纳米材料对林木生长发育影响及其在林木生物学上的应用

编号 lyqk005331

中文标题 纳米材料对林木生长发育影响及其在林木生物学上的应用

作者 毕毓芳  王安可  翟志忠  王玉魁 

作者单位 国家林业局竹子研究开发中心,浙江省竹子高效加工重点实验室,杭州 310012;国家林业局竹子研究开发中心,浙江省竹子高效加工重点实验室,杭州 310012;国家林业局竹子研究开发中心,浙江省竹子高效加工重点实验室,杭州 310012;国家林业局竹子研究开发中心,浙江省竹子高效加工重点实验室,杭州 310012

期刊名称 世界林业研究 

年份 2016 

卷号 29

期号 1

栏目编号 1

栏目名称 专题论述 

中文摘要 纳米材料已广泛应用于电子学、化学、医学材料、信息、环境、能源和安全等领域,但在林业上的应用和研究才刚刚起步。文中主要综述纳米材料对林木生长发育的影响及其在林木生物技术上的应用(主要集中在纳米量子点荧光探针标记以及用纳米材料作为载体介导外源基因进行遗传转化等方面),以及纳米技术在林木生物制药方面的开发应用,对其发展前景进行了展望。

关键词 纳米材料  纳米技术  林木生长发育  林木生物技术  林木生物制药 

基金项目 国家林业局948项目(2013-4-23);国家自然科学基金(30972397);浙江省科技计划项目(2012F20025);浙江省科技计划项目(2014F10047)。

英文标题 Effects of Nano Materials on Tree Growth and Its Application to Forestry Biology

作者英文名 Bi Yufang,Wang Anke,Zhai Zhizhong and Wang Yukui

单位英文名 China National Bamboo Research Center,Key laboratory of High Efficient Processing of Bamboo of Zhejiang Province,Hangzhou 310012,China;China National Bamboo Research Center,Key laboratory of High Efficient Processing of Bamboo of Zhejiang Province,Hangzhou 310012,China;China National Bamboo Research Center,Key laboratory of High Efficient Processing of Bamboo of Zhejiang Province,Hangzhou 310012,China;China National Bamboo Research Center,Key laboratory of High Efficient Processing of Bamboo of Zhejiang Province,Hangzhou 310012,China

英文摘要 Nano materials have been widely applied in various fields such as electronics, chemistry, medicine materials, information, environment, energy and security, but its application to forestry and relevant research are still in infancy. This paper reviewed the influence of nano materials on tree growth and its application to forestry biotechnology, which has been mainly focused on the nano quantum dot florescent probe marking and the utilization of nano materials as the carrier to mediate exogenous genes for genetic transformation. It also reviewed the application of nano technologies in biological pharmaceutical forestry. Finally, its future development was also prospected.

英文关键词 nano materials;nano technology;tree growth;forestry biotechnology;biological pharmaceutical forestry

起始页码 19

截止页码 23

投稿时间 2015/5/13

分类号 S718

DOI 10.13348/j.cnki.sjlyyj.2016.01.004

参考文献 [1] 张立德,牟季美.纳米材料于纳米结构[M].北京:科学出版社,2002:59-66.
[2] 谢寅峰,姚晓华.纳米TiO₂对油松种子萌发及幼苗生长生理的影响[J].西北植物学报,2009,29(10):2013-2018.
[3] 张斌善,韩崇选,张芳宝,等.纳米型植物抗逆剂对油松抗旱促长作用研究[J].西北林学院学报,2015,30(2):121-128.
[4] 李博,陶功胜,王林,等.纳米SiO₂对髯毛箬竹叶片光合特征参数日变化的影响[J].植物资源与环境学报,2011,20(2):1-6.
[5] 谢寅峰,李博,张千千,等.纳米TiO₂对髯毛箬竹光合特性的影响[J].东北林业大学学报,2011,39(2):22-25.
[6] 李博,陶功胜,王林,等.纳米氧化钛对髯毛箬竹叶片的生理调节作用[J].东北林业大学学报,2011,39(9):34-36.
[7] 李博,陶功胜,谢寅峰,等.叶面喷施纳米SiO₂对髯毛箬竹的生理调节效应[J].南京林业大学学报(自然科学版),2012,36(4):161-164.
[8] 李博.纳米材料对两种观赏竹的生理调节作用[D].南京:南京林业大学,2009.
[9] 夏兵,董琛,陆叶,等.纳米材料在植物细胞生物学研究中的应用[J].南京林业大学学报(自然科学版),2011,35(6):121-126.
[10] 杨冬芝,徐淑坤,陈启凡.量子点的荧光特性在生物探针方面的应用[J].光谱学与光谱分析,2007,27(9):1807-1810.
[11] EXTEBERRIA E,GONZALEZ P,FERNANDEZ E B,et al.Fluid phase endocytic uptake of artificial Nano-spheres and fluorescent quantum dots by sycamore cultured cells:evidence for the distribution of solutes to different intracellular compartments[J].Plant Signaling & Behavior,2006,1(4):196-200.
[12] 董琛,施季森,陆叶,等.聚乙二醇介导鹅掌楸悬浮细胞与CdSe/ZnS量子点纳米颗粒共孵育的互作特征[J].中国科学(生命科学),2011,41(6):494-501.
[13] SHAW C H,LEEMANS J,VAN MONTAGU M,et al.A general method for the transfer of cloned genes to plant cells[J].Gene,1983,23(3):315-330.
[14] 吴世宣,张春霞,张英华,等.构建具侵染性的花椰菜花叶病毒克隆[J].科学通报,1988,24:1891-1894.
[15] HUSSAIN M M,MELCHER U,ESSEBERG R C.Infection of evacuolated turnip protoplasts with liposome-packaged cauliflower mosaic virus[J].Plant Cell Reports,1985,4(2):58-62.
[16] ANTONELLI N M,STADLER J.Genomic DNA can be used with cationic methods for highly efficient transformation of maize protoplasts[J].Theoretical and Applied Genetics,1990,80(3):395-401.
[17] FROMM M,TAYLOR L P,WALBOT V.Expression of genes transferred into monocot and dicot plant cells by electroporation[J].Proceedings of the National Academy of Sciences,1985,82(17):5824-5828.
[18] LAZZERI P A,BRETTSCHNEIDER R,LVHRS R,et al.Stable transformation of barley via PEG-induced direct DNA uptake into protoplasts[J].Theoretical and Applied Genetics,1991,81(43):437-444.
[19] SANFORD J C,KLEIN T M,WOLF E D,et al.Delivery of substances into cells and tissues using a particle bombardment process[J].Particulate Science and Technology,1987,5(1):27-37.
[20] 卢雄斌,龚祖埙.植物转基因方法及进展[J].生命科学,1998,10(3):125-131.
[21] ZHOU G Y,GONG Z H,WANG Z F.The molecular basis of remote hybridization, an evidence of the hypothesis that DNA segments of ditantly related plant s may be hybridized[J].Acta Genetica Sinica,1979,6(4):405-413.
[22] 郭荣,邹萍,陆华中.非病毒型纳米载体在基因治疗中的研究现状及展望[J].国外医学生物医学工程分册,2002,25(2):77-81.
[23] 喻超,孙诚谊.纳米医学及纳米载体的应用[J].贵州医药,2007,31(10):949-951.
[24] YI B,LIU F Y,ZHANG H.Gene therapy of mice peritoneal fibrosis by nano-carrier pamam mediated pCTGF-shRNA[J].Cell Biology International, 2008,32(3):329-358.
[25] GUO W,LEE R J.Efficient gene delivery via non-covalent complexes of folic acid and polyethylenimine[J].Journal of Controlled Release,2001,77(1/2):131-138.
[26] ZHU S G,GAN K,LI Z,et al.Biocompatibility of poly-l-lysine-modified silica nanoparticles[J].Chinese Journal of Cancer,2003,22(10):1114-1117.
[27] CORSI K,CHELLAT F,YAHIA L H,et al.Mesenchymal stem cells, MG63 and HEK293 transfection using chitosan-DNA nanoparticles[J].Biomaterials,2003,24(7):1255-1264..
[28] CHEMIN I,MORADPOUR D,WIELAND S,et al.Liver-directed gene transfer:a linear polyethy-lenimine denvative mediates highly efficient DNA delivery to primary hepatocytes in vitro and in vivo[J].Journal of Viral Hepatitis,1998,5(6):369-375.
[29] WANG Q,CHEN J N,ZHANG H Y,et al.Synthesis of water soluble quantum dots for monitoring carrier-DNA nanoparticles in plant cells[J].Journal of Nanoscience and Nanotechnology,2011,11(3):2208-2214.
[30] 孔倩倩.麻疯树高效再生体系的建立及纳米载体转基因技术研究[D].长沙:中南林业科技大学,2010.
[31] McKENNA D J,JONES K,HNGHES K.Efficacy, safety, and use of ginkgo biloba in clinical and preclinical applications[J].Alternative Therapies in Health & Medicine,2001,7(5):70-88.
[32] CHEN C,WEI T,GAO Z.Different effects of the constituents of EGb761 on apoptosis in rat cerebellar granule cells induced by hydroxyl radicals[J].Biochemistry and Molecular Biology International,1999,47(3):397-405.
[33] KIM S J,LIM M H,CHUN I K.Effects of flavonoids of Ginkgo biloba on proliferation of human skin fibroblast[J].Skin Pharmacol,1997,10(4):200-205.
[34] 钱宇,朱斌,田景美,等.银杏叶纳米制剂的降血脂与安全性研究[J].中药药理与临床,2007,23(6):37-42.
[35] 陶冉,王成章,张宇思,等.银杏叶聚戊烯醇纳米乳液的制备研究[J].生物质化学工程,2015,49(1):7-12.
[36] 付艳.银杏内酯PELGE纳米粒的研究[D].成都:四川大学,2007.
[37] WANI M C,TAYLOR H L,WALL M E,et al.Plant antitumor agents:Ⅵ.the isolation and structure of taxol, a novel antileukemic and antitumor agent from Taxus brevifolia[J].Journal of the American Chemical Society,1971,93(9):2325-2327.
[38] 刘素兰,刘诗泆,张海红.脑靶向性紫杉醇脂质体的制备与靶向性研究[J].中国医院药学杂志,2012,32(24):1980-1983.
[39] 张子豫,贾丽君,龚建刚,等.紫杉醇长循环脂质体的制备及其药动学研究[J].食品与药品,2009,11(1):14-17.
[40] 陈伟光,刘源岗,王士斌.阳离子脂质体共载sirna与紫杉醇的制备与性能表征[J].科学通报,2013,58(11):58-64.
[41] 王俊平,赵丽妮,王玮.紫杉醇长循环脂质体用于肿瘤小剂量化疗的研究[J].中国现代应用药学,2010,27(12):1979-1982.
[42] 陈婷,鲁莹,林亚玲,等.包裹多烯紫杉醇plga-peg纳米粒的制备及体外释放度考[J].第二军医大学学报,2011,32(3):1069-1072.
[43] TRICKLER W J,NAGVEKAR A A,DASH A K.A novel nanoparticle formulation for sustained paclitaxel delivery[J].AAPS PharmSciTech,2008, 9(2):486-493.
[44] SHEIKH F A,BARAKAT N A,KANJWAL M A,et al.Novel self-assembled amphiphilic poly(epsilon-caprolactone)-grafted-poly(vinyl alcohol) nanoparticles:hydrophobic and hydrophilic drugs carrier nanoparticles[J].Journal of Materials Science:Materials in Medicine,2009,20(3):821-831.
[45] 马桂蕾,张琳华,宋存先.紫杉醇聚己内酯/泊洛沙姆188载药纳米粒及其抗肿瘤活性[J].生物医学工程与临床,2009,13(6):481-485.
[46] 刘宏盼,奚泉,周建平,等.RGD肽修饰紫杉醇聚合物纳米粒的制备及其药效学研究[J].中国药科大学学报,2013,44(3):228-233.
[47] 陈洁,李博,吴定伟,等.多烯紫杉醇纳米乳的研制和质量评价[J].中国药学杂志,2010,45(4):534-538.

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