Conjugated Quantum Dots Allow for the Co-Localization of Endogenous Proteins in Submicroscopic Structures of the Rat Cerebellum

Abdel I. El Abed; A. Baudot; M. Chat; S. Ben Khalifa; G. Louis

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Conjugated Quantum Dots Allow for the Co-Localization of Endogenous Proteins in Submicroscopic Structures of the Rat Cerebellum

机译：共轭量子点允许大鼠小脑亚显微结构中内源性蛋白质的共定位

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GABA and glutamate are known as the principal inhibitory and excitatory neurotransmitters in the vertebrate central nervous system, respectively. However, recent electro-physiological and immunogold literature data indicate that GABA may undergo also an excitatory action on presynaptic varicosities of parallel fibers (PFs) in the molecular layer of the rat cerebellum. PFs are axonal extensions, with a cross section of about 0.1 μm, of the glutamatergic granule cells. Such an unexpected excitatory action of GABA indicates clearly the presence of GABA receptors in the PFs of granule cells. We show in this study that quantum dots may be used specifically and efficiently to label two endogenous synaptic proteins, namely R-GABA_A-α1 receptors (GABA_A Rs) and glutamate transporters (VGLUT1) in order to target their localization in very small structures such as the presynaptic varicosities of the PFs.

机译：GABA和谷氨酸分别被称为脊椎动物中枢神经系统中的主要抑制和兴奋性神经递质。但是，最近的电生理学和免疫金文献数据表明，GABA可能还对大鼠小脑分子层中平行纤维（PFs）的突触前静脉曲张发生兴奋性作用。 PF是谷氨酸能颗粒细胞的轴突延伸区，其横截面约为0.1μm。 GABA的这种意外的兴奋作用清楚地表明了颗粒细胞的PF中存在GABA受体。我们在这项研究中表明，量子点可以被专门有效地用于标记两种内源性突触蛋白，即R-GABA_A-α1受体（GABA_A Rs）和谷氨酸转运蛋白（VGLUT1），以便将其定位在非常小的结构中，例如PFs的突触前静脉曲张。

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《Journal of nanoscience and nanotechnology》 |2012年第6期|共5页
作者
Abdel I. El Abed; A. Baudot; M. Chat; S. Ben Khalifa; G. Louis;
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正文语种 eng
中图分类特种结构材料;
关键词
Quantum Dots; Fluorescence Microscopy; Co-Localization; Interneurons; Parallel Fibers; Diffraction Limited Resolution;

机译：量子点;荧光显微镜;共定位;中间神经元;平行光纤;衍射受限分辨率;

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1. Conjugated Quantum Dots Allow for the Co-Localization of Endogenous Proteins in Submicroscopic Structures of the Rat Cerebellum [J] . Abdel I. El Abed, A. Baudot, M. Chat, Journal of nanoscience and nanotechnology . 2012,第6期

机译：共轭量子点允许大鼠小脑亚显微结构中内源性蛋白质的共定位
2. One-Step Instant Synthesis of Protein-Conjugated Quantum Dots at Room Temperature [J] . Xuewen He, Li Gao, Nan Ma Scientific reports. . 2013,第1期

机译：室温下一步一步合成蛋白质缀合的量子点
3. Nucleoside conjugates of quantum dots for characterization of G protein-coupled receptors: strategies for immobilizing A 2A adenosine receptor agonists [J] . Arijit Das, Gangadhar J Sanjayan, Mikl#243, Journal of Nanobiotechnology . 2010,第1期

机译：量子点的核苷共轭物用于G蛋白偶联受体的表征：固定A 2A腺苷受体激动剂的策略
4. Localizing GABA receptors and glutamate transporters using conjugated quantum dots in rat cerebellum slices [C] . Abdel I. El Abed, Anne Baudot, Mireille Chat, MRS Meeting . 2010

机译：使用缀合的量子点在大鼠小脑切片中定位GABA受体和谷氨酸转运蛋白
5. High affinity peptide neurotoxin quantum dot conjugates for detecting endogenous targets in live cells and ex vivo tissue [D] . Orndorff, Rebecca Lee 2009

机译：高亲和力肽神经毒素量子点缀合物，用于检测活细胞和离体组织中的内源性靶标
6. Nucleoside conjugates of quantum dots for characterization of G protein-coupled receptors: strategies for immobilizing A2A adenosine receptor agonists [O] . Arijit Das, Gangadhar J Sanjayan, Miklós Kecskés, 2010

机译：量子点的核苷共轭物表征G蛋白偶联受体：固定化A2A腺苷受体激动剂的策略
7. Nucleoside conjugates of quantum dots for characterization of G protein-coupled receptors: strategies for immobilizing A2A adenosine receptor agonists [O] . Das, Arijit, Sanjayan, Gangadhar J, Kecskes, Miklos, 2010

机译：量子点的核苷共轭物用于G蛋白偶联受体的表征：固定A2A腺苷受体激动剂的策略

Conjugated Quantum Dots Allow for the Co-Localization of Endogenous Proteins in Submicroscopic Structures of the Rat Cerebellum

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