醇发酵菌的分子遗传改造. 中国生物工程杂志, 2009, 29 (10): 109–114.
18.杨明, 刘丽娟, 李莉云, 王博, 常金华, 刘国振. 甜高粱蔗糖积累与茎秆中SPS表达的相关性研究. 中国农业科学, 2009, 42 (1): 85–92.
19.杨明, 刘丽娟, 李莉云, 王博, 常金华, 刘国振. 甜高粱蔗糖合酶表达与蔗糖积累的相关分析. 作物学报, 2009, 29 (10): 109–111.
