Enzymatic Ligation Creates Discrete Multinanoparticle Building Blocks for Self-Assembly

Shelley A. Claridge; Alexander J. Mastroianni; Yeung B. Au; Huiyang W. Liang; Christine M. Micheel; Jean M. J. Frechet; A. Paul Alivisatos

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Enzymatic Ligation Creates Discrete Multinanoparticle Building Blocks for Self-Assembly

机译：酶促连接创造了用于自组装的离散多纳米颗粒构建基块

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Enzymatic ligation of discrete nanoparticle-DNA conjugates creates nanoparticle dimer and trimer structures in which the nanoparticles are linked by single-stranded DNA, rather than by double-stranded DNA as in previous experiments. Ligation was verified by agarose gel and small-angle X-ray scattering. This capability was utilized in two ways: first, to create a new class of multiparticle building blocks for nanoscale self-assembly and, second, to develop a system that can amplify a population of discrete nanoparticle assemblies.

机译：离散纳米颗粒-DNA偶联物的酶促连接产生了纳米颗粒的二聚体和三聚体结构，其中的纳米颗粒通过单链DNA而不是先前实验中的双链DNA进行连接。通过琼脂糖凝胶和小角X射线散射验证连接。可以通过两种方式来利用此功能：首先，创建用于纳米级自组装的新型多粒子构造块；其次，开发可以放大离散纳米粒子组装数量的系统。

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《Journal of the American Chemical Society》 |2008年第29期|9598-9605|共8页
作者
Shelley A. Claridge; Alexander J. Mastroianni; Yeung B. Au; Huiyang W. Liang; Christine M. Micheel; Jean M. J. Frechet; A. Paul Alivisatos;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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1. Enzymatic Ligation of a Pore Blocker Toxin and a Gating Modifier Toxin: Creating Double-Knotted Peptides with Improved Sodium Channel Na(V)1.7 Inhibition [J] . Tran Hue N. T., Tran Poanna, Deuis Jennifer R., Bioconjugate Chemistry . 2020,第1期

机译：孔阻滞剂毒素的酶促连接和腺苷酸毒素：用改进的钠通道Na（v）1.7抑制产生双打结肽
2. SP1 as a novel scaffold building block for self-assembly nanofabrication of submicron enzymatic structures [J] . Heyman A, Levy I, Altman A, Nano letters . 2007,第6期

机译：SP1作为用于亚微米酶结构自组装纳米加工的新型支架构建基块
3. Aqueous Self-Assembly of Amphiphilic Cyclic Brush Block Copolymers as Asymmetry-Tunable Building Blocks [J] . Yang Junying, Wang Rong, Xie Daiqian Macromolecules . 2019,第18期

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4. Mesoporous Bragg reflectors - block-copolymer self-assembly leads to building blocks with well defined continuous pores and high control over optical properties [C] . S. Guldin, M. Kolle, M. Stefik, Active photonic materials IV . 2011

机译：介孔布拉格反射器-嵌段共聚物的自组装导致具有清晰连续孔并高度控制光学性能的结构单元
5. Design of discrete supramolecular architectures via self-assembly of macromolecular building blocks. [D] . Schlueter, Douglas Charles. 1997

机译：通过大分子构件的自组装设计离散的超分子体系结构。
6. Design and Synthesis of Porphyrins Bearing Rigid Hydrogen Bonding Motifs: Highly Versatile Building Blocks for Self-Assembly of Polymers and Discrete Arrays [O] . Xinxu Shi, Kathleen M. Barkigia, Jack Fajer, -1

机译：带有刚性氢键基序的卟啉的设计与合成：用于聚合物和离散阵列自组装的高度通用的构建基块
7. Enzymatic Ligation Creates Discrete Multinanoparticle Building Blocks for Self-Assembly [O] . Shelley A. Claridge, Alexander J. Mastroianni, Yeung B. Au, 2008

机译：酶连接为自组装产生离散的多南组座块构建块

Enzymatic Ligation Creates Discrete Multinanoparticle Building Blocks for Self-Assembly

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