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发布日期:2014-04-17
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孙诤 研究员



孙诤,男,1983年出生。研究员,博士生导师。

孙诤2011年博士毕业于香港大学,2013年受聘于上海海洋大学,加入周志刚教授的藻类研究团队;2015年起担任北京大学食品与生物资源工程研究所兼职研究员。2015年入选上海海洋大学海燕学者与上海市青年东方学者2017年入选国家海洋局海洋领域优秀科技青年

孙诤致力于以循环经济的思路开发微藻资源,为开发基于微藻的高值水产生物制品服务。研究方向包括:藻源类胡萝卜素抑制美拉德反应的生物活性、三酰甘油合成与代谢相关基因的功能鉴定、以及利用微藻高效处理厨余垃圾的生物炼制技术(与香港城市大学Dr. Carol Lin合作)。迄今以第一或通讯作者在农业工程(Bioresource Technol, IF: 5.8)、应用微生物(Green Chem, IF: 8.6)、食品科学(Food Chem, IF: 4.9)等领域的SCI期刊上发表论文20余篇,以第一发明人获得国家发明专利授权1项。

  

教育背景:

2011,香港大学,生物工程,博士(导师:陈峰教授,王明福教授)

2006,英国巴斯大学,生物学,硕士(导师:Dr. Rob Jackson

2005,上海海洋大学,生物学,学士

  

工作经历:

2013~至今,上海海洋大学,副研究员、研究员

2016~2018,墨尔本大学,Swinburne University of Technology,访问学者(合作导师:Prof. Muthupandian Ashokkumar, Prof. Enzo Palombo

2012~2013,香港城市大学,博士后(合作导师:Dr. Carol S.K. Lin

  

教学工作:

2019,所主讲的本科生必修课《植物生物学》获得上海市教委认证,成为“上海高校外国留学生英语授课示范性课程

2016,第二届上海高校青年教师教学竞赛三等奖(全英文教学组)

2016,上海海洋大学教学能手

  

主持项目:

2018-2021 “基于类胡萝卜素向虾蟹传递规律的海洋微藻高值转化科学基础,自然科学基金-山东省联合基金重点项目子课题(U1706209

2015-2018 “藻源类胡萝卜素对于美拉德反应所诱导胶原蛋白快速流失的保护作用及其机理研究,自然科学基金青年项目(31501493

已结题项目:教育部博士点基金20133104120004),上海市科委浦江人才13PJ1403500),上海市教委晨光计划13CG52)、高校青年教师培养资助计划ZZHY13005)、国家海洋局海洋可再生能源专项资金项目(SHME2011SW02,参与)。

  

科研奖励:

2017国家海洋局海洋领域优秀科技青年

2015上海市青年东方学者

2015,上海市浦东新区第八届优秀科技论文三等奖

2015,上海海洋大学海燕学者


指导学生所获荣誉:

[1] 独立指导的2016级硕士生刘智慧荣获2018年国家奖学金

[2] 独立指导的2015 级硕士生陈勇的科创项目“小球藻藻源虾青素作为天然抗氧化日霜原料的开发”获得上海海洋大学骆肇尧科技创新基金资助;陈勇荣获2017 年国家奖学金、2018 年上海市优秀毕业生

[3] 协助周志刚教授共同指导的2014 级硕士生方小鹏在国际学术会议“The 4th Asia-Oceania Algae Innovation Summit”中荣获最佳海报奖

  

发表论文:

IF = Impact Factor (ISI Journal Citation Reports 2018); * = Corresponding author

[1] Liu Z, Li T, He Q, Sun Z*, Jiang Y* (2018). Role of mitochondria in regulating lutein and chlorophyll biosynthesis in Chlorella pyrenoidosa under heterotrophic conditions. Mar Drugs, 16, 10 (IF: 4.379).

[2] Sun Z, Wei H, Zhou Z, Ashokkumar M, Liu J (2018). Screening of Isochrysis strains and utilization of a two-stage outdoor cultivation strategy for algal biomass and lipid production. Appl Biochem Biotechnol, 185, 1100-1117 (IF: 1.797).

[3] Sun Z, Fang X, Li X, Zhou Z (2018). Oleaginous microalgae from dairy farm wastewater for biodiesel production: isolation, characterization, and mass cultivation. Appl Biochem Biotech, 184, 524-537 (IF: 1.797).

[4] Sun Z, Chen Y, Mao X, Liu J (2017). Physiological and biochemical changes reveal differential patterns of docosahexaenoic acid partitioning in two marine algal strains of Isochrysis. Mar Drugs, 15, 357 (IF: 4.379).

[5] Chen Y, Sun L, Liu Z, Martin G, Sun Z* (2017). Integration of waste valorization for sustainable production of chemicals and materials via algal cultivation. Topics Curr Chem, 375, 89 (IF: 5.537).

[6] Chen Y, Li X, Sun Z*, Zhou Z* (2017). Isolation and identification of Choricystis minor Fott and mass cultivation for oil production. Algal Res, 25, 142-148 (IF: 3.745).

[7] Xue W, Liu F, Sun Z*, Zhou Z* (2016). A Δ-9 fatty acid desaturase gene in the microalga Myrmecia incisa Reisigl: cloning and functional analysis. Int J Mol Sci, 17, 1143 (IF: 3.687).

[8] Chen C#, Sun Z#, Cao H, Fang F, Ouyang L, Zhou Z (2015). Identification and characterization of three genes encoding acyl-CoA: diacylglycerol acyltransferase (DGAT) from the microalga Myrmecia incisa Reisigl. Algal Res, 12, 280-288 (# Co-1stauthor) (IF: 3. 745).

[9] Liu B, Sun Z, Ma X, Yang B, Jiang Y, Wei D, Chen F (2015). Mutation breeding of extracellular polysaccharide-producing microalga Crypthecodinium cohnii by a novel mutagenesis with atmospheric and room temperature plasma. Int J Mol Sci, 16,8201-8212 (IF: 3.687).

[10] Sun Z, Zhou Z, Gerken H, Chen F, Liu J (2015). Screening and characterization of oleaginous Chlorella strains and exploration of Chlorella protothecoides for oil production. Bioresource Technol, 184, 53-62 (IF: 5.807).

[11] Sun Z, Li T, Zhou Z, Jiang Y (2015). Microalgae as a source of lutein: chemistry, biosynthesis and carotenogenesis. Adv Biochem Eng Biotechnol, 153, 37-58 (IF: 2.795).

[12] Liu J, Sun Z, Gerken H, Huang J, Jiang Y, Chen F (2014). Genetic engineering of the green alga Chlorella zofingiensis: a modified norflurazon-resistant phytoene desaturase gene as a dominant selectable marker. Appl Microbiol Biot, 98, 5069-5079 (IF: 3.340).

[13] Liu J, Sun Z, Gerken H, Liu Z, Jiang Y, Chen F (2014). Chlorella zofingiensis as alternative microalgal producer of astaxanthin: biology and industrial potential. Mar Drugs, 12, 3487-3515 (IF: 4.379).

[14] Zhang J, Sun Z, Sun P, Chen T, Chen F (2014). Microalgal carotenoids: beneficial effects and potential in human health. Food Funct, 5, 413-425 (IF: 3.289).

[15] Sun Z, Li M, Qi Q, Gao C, Lin CSK (2014). Mixed food waste as renewable feedstock in succinic acid fermentation. Appl Biochem Biotech, 174, 1822-1833 (IF: 1. 797).

[16] Zhang AY#, Sun Z#, Leung CCJ, Han W, Lau KY, Li M, Lin CSK (2013). Valorisation of bakery waste for succinic acid production. Green Chem, 15, 690-695 (# Co-1st author) (IF: 8.586).

[17] Liu J, Sun Z, Zhong Y, Gerken H, Huang J, Chen F (2013). Utilization of cane molasses towards cost-saving astaxanthin production by a Chlorella zofingiensis mutant. J Appl Phycol, 25, 1447-1456 (IF: 2.401).

[18] Pleissner D, Lam WC, Sun Z, Lin CSK (2013). Food waste as nutrient source in heterotrophic microalgae cultivation. Bioresource Technol, 137, 139-146 (IF: 5. 807).

[19] Sun Z, Chen J, Ma J, Jiang Y, Wang M, Ren G, Chen F (2012). Cynarin-rich sunflower (Helianthus annuus) sprouts possess both antiglycative and antioxidant activities. J Agr Food Chem, 60, 3260-3265 (IF: 3.412).

[20] Sun Z, Chen F (2012). Evaluation of green alga Chlorella pyrenoidosa for management of diabetes. J Food Drug Anal, 20, 246-249 (IF: 2.852).

[21] Zhu Q, Zhang N, Lau C, Chao J, Sun Z, Chang R, Chen F, Wang M (2012). In vitro attenuation of acrolein-induced toxicity by phloretin, a phenolic compound from apple. Food Chem, 135, 1762-1768 (IF: 4.946).

[22] Zhu Q, Sun Z, Chen F, Wang M (2011). Acrolein scavengers: reactivity, mechanism and impact on health. Mol Nutr Food Res, 55, 1375-1390 (IF: 5.151).

[23] Sun Z, Liu J, Zeng X, Huangfu J, Jiang Y, Wang M, Chen F (2011). Astaxanthin is responsible for anti-glycoxidative properties of microalga Chlorella zofingiensis. Food Chem, 126, 1629-1635 (IF: 4.946).

[24] Sun Z, Liu J, Zeng X, Huangfu J, Jiang Y, Wang M, Chen F (2011). Protective actions of microalgae against endogenous and exogenous advanced glycation endproducts (AGEs) in human retinal pigment epithelial cells. Food Funct, 2, 251-258 (IF: 3.289).

[25] Sun Z, Peng X, Liu J, Fan KW, Wang M, Chen F (2010). Inhibitory effects of microalgal extracts on the formation of advanced glycation endproducts (AGEs). Food Chem, 120, 261-267 (IF: 4.946).

[26] Peng X, Ma J, Chao J, Sun Z, Chang RC, Tse I, Li TS, Chen F, Wang M (2010). Beneficial effects of cinnamon proanthocyanidins on the formation of specific advanced glycation endproducts and methglyoxal induced impairment on glucose consumption. J Agr Food Chem, 58, 6692-6696 (IF: 3.412).

  

专著章节:

[1] Sun Z, Liu J, Zhou Z (2016). Algae for biofuels: an emerging feedstock. In: Handbook of Biofuels’ Production: Processes and Technologies (2nd Edition). pp. 673-698. Ed: R Luque, CSK Lin, K Wilson and J Clark. Woodhead Publishing, Elsevier, ISBN: 978-0-08-100455-5.

[2] Sun Z, Bi Y, Zhou Z (2014). Microalgae technology. In: Renewable Resources and Biorefineries. pp. 79-92. Ed: C Lin and R Luque. Royal Society of Chemistry, ISBN: 978-1-84973-898-9.

[3] Liu J, Sun Z, Chen F (2013). Heterotrophic production of microalgal oils. In: Biofuels from Algae. pp: 111-142. Ed: A Pandey, DJ Lee, Y Chisti and CR Soccol. Elsevier, ISBN: 978-0-444-59558-4.

  

授权专利:

[1]孙诤,李婷,周志刚 (2017). 一种编码缺刻缘绿藻油体钙蛋白的DNA序列及其应用. 国家发明专利 (ZL2015100076433)

[2]孙诤,陈勇,周志刚,薛雨琴 (2017). 一种连续培养微藻用的光自养串联扩大连接体. 实用新型专利 (ZL2016209208531)

[3]孙诤,陈勇,周志刚,薛雨琴,夏瑾 (2016). 一种可远程控制培养微藻的平板式光生物反应器. 实用新型专利 (ZL201520780462X)

  

联系方式:

办公室:水产与生命学院B223

E-mailzsun@shou.edu.cn

课题组网站:http://www.microalgaebiotech.com/

教学网站:http://www.plantbiologyzsun.com/

20193月更新)