Honghong Wu, Israel Santana, Joshua Dansie, Juan P. Giraldo
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引用次数: 23
Abstract
Plant nanobiotechnology is an interdisciplinary field at the interface of nanotechnology and plant biology that aims to utilize nanomaterials as tools to study, augment or impart novel plant functions. The delivery of nanoparticles to plants in vivo is a key initial step to investigate plant nanoparticle interactions and the impact of nanoparticles on plant function. Quantum dots are smaller than plant cell wall pores, have versatile surface chemistry, bright fluorescence and do not photobleach, making them ideal for the study of nanoparticle uptake, transport, and distribution in plants by widely available confocal microscopy tools. Herein, we describe three different methods for quantum dot delivery into leaves of living plants: leaf lamina infiltration, whole shoot vacuum infiltration, and root to leaf translocation. These methods can be potentially extended to other nanoparticles, including nanosensors and drug delivery nanoparticles. © 2017 by John Wiley & Sons, Inc.
纳米颗粒在植物叶片中的体内传递
植物纳米生物技术是纳米技术与植物生物学相结合的跨学科领域,旨在利用纳米材料作为研究、增强或赋予植物新功能的工具。纳米颗粒在植物体内的传递是研究植物纳米颗粒相互作用和纳米颗粒对植物功能影响的关键一步。量子点比植物细胞壁孔小,具有多种表面化学性质,明亮的荧光,不会光漂白,使其成为通过广泛使用的共聚焦显微镜工具研究纳米颗粒在植物中的吸收、运输和分布的理想选择。在此,我们描述了三种不同的量子点传递到活植物叶片的方法:叶片渗透、全茎真空渗透和根到叶转运。这些方法可以潜在地扩展到其他纳米颗粒,包括纳米传感器和药物递送纳米颗粒。©2017 by John Wiley &儿子,Inc。
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