姓 名: | 刘政安 |
---|---|
职务/职称: | 研究员 |
联系电话: | (86)-010-62836015 |
电子邮件: | liuzhengan@ibcas.ac.cn |
个人网页: | http://klpr.ibcas.ac.cn/kxyj/yjzjs/sjygn/202101/t20210105_608428.html |
课 题 组: | 芍药科多样性与种质创新研究团队 |
刘政安,男,博士,研究员。 |
教育经历 1982.7-1985.6 河南省农业职业学院,园艺 1990.1-1991.12 日本静冈清水月季中心,月季鲜切花,研修生 1997.7-2000.3 日本岛根大学,农学(园艺)硕士 2000.4-2003.3 日本鸟取大学联合大学院,农学(园艺)博士 2011.6-2013.7 中国人民大学,美学(文化创意),在职研究生 工作简历 1985.7-1988.6 洛阳市郊区农林局,技术员 1988.7-1997.7 洛阳市花木公司,工程师、副经理 2003.4-2004.3 日本国立岛根大学,特别研究员(博士后) 2004.3-2018.3 中国科学院植物研究所,副研究员 2018.3-2018.11 中国科学院植物研究所,研究员 2018.12-2023.5 中国科学院植物研究所,研究员,牡丹栽培和选育研究组组长 2023.5- 中国科学院植物研究所,研究员 社会任职 中国插花花艺协会第七届理事会副会长 中国花卉协会牡丹芍药分会副秘书长 中国“传统插花”国家级非遗项目首批传承人 主要研究方向 主要从事资源植物收集、评价及利用等方面的工作。主要研究内容:构建全国牡丹芍药资源保护体系、高效栽培、良种选育及快繁工作;开展牡丹芍药的油用、药用及观赏品质形成的机理、功能评价及产业化研发。 主持的项目: [1]铜陵市江南牡丹资源收集及栽培技术提升(2024-2027) [2] 油用牡丹生态高效栽培及产业技术研发(2022-2025) [3]“美丽中国—太行山”油用牡丹示范推广(2020-2023) [4]“美丽中国—天赋河套”油用牡丹等科技研发项目(2019-2022) [5]中国科学院战略性先导科技专项(A类):生态高值油用牡丹的可持续利用技术集成与示范子课题(2019-2023) [6]油用牡丹高效栽培及籽中α-亚麻酸提取与利用(2018-2021) [7]“牡丹+光伏”产业模式研发与推广(2017-2021) [8]油用牡丹种苗繁育技术合作(2017-2018) [9]牡丹错季开花培育技术合作(2017-2018) [10]油用牡丹优质丰产丰收栽培技术研发(2016-2021) [11]陕北油用牡丹产业化栽培技术研发(2016-2021) [12]神农牡丹资源收集及研究示范推广(2016-2021) [13]神农万亩油用牡丹产业化(2015-2018) [14]牡丹综合研发(2013-2018) [15]登云农业资源保育及科普创新(2013-2018) [16]中国科学院植物研究所所长基金:药用、油用牡丹品种选育及栽培模式研究(2012-2015) [17]863子课题牡丹分子育种与品种创制(2011-2015) [18]广东百万葵园生态观光技术与科普创新研究(2011-2015) [19]国家教委重点项目:未成年人校外教育基地标准与创新人才培养模式的实践研究,科研单位社会大课堂实践模式研究(2010-2011) [20]同仁堂药用牡丹品种资源保护及生产科研示范(2009-2013) [21]北京市科委科普重点项目:中科院京区高端科技科普能力建设项目子项目,科学感悟与自然解压(2009-2010) [22]北京市教委重点项目:雏鹰计划子项目,国花与市花教程(2009-2010) [23]中国科协项目:年轮生态-年轮之旅(2009-2010) [24]国家科技基础条件平台工作重点项目:植物标本标准化整理、整合及共享平台建设子项目,植物园活体植物数字化 (2006-2007) [25]河北柏乡牡丹品种资源保护基地建设(2006-2012) [26]河北柏乡汉牡丹复壮发展项目(2004-2007) [27] 中国科学院海外人才引进项目(2004-2007) 参与的项目: [1] 国家自然科学基金面上项目:牡丹斑色形成的分子机制(2015-2018) [2] 北京市科技计划课题:林下油用牡丹新品种选育与种苗快繁技术的研究示范(2016-2018) [3] 十二五农村领域国家科技计划(863)课题任务: 牡丹分子育种与品种创制(2011-2015) [4] 中科院知识创新工程重要方向项目:牡丹核心种质资源保护及可持续利用(2007-2009) [5] 国家自然科学基金面上项目:牡丹花色成色机理及化学分类研究(2006-2008) [6] 林业科技支撑计划:主要商品花卉优质高产新品种选育(2006-2010) [7] 国家科技基础条件平台工作重点项目:植物标本标准化整理、整合及共享平台建设子项目,牡丹品种资源的数字化(2006-2007) [8] 中科院植物研究所领域前沿项目:牡丹花型决定基因分离、功能鉴定及花型形成的机理研究(2005-2008) 2023 Tong NN, Shu QY, Wang BC, Peng* LP, Liu* ZA. 2023. Histology, physiology, and transcriptomic and metabolomic profiling reveal the developmental dynamics of annual shoots in tree peonies (Paeonia suffruticosa Andr.). Horticulture Research 10: uhad152 Peng LP, Li Y, Tan WQ, Wu SW, Hao Q, Tong NN, Wang ZY, Liu* ZA, Shu* QY. 2023. Combined GWAS and eQTLs analysis uncovers a genetic regulatory network of floral organs number in tree peony (Paeonia suffruticosa Andrews) breeding population. Horticulture Research 10: uhad110 Zhou XY, Xiang H, Han YJ, Chang X, Gu Y, Liu ZA, Jiao JZ, Fang Y, Zhong* RZ. 2023. Compared to antibiotic, feeding peony byproducts can improve growth performance, rumen fermentation, slaughter parameters, and meat quality of lambs. Animal Science Journal 94: e13871 Zhang X, Li Y, Wang XM, Peng LP, Liu ZA, Shu* QY, Hao* Q. 2023. Overexpression of a novel F-box protein PsFFL1 from tree peony (Paeonia suffruticosa) confers drought tolerance in tobacco. Plant Growth Regulation 101: 131-143 陈友锋, 佟宁宁, 彭丽平, 江莉娜, 刘燕*, 刘政安*. 2023. 伊藤杂种茎叶化学成分及其综合抗氧化能力. 福建农业学报, 38(8): 932-943 陈友锋, 佟宁宁, 刘燕*, 刘政安*. 2023. 不同芍药品种茎叶总酚含量及抗氧化能力比较. 亚热带植物科学, 52(3): 191-196 2022 Li Y, Wang XR, Zhang X, Liu* ZA, Peng LP, Hao Q, Liu ZG, Men SQ, Tong NN, Shu* QY. 2022. ABSCISIC ACID-INSENSITIVE 5-ω3 FATTY ACID DESATURASE3 module regulates unsaturated fatty acids biosynthesis in Paeonia ostii. Plant Science 317: 111189 Li Y, Kong F, Liu* ZA, Peng LP, Shu* QY. 2022. PhUGT78A22, a novel glycosyltransferase in Paeonia ‘He Xie’, can catalyze the transfer of glucose to glucosylated anthocyanins during petal blotch formation. BMC Plant Biology 22(1):1-15 2021 Tong NN, Peng LP, Liu* ZA, Li Y, Zhou XY, Wang XR, Shu* QY. 2021. Comparative transcriptomic analysis of genes involved in stem lignin biosynthesis in woody and herbaceous Paeonia species. Physiologia Plantrum 173: 961-977 Tong NN, Zhou XY, Peng LP, Liu* ZA, Shu* QY. 2021. A comprehensive study of three species of Paeonia stem and leaf phytochemicals, and their antioxidant activities. Journal of Ethnopharmacology 273: 113985 2018 Li SS, Wu Q, Yin DD, Feng CY, Liu* ZA, Wang* LS. 2018. Phytochemical variation among the traditional Chinese medicine Mu Dan Pi from Paeonia suffruticosa (tree peony). Phytochemistry 146:16-24 舒庆艳,朱 瑾,门思琦,郝 青,王倩玉,刘政安,曾秀丽,王亮生* . 2018. 基于牡丹类黄酮糖基转移酶基因建立VIGS技术体系,园艺学报, 45:168-176 Gu ZY, Zhu J, Hao Q, Yuan YW, Duan YW, Men SQ, Wang QY, Hou QZ, Liu ZA, Shu *QY, Wang* LS. 2018. A novel R2R3-MYB transcription factor contributes to petal blotch formation by regulating organ-specific expression of PsCHS in tree peony (Paeonia suffruticosa). Plant Cell Physiology doi.org/10.1093/pcp/pcy232 2017 梅玉芹,刘政安,宋松泉*. 2017. 温度对凤丹种子萌发和上胚轴生长抑制的影响.中国种业,7: 58-60 Hao Q, Ren HX, Zhu J, Wang LS, Huang SC, Liu ZA, Gao* ZM, Shu* QY. 2017 Overexpression of PSK1, a SKP1-like gene homologue, from Paeonia suffruticosa, confers salinity tolerance in Arabidopsis. Plant Cell Reports 36: 151-162 2015及以前 Du H, Wu J, Ji KX, Zeng QY, Bhuiyad MW, Su S, Shu* QY, Ren HX, Liu ZA, Wang* LS. 2015. Methylation mediated by an anthocyanin O-methyltransferase, is involved in purple flower coloration in Paeonia. J Experimental Botany 66: 6563-77 Gao ZM, Wu J, Liu ZA, Wang LS, Ren HX, Shu* QY. 2013. Rapid microsatellite development for tree peony and its implications. BMC Genomics 14: 886 Shu * QY, Wang LS, Wu J, Du H, Liu ZA, Ren* HX, Zhang JJ. 2012. Analysis of the formation of flower shapes in wild species and cultivars of tree peony using the MADS-box subfamily gene. Gene 493: 113-123 Zhang JJ, Shu*QY, Liu ZA, Ren HX, Wang* LS, De Keyser E. 2012. Two EST-derived makrer systems for cultivar identification in tree peony. Plant Cell Reports 31: 299-31012 荆丹丹,刘政安*,李新旭,肖雪霁.2011.牡丹远缘杂种‘和谐’育性的初步研究. 林业科学 47 (10): 59-63. 詹彩虹, 刘政安*, 周守标, 韩小燕.2010.植物园一次科普活动分析. 科普研究 5(1): 28-31. Shu QY, Wischnitzki E, Liu ZA, Ren HX, Han XY, Hao Q, Gao FF, Xu SX, Wang* LS. 2009. Analysis and functional annotation of expressed sequence tags for Tree Peony for the understanding of molecular mechanism controlling flower bud development. Physiologia Plantarum 135: 436-449 Han XY, Wang LS, Shu* QY, Liu ZA, Xu SX, Tetsumura T. 2008. Molecular characterization of Tree Peony germplasms using sequence-related amplified polymorphism markers. Biochemical Genetics 46:162-179 Hao Q, Liu ZA, Shu* QY, De Riek J, Zhang RE, Wang LS. 2008. Studies on Paeonia cultivars and hybrid identification based on Sequence-related amplified polymorphism (SRAP) analysis. Hereditas 145: 38-47 Jia N, Shu QY, Wang* LS, Liu ZA, Ren HX, Xu YJ, Tian DK, Tilt KM. 2008. Identification and Characterization of anthocyanins by High-Performance Liquid Chromatography-Electrospray Ionization-Mass Spectrometry in herbaceous peony species. Journal of The American Society for Horticulture Science 133: 418-426 Jia N, Shu QY, Wang* LS, Du H, Xu YJ, Liu ZA. 2008. Analysis of petal anthocyanins to investigate coloration mechanism in herbaceous peony cultivars. Scientia Horticulturae 117: 167-173 Han XY, Wang LS, Liu ZA, De Riek J, Shu* QY. 2008. Characterization of Sequence-related Amplified Polymorphism Marker Analysis of Tree Peony Bud Sports. Scientia Horticulturae, 115: 261-267 郝青,刘政安*,舒庆艳,王亮生,陈富飞. 2008. 中国首例芍药牡丹远缘杂交种的发现及鉴定. 园艺学报, 35(6): 853-858 韩小燕, 刘政安*, 王亮生. 2008. 丹皮储存过程中药效成分含量变化研究.中药材31: 823-825 韩小燕,刘政安*,王亮生. 2008. 牡丹野生种与主要药用品种的药效成分含量比较.中药材31: 327-331 Zhang JJ, Wang* LS, Shu QY, Liu ZA, Li CH, Zhang J, Wei X, Tian D. 2007. Comparison of anthocyanins in non-blotches and blotches of the petals of Xibei tree peony. Scientia Horticulturae, 114: 104-111 Jiang Z, Liu* ZA, Wang LS, Shu QY. 2007. Relationship between the types of flower-bud differentiation and forcing successive secondary flowering of tree peony. Acta Horticulturae Sinica, 34: 683-687 张晶晶,王亮生*,刘政安,李崇晖. 2006. 牡丹花色研究进展.园艺学报33(6): 1383-1388. 王亮生,刘政安,舒庆艳,韩小燕,李崇晖,肖红强. 2005. 芍药引种栽培试验研究初报. 中国植物园, 9: 181-185 刘政安,王亮生,舒庆艳,王志丰,韩小燕,姜 卓. 2005. 牡丹引种栽培研究初报. 中国植物园, 9: 176-180 刘政安, 王亮生, 张丽萍, 韩小燕. 2005. 丹皮产业化发展中存在的问题与对策.中医药发展与现代科学技术(上册)312 - 316. Liu* ZA, Wang LS, Zhang LP, Shu QY, Han XY. 2005. Problems and strategy on the industrialization of Moutan cortex. Traditional Chinese Medicine Development and Modern Science & Technology. Sichuan Science & Technology Press. 312-316 Wang LS, Liu ZA, Shu QY, Tian DK, Han XY, Zhang JJ, Zhang Z, Li CH. (translated). 2005. Foreword, Preface, Introduction, Chapter 1, Chapter 3, Chapter 5. Chinese Tree Peony (Xibei, Xinan, Jiangnan Volume). Jia-Jue Li (wrote), Chun-Neng Wang et al. (translated). China Forestry Publishing House. pp. 1-15, 26-35, 43-52 Liu ZA, Aoki N, Yamagishi K. 2003. Effect of flower-bud stage and root pruning at onset of chilling on the flowering of forced and retarded tree peony. Horticultural Research (Japan). 2: 101-104 Liu ZA, Aoki N, Yamagishi K, Sakata Y. 2003. Effect of chilling treatment methods on flowering of various retarded tree peony cultivars. Journal of the Japanese Society of Agricultural Technology Management. 10: 55-60 Liu ZA, Aoki N, Ito N, Sakata Y. 2002. Flower-bud differentiation in Chinese tree peony cultivars and grown under protected cover (forced). Journal of the Japanese Society for Horticultural Science. 71: 818-825 Liu ZA. 2002. Study on the forcing and retardation culture of tree peony. United Graduate School of Agricultural Sciences, Tottori University, Japan. p.1-120 Wang LS, Hashimoto F, Aoki N, Liu ZA, Shimizu K, Shiraishi A, Sakata Y. 2002. Effect of forcing culture in tree peony cultivars on flower coloration and petal pigmentation. Journal of the Japanese Society of Agricultural Technology Management. 9: 77-85 Cheng FY, Aoki N, Liu ZA. 2001. Development of forced tree peony and comparative study of pre-chilling effect on Chinese and Japanese cultivars. Journal of the Japanese Society for Horticultural Science. 70: 46-53 Aoki N, Sakata Y, Liu ZA. 2001. Effect of pre-chilling, onset of chilling treatment and topping of terminal bud on the flowering of forced yellow tree peony. Journal of the Japanese Society of Agricultural Technology Management. 8: 25-31 近期主要著作: 《中国二十一世纪的园林之母》第五卷,中国林业出版社. 2023 (副主编) 《中国牡丹栽培》中国牡丹卷二,中原农民出版社. 2023(副主编) 《中国牡丹品种图志》续志,中国林业出版社. 2015 (编委第四) 《中国牡丹品种图志》江南西南西北卷,中国林业出版社. 2006(编委第十二) 《中国牡丹品种图志》中原卷,中国林业出版社. 1997 (编委第二) 专利: [1] 牡丹PsMYB12转录因子及其编码基因与应用(ZL201711479630.1) [2] 获取牡丹种子的油用品质评价模型的方法(ZL201910650549.8) [3] 分离牡丹籽油中的α-亚麻酸的方法(ZL201910831360.9) [4] 一种用于油用牡丹繁殖的培养基及方法(ZL201910627011.5) [5] 油包水包油纳米乳液及其制备方法(ZL202110609413.X) [6] 一种调控牡丹开花的方法(证书号第636443号) [7] 牡丹或芍药授粉器(证书号第7907686号) [8] 移动牡丹园栽培系统(证书号第7899608号) [9] 牡丹避雨遮阳装置(证书号第8068844号) [10] 牡丹栽培专用地膜(证书号第8210956号) [11] 牡丹育苗专用地膜(证书号第8074436号) 成果: [1] “光伏+油用牡丹”创新模式研发与应用(科学技术成果评价证书中科评字【2021】第6666号,证书号2021327ZK6666) [2] 油用牡丹关键技术创新与应用(北京市科学技术委员会成果登记号9112021Y086) [3] 黄土高原油用牡丹高效栽培技术(成果登记号3392018Y0125) [4] 油用牡丹高产、稳产、优质、低成本栽培模式(工业和信息化部科学技术成果登记号3392017Y0189) 获奖及荣誉: [1] 2018年第七届梁希科普成果奖 [2] 2017年荣获陕西榆林佳县优秀三区人才 [3] 2016年荣获唐山世界园艺博览会作品特别奖 [4] 2014年青岛世界园艺博览会特殊贡献奖 [5] 2013年荣获第八届花卉博览会先进个人 [6] 2013年中国“传统插花”首批传承人 [7] 2011年海淀区科普先进个人 [8] 2007年中国农学会研修归国突出贡献奖 [9] 1999年获国家林业局科学技术进步二等奖 |