Highly efficient uptake of ultrafine mesoporous silica nanoparticles with excellent biocompatibility by Liriodendron hybrid suspension cells 被引量：2

Highly efficient uptake of ultrafine mesoporous silica nanoparticles with excellent biocompatibility by Liriodendron hybrid suspension cells

原文传递

导出

摘要 The characteristics of the interactions co-cultures of ultrafine mesoporous silica nanoparticles （MSNs） and the Liriodendron hybrid suspension cells were systematically investigated using laser scanning confocal microscope （LSCM） and scanning elec- tron microscopy （SEM）. Using fluorescein isothiocyanate （FITC） labeling, the LSCM observations demonstrated that MSNs （size, 5-15 nm） with attached FITC molecules efficiently penetrated walled plant cells through endocytic pathways, but free FITC could not enter the intact plant cells, The SEM measurements indicated that MSNs readily aggregated on the surface of intact plant cells, and also directly confirmed that MSNs could enter intact plant cells; this was achieved by determining the amount of silicon present. After 24 h of incubation with 1.0 mg mL-t of MSNs, the viability of the plant cells was analyzed using fluorescein diacetate staining; the results showed that these cells retained high viability, and no cell death was observed. Interestingly, after the incubation with MSNs, the Liriodendron hybrid suspension cells retained the capability for plant regen- eration via somatic embryogenesis. Our results indicate that ultrafine MSNs hold considerable potential as nano-carriers of ex- tracellular molecules, and can be used to investigate in vitro gene-delivery in plant cells. The characteristics of the interactions co-cultures of ultrafine mesoporous silica nanoparticles (MSNs) and the Liriodendron hybrid suspension cells were systematically investigated using laser scanning confocal microscope (LSCM) and scanning electron microscopy (SEM). Using fluorescein isothiocyanate (FITC) labeling, the LSCM observations demonstrated that MSNs (size, 5-15nm) with attached FITC molecules efficiently penetrated walled plant cells through endocytic pathways, but free FITC could not enter the intact plant cells. The SEM measurements indicated that MSNs readily aggregated on the surface of intact plant cells, and also directly confirmed that MSNs could enter intact plant cells; this was achieved by determining the amount of silicon present. After 24 h of incubation with 1.0mg mL-1 of MSNs, the viability of the plant cells was analyzed using fluorescein diacetate staining; the results showed that these cells retained high viability, and no cell death was observed. Interestingly, after the incubation with MSNs, the Liriodendron hybrid suspension cells retained the capability for plant regeneration via somatic embryogenesis. Our results indicate that ultrafine MSNs hold considerable potential as nano-carriers of extracellular molecules, and can be used to investigate in vitro gene-delivery in plant cells.

作者 XIA Bing DONG Chen ZHANG WenYi LU Ye CHEN JinHui SHI JiSen

机构地区 Key Laboratory of Forest Genetics & Biotechnology (Ministry of Education of China) Advanced Analysis and Testing Center

出处《Science China(Life Sciences)》 SCIE CAS 2013年第1期82-89,共8页 中国科学（生命科学英文版）

基金 supported by the National Natural Science Foundation of China (30930077,31000164)

关键词 mesoporous silica nanoparticles ENDOCYTOSIS cytotoxicity somatic embryogenesis 二氧化硅纳米粒子杂种鹅掌楸悬浮细胞生物相容性高效吸收介孔激光扫描共聚焦显微镜异硫氰酸荧光素

分类号 S792.21 [农业科学—林木遗传育种]

引文网络
相关文献

参考文献2

1Lin Wang,Wenjun Zhao,Weihong Tan.Bioconjugated Silica Nanoparticles: Development and Applications[J].Nano Research,2008,1(2):99-115. 被引量：18
2LI Ying CUI Hai-xin SONG Yu LI Yao HUANG Jin-li.Transient Expression of Exogenous Gene into Plant Cell Mediated by PEI Nanovector[J].Agricultural Sciences in China,2011,10(6):820-826. 被引量：5

二级参考文献24

1Antonelli N M, Stadle J. 1996. Genomic DNA can be used with cationic methods for highly efficient transformation of maize protoplasts. Theoetical and Applied Geneicst, g0, 395-401. 被引量：1
2Bretell R L S. 1995. Biotechnology and Genetic Engineering Reviews, 13, 315-334. 被引量：1
3Dunlap D D, Maggi A, Soda M R, Monaco L. 1997. Nanoscopic structure of DNA condensed for gene delivery. Nucleic Acids Research, 25, 3095-3101. 被引量：1
4Doelling J H, Pikaard C S. 1993. Transient expression in Arabidopsis thaliana protoplass derived from rapidly established cell suspension cultures. Plant Cell Reports, 12, 241-244. 被引量：1
5Fromm M E, Taylor L P, Walbot V. 1985. Expression of genes transferred into monocot and dicot plant cells by electroporation. Proceedings of the National Academy of Sciences of the USA, 82, 5824-5828. 被引量：1
6Gebhart C L, Kabanov A V. 2001. Evaluation of polyplexes asgene transfer agents. Journal of Controlled Release, 73, 401-416. 被引量：1
7Gogbey W T, Saggau P, Barry M A, Wu K K, Mikos A G. 2000. Poly(ethylenimine)-mediated transfection: a new paradigm for non-viral gene delivery. Journal of Biomedical Materials Research, 51,321-328. 被引量：1
8Gogbey W T, Wu K K, Mikos A G. 1999. Size matters: molecular weight affects the efficiency of poly(ethylenimine) as a gene delivery vehicle. Journal of Biomedical Materials Research, 45, 268-275. 被引量：1
9Herrera-Estrella L, van den Broeck G, Maenhaut R, van Montagu M, Schell J, Timko M, Cashmore A. 1984. Light-inducible and chloroplast-assciated expression of a chimaeric gene introduced into Nicotiana tabacum using a Ti plasmid vector. Nature, 310, 115-120. 被引量：1
10Hussain M M, Melcher U, Essenberg R C. 1985. Infection of evacuolated tumip protoplasts with liposome-packaged cauliflower mosaio virus. Plant Cell Reports, 4, 58-62. 被引量：1

共引文献20

1韩涛,肖清平,宋仲容.磁性SiO2微球的制备、表面修饰及其在生物医学领域的应用[J].国际生物医学工程杂志,2010,33(2):125-128. 被引量：3
2ZHAO XiangWei, ZHAO YuanJin & GU ZhongZe State Key Laboratory of Bioelectronics,Southeast University, Nanjing 210096, China.Advances of multiplex and high throughput biomolecular detection technologies based on encoding microparticles[J].Science China Chemistry,2011,54(8):1185-1201. 被引量：2
3KONG RongMei, CHEN Zhuo, YE Mao, ZHANG XiaoBing & TAN WeiHong State Key Laboratory for Chemo/Biosensing and Chemometrics,College of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, China.Cell-SELEX-based aptamer-conjugated nanomaterials for enhanced targeting of cancer cells[J].Science China Chemistry,2011,54(8):1218-1226. 被引量：13
4张宝华,王开宇.固相吸附核酸提取法及其在丙型肝炎病毒RNA提取中的应用[J].现代检验医学杂志,2012,27(5):146-149. 被引量：1
5夏兵,董琛,张文一,陆叶,陈金慧,施季森.杂交鹅掌楸悬浮细胞高效摄取具有良好生物相容性的超微介孔氧化硅纳米颗粒[J].中国科学：生命科学,2013,43(2):177-184. 被引量：1
6Guangbao Yang Hua Gong Xiaoxin Qian Pengli Tan Zhiwei Li Teng Liu Jingjing Liu Youyong Li Zhuang Liu.Mesoporous silica nanorods intrinsically doped with photosensitizers as a multifunctional drug carrier for combination therapy of cancer[J].Nano Research,2015,8(3):751-764. 被引量：11
7杜江锋,葛翠翠.碳纳米管与蛋白质相互作用的机制及其生物效应[J].科学通报,2015,60(31):2977-2988. 被引量：2
8程玲,朱瑾,仲月,张红漫,韩毓旺.NaYF_4∶Yb^(3+),Er^(3+)上转换发光材料的葡聚糖表面改性及醛基化研究[J].化工新型材料,2016,44(4):149-151.
9杨琳燕,龙雨清,路垚,艾霞,马吉飞,金天明.基于单壁金属有机纳米管(SWMONTs)的药物传递系统（英文）[J].南开大学学报（自然科学版）,2016,49(5):57-65.
10霍爱玲,陈金慧,甄艳,夏兵,陈桢雨,施季森.有机纳米材料在植物核酸递送中的研究进展[J].江苏农业科学,2017,45(22):1-4. 被引量：4

同被引文献11

1杨国顺,谢丙炎,杨宇红,王晓武,卢向阳,蒋芳玲.应用绿色荧光蛋白报告基因优化辣椒的遗传转化体系[J].园艺学报,2004,31(6):737-742. 被引量：12
2刘凡,赵泓,陈斌,张月云.辣椒游离小孢子细胞团培养的胚状体形成[J].分子细胞生物学报,2007,40(6):371-379. 被引量：14
3王凤华,刘俊,童春义,汪启明,唐冬英,易龙,王玲玲,刘选明.电击法磁性纳米颗粒作为水稻转基因载体的研究[J].分析化学,2010,38(5):617-621. 被引量：10
4董琛,施季森,陆叶,陈金慧,夏兵.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. 被引量：7
5杜志钊,高润红,陈志伟,何婷,李梁,郭桂梅,陆瑞菊,黄剑华.利用基因枪轰击花药将GUS基因导入大麦小孢子[J].麦类作物学报,2011,31(6):1025-1029. 被引量：2
6FU Yu-qin,LI Lu-hua,WANG Pi-wu,QU Jing,FU Yong-ping,WANG Hui,SUN Jing-ran,LÜ Chang-li.Delivering DNA into Plant Cell by Gene Carriers of ZnS Nanoparticles[J].Chemical Research in Chinese Universities,2012,28(4):672-676. 被引量：4
7薛建平,张爱民.不同基因型小麦花药培养过程中药壁变化的研究[J].植物学通报,2002,19(3):354-358. 被引量：5
8李秋庆,陈国菊,曹必好,陈长明,雷建军.农杆菌介导PSAG12-IPT基因转化辣椒的研究[J].辣椒杂志,2015(2):23-29. 被引量：4
9王仲慧,刘金兵,刁卫平,王述彬,潘宝贵,戈伟.辣椒花药培养胚状体发生途径影响因子研究[J].核农学报,2015,29(8):1471-1478. 被引量：21
10张振超,潘跃平,毛忠良,颜志明,吴国平,姚悦梅,秦文斌,解振强,戴忠良.青花菜与甘蓝型油菜小孢子共培养技术研究[J].核农学报,2015,29(8):1487-1493. 被引量：6

引证文献2

1霍爱玲,陈金慧,甄艳,夏兵,陈桢雨,施季森.无机纳米颗粒在植物转化中的应用[J].南京林业大学学报（自然科学版）,2016,40(6):162-166. 被引量：3
2张晓芬,王国云,杜和山,陈斌,温长龙,耿三省.基因枪法介导的辣椒花药遗传转化技术研究[J].核农学报,2018,32(11):2081-2087. 被引量：1

二级引证文献4

1孙敬爽,胡瑞阳,郑广顺,麻文俊,许言,王军辉.纳米载体介导的植物遗传转化研究现状和前景[J].生物技术通报,2021,37(2):162-173. 被引量：5
2孙国胜,杨宇,许可翠,张昌伟,戴忠良,孙春青,马志虎.纳米磁性颗粒介导的辣椒遗传转化体系建立[J].核农学报,2021,35(6):1307-1312. 被引量：3
3薛晨怡,刘林佳,王婷,宫磊,金龙,韩建刚,李胎花.荧光法检测重金属铅离子的研究进展[J].应用化学,2022,39(7):1039-1051. 被引量：7
4姚雪,崔履军,程慧玲,马慧欣,叶婷,别之龙,吴洪洪.碳纳米管在植物遗传物质递送中的研究进展[J].中国生态农业学报（中英文）,2024,32(5):737-744.

1王改萍,彭方仁,汤文娟.几种木本植物蛋白质的电泳分析[J].西南林学院学报,2008,28(2):42-44. 被引量：5
2可杀死癌症细胞的机器人[J].技术与市场,2009,16(9):98-98.
3Surbhi Kumari,P.D.Sahare.Optical Studies of Fluorescent Mesoporous Silica Nanoparticles[J].Journal of Materials Science & Technology,2013,29(8):742-746.
4刘光欣,陈金慧,孙杰,愈天驰,施季森.杂种鹅掌楸体胚苗根尖染色体核型分析[J].南京林业大学学报（自然科学版）,2012,36(6):13-16. 被引量：2
5Sawsan A. Oran,Ahmad H. AI-Gabbiesh.Conservation of Iris bismarckiana Regel （Iridaceae） Using Plant Regeneration via Somatic Embryogenesis[J].Journal of Agricultural Science and Technology(A),2014,4(7):605-611.
6张娟,徐静娟,陈洪渊.基于SiO_2纳米粒子固定辣根过氧化物酶的生物传感器[J].高等学校化学学报,2004,25(4):614-617. 被引量：24
7徐进,王章荣.鹅掌楸属种间杂种与亲本花粉壁的超微结构的比较观察[J].植物学通报,2005,22(1):35-38. 被引量：8
8上海科学家揭开人体细胞高效吸收胆固醇之谜[J].生物学教学,2011(8):79-79.
9刘荣,吕红.多媒体技术在英语教学中的应用[J].中国科技信息,2011(16):186-186.
10徐永健,钱鲁闽,焦念志.添加大型海藻龙须菜对中肋骨条藻赤潮的影响[J].台湾海峡,2005,24(4):533-539. 被引量：8

Science China(Life Sciences)

2013年第1期

浏览历史

内容加载中请稍等...