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Combining Chemoselective Ligation with Polyhistidine-Driven Self- Assembly for the Modular Display of Biomolecules on Quantum Dots

机译：将化学选择性连接与多组氨酸驱动的自组装相结合，用于量子点上生物分子的模块化显示

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One of the principle hurdles to wider incorporation of semiconductor quantum dots (QDs) in biology is the lack of facile linkage chemistries to create different types of functional QD-bioconjugates. A two-step modular strategy for the presentation of biomolecules on CdSe/ZnS core/shell QDs is described here which utilizes a chemoselective, aniline-catalyzed hydrazone coupling chemistry to append hexahistidine sequences onto peptides and DNA. This specifically provides them the ability to ratiometrically self-assemble to hydrophilic QDs. The versatility of this labeling approach was highlighted by ligating proteolytic substrate peptides, an oligoarginine cell-penetrating peptide, or a DNA-probe to cognate hexahistidine peptidyl sequences. The modularity allowed subsequently self-assembled QD constructs to engage in different types of targeted bioassays. The self-assembly and photophysical properties of individual QD conjugates were first confirmed by gel electrophoresis and Forster resonance energy transfer analysis. QD-dye-labeled peptide conjugates were then used as biosensors to quantitatively monitor the proteolytic activity of caspase-3 or elastase enzymes from different species. These sensors allowed the determination of the corresponding kinetic parameters, including the Michaelis constant (KM) and the maximum proteolytic activity (Vmax). QDs decorated with cell-penetrating peptides were shown to be successfully internalized by HEK 293T/17 cells, while nanocrystals displaying peptide-DNA conjugates were utilized as fluorescent probes in hybridization microarray assays. This modular approach for displaying peptides or DNA on QDs may be extended to other more complex biomolecules such as proteins or utilized with different types of nanoparticle materials.

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Prasuhn, D. E.; Blanco-Canosa, J. B.; Vora, G. J.; Delehanty, J. B.; Susumu, K.;
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年度 2009
页码 1-13
总页数 13
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Quantum dots ; Biomolecules ; Enzymes ; Energy transfer ; Deoxyribonucleic acids ; Chemistry ; Hybridization ; Peptides ; Reprints ; Semiconductors;

机译：量子点;生物分子;酶;能量转移;脱氧核糖核酸;化学;杂交;肽;重印;半导体;

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1. Combining chemoselective ligation with polyhistidine-driven self-assembly for the modular display of biomolecules on quantum dots [J] . Prasuhn D.E., Blanco-Canosa J.B., Vora G.J., ACS nano . 2010,第1期

机译：将化学选择性连接与多组氨酸驱动的自组装结合起来，可在量子点上模块化显示生物分子
2. Site-specific cellular delivery of quantum dots with chemoselectively-assembled modular peptides [J] . James B. Delehanty, Juan B. Blanco-Canosa, Christopher E. Bradburne, Chemical Communications . 2013,第72期

机译：化学选择性组装的模块肽的量子点的定点细胞递送
3. Combining modular ligation and supramolecular self-assembly for the construction of star-shaped macromolecules [J] . Altintas O., Muller T., Lejeune E., Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation . 2012,第11期

机译：结合模块化结扎和超分子自组装以构建星形大分子
4. Covalent Layer by Layer (CLbL) Assembly of Hydrogel Coatings via Chemoselective Staudinger Ligation [C] . Hernan R. Rengifo, Kerim M. Gattas-Asfura, Jaime A. Giraldo, Annual meeting of the Society for Biomaterials . 2011

机译：通过化学选择性施陶丁格连接法的水凝胶涂层的共价层（CLbL）组装
5. A design for testability scheme for modular and non-modular Quantum Dot Cellular Automata (QCA) employing stuck-at fault model. [D] . Sultana, Sayeeda. 2006

机译：一种采用卡死模型的模块化和非模块化量子点元胞自动机（QCA）的可测试性方案设计。
6. Combining Chemoselective Ligation with Polyhistidine-Driven Self-Assembly for the Modular Display of Biomolecules on Quantum Dots [O] . Duane E. Prasuhn, Juan B. Blanco-Canosa, Gary J. Vora, -1

机译：用聚亚氨酸驱动的自组装结合化学选择性连接以便在量子点上模块化模块化模块化
7. New Modular Calamitic Ligands for Self-Assembly of Thermostable Quantum Dot Microcapsules via Nematic Templating [O] . Amir Keshavarz, Sheida Riahinasab, Linda Hirst, 2018

机译：用于通过向上模板的热稳定量子点微胶囊自组装的新型模块化鱿鱼配体

Combining Chemoselective Ligation with Polyhistidine-Driven Self- Assembly for the Modular Display of Biomolecules on Quantum Dots

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