1.个人简介 Personal basic information
姓 名:宋丽丽,Lili Song
学 科:林学,Botany
电子邮件:lilisong@zafu.edu.cn
通讯地址:浙江省杭州市临安区武肃街666号,浙江农林大学亚热带森林培育国家重点实验室
2.研究关键字 Research Keywords
香榧等林产品健康功能因子挖掘与功能评价,农林产品采后贮藏与加工
Post-harvest storage and processing of agricultural and forestry products, basic theory and applied technology research on health function factor mining and function evaluation
3.学习与工作经历 Study and work experience
1995年09月-1999年07月:青岛农业大学,园艺系,农学学士
1999年09月-2002年07月:安徽农业大学园艺系,农学硕士
2003年03月-2006年03月:中国科学院华南植物园,理学博士
2006年04月-2014年02月:浙江省农业科学院食品科学研究所,助理研究员/副研究员
2012年04月-2013年04月:澳大利亚墨尔本大学,植物系,副研究员
2014年02月-2016年12月:浙江农林大学,林业与生物技术学院,副教授
2017年01月-至今:浙江农林大学,林业与生物技术学院,教授
4.学术兼职 Academic Part-time
中国林学会青年工作委员会 副主任委员
浙江省食品学会 常务理事
5.所获荣誉 Honours received
2020年,国家林草科技创新领军人才
2019年,浙江省“万人计划”科技创新领军人才
2018年,浙江省“新世纪151人才工程”第二层次
2017年,中国青年科技奖第十四届中国林业青年科技奖
2017年,浙江省高校中青年学术带头人
6.科研项目 Research Projects
国家重点研发计划课题,林源功能性多酚代谢调控机制及生物合成体系构建,2022-2026,主持
省院合作林业科技重大项目,香榧健康功能因子挖掘与精准营养食品开发,2021-2023,主持
国家自然科学基金面上项目,香榧种实成熟过程中金松酸合成积累的分子机理研究,2020-2023,主持
国家自然科学基金面上项目,LOX途径在香榧坚果生理后熟期间呈香物质形成中的调控作用,2017-2020,主持
浙江省自然科学基金委杰出青年基金项目,竹笋采后木质化进程中木聚糖合成代谢及其调控机制,2015-2018,主持
国家林业局,香榧幼年林高效生态经营技术集成与示范推广,2017-2019,主持
省院合作林业科技项目,香榧传统加工品质提升关键技术研究与应用,2014-2017,主持
973项目专题,生物与非生物因子诱发果实采后衰老的生物学基础,2013-2017,主持
7.科研论文 Research papers
Lou HQ#, Song LL#, Li XL, Zi HL, Chen WJ, Gao YD, Zheng S, Fei ZJ*, Sun XP*, Wu JS*. The Torreya grandis genome illuminates the origin and evolution of gymnosperm-specific sciadonic acid biosynthesis. Nature Communications, 2023, 14: 1315.
Lou HQ#, Zheng S#, Chen WC, Yu WW, Jiang HF, Farag MA, Xiao JB*, Wu JS*, Song LL*. Transcriptome-referenced association study provides insights into the regulation of oil and fatty acid biosynthesis in Torreya grandis kernel. Journal of Advanced Research, 2023.
Song LL, Wen SS, Ye Q, Lou HQ, Gao YD, Bajpai VK, Carpena M, Prieto MA, Simal-Gandara J, Xiao JB*, Meng XH*, Wu JS*. Advances on delta 5-unsaturated-polymethyleneinterrupted fatty acids: Resources, biosynthesis, and benefits. Critical Reviews in Food Science and Nutrition, 2021, https://doi.org/10.1080/10408398.2021.1953960.
Zhang ZY#, Tao L#, Gao LL, Gao YD, Suo JW, Yu WW, Hu YY, Wei CY, Farag M.A., Wu JS*, Song LL*. Transcription factors TgbHLH95 and TgbZIP44 co-target terpene biosynthesis gene TgGPPS in Torreya grandis nuts. Plant Physiology, 2023. (Accepted)
Song LL#, Meng XC#, Song HB, Gao LL, Gao YD, Chen WC, Huan WW, Suo JW, Yu WW, Hu YY, Yang BR, Zhang ZY*, Wu JS*. A comprehensive metabolomics analysis of Torreya grandis nuts with the effective de-astringent treatment during the postharvest ripening stage. Food Chemistry, 2023, 398: 133859.
Zhang ZY#, Chen WC#, Tao L, Wei XX, Gao LL, Gao YD, Suo JW, Yu WW, Hu YY, Yang, BR, Jiang HF, Farag MA, Wu JS*, Song LL*. Ethylene treatment promotes umami taste-active amino acids accumulation of Torreya grandis nuts post-harvest by comparative chemical and transcript analyses. Food Chemistry, 2023, 408: 135214.
Suo JW#, Ma ZM#, Zhao B, Ma S, Zhang ZY, Hu YY, Yang BR, Yu WW, Wu JS*, Song LL*. Metabolomics reveal changes in flavor quality and bioactive components in post-ripening Torreya grandis nuts and the underlying mechanism. Food Chemistry, 2023, 406: 134987.
Song LL#, Meng XC#, Yang L, Ma ZM, Zhou MY, Yu CL, Zhang ZY, Yu WW, Wu JS*, Lou HQ*. Identification of key genes and enzymes contributing to nutrition conversion of Torreya grandis nuts during post-ripening process. Food Chemistry, 2022, 384: 132454.
Hu YY#, Suo JW#, Jiang GX, Shen JY, Cheng H, Lou HQ, Yu WW, Wu JS*, Song LL*. The effect of ethylene on squalene and β-sitosterol biosynthesis and its key gene network analysis in Torreya grandis nuts during post-ripening process. Food Chemistry, 2022, 368: 130819.
Hu YY#, Zhang ZY#, Hua B, Tao L, Chen WC, Gao YD, Suo JW, Yu WW, Wu JS*, Song LL*. The interaction of temperature and relative humidity affects the main aromatic components in postharvest Torreya grandis nuts. Food Chemistry, 2022, 368: 130836.
Ding MZ#, Lou HQ*, Chen WC, Zhou Y, Zhang ZH, Xiao MH, Wang ZQ, Yang Y, Yang L, Zhang FC, Wu JS*, Song LL*. Comparative transcriptome analysis of the genes involved in lipid biosynthesis pathway and regulation of oil body formation in Torreya grandis kernels. Industrial Crops and Products, 2020, 145: 112051.
Meng XH, Xiao D, Ye Q, Nie XH, Wu JS*, Song LL*. Positional distribution of Δ5-olefinic acids in triacylglycerols from Torreya grandis seed oil: Isolation and purification of sciadonic acid. Industrial Crops and Products, 2020, 143: 111917.
Suo JW, Tong K, Wu JS, Ding MZ, Chen WC, Yang Y, Lou HQ, Hu YY, Yu WW, Song LL*. Comparative transcriptome analysis reveals key genes in the regulation of squalene and β-sitosterol biosynthesis in Torreya grandis. Industrial Crops & Products. 2019, 131: 182–193.
8.专利 Patents
一种林产品残渣无害化处理装置及处理方法,发明专利,ZL 202110198184.7,1/6
一种智能多功能香榧处理库,实用新型专利,ZL202020539462.1,1/8
一种香榧精油提取分离系统,发明专利,ZL202110447499.0,2/2
一种脱衣香榧仁的加工方法,发明专利,ZL201910123313.9,2/7
一种微波烤箱结合的去衣香榧仁的加工方法,发明专利,ZL202110048611.3,2/7