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Immunogold Electron Microscopy01:20

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Immunoelectron microscopy utilizes immunogold labeling of endogenous proteins with specific antibodies to detect and localize these proteins in cells and tissues. The procedure provides insights into the distribution and quantification of protein under different stimulation conditions offering clues about their functions. Conjugating highly electron-dense gold particles with primary or secondary antibodies allow antigen detection on and within cells, with high resolution and specificity.
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Fluorescence in situ hybridization, or FISH, was developed in the early 1980s and has quickly become one of the most widely used techniques in cytogenetics. Labeled probes are used to bind complementary DNA or RNA sequences on a chromosome or in a region within a cell. Earlier, the probes could only be obtained by cloning or reverse transcription of a DNA template. Currently, the probe oligonucleotides can be synthesized synthetically. Additionally, with the advancement of optical techniques,...
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Synthesis of Near-Infrared Emitting Gold Nanoclusters for Biological Applications
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高光金クラスター組

Hogeun Chang1,2, Niladri S Karan1,2, Kwangsoo Shin1,2

  • 1Center for Nanoparticle Research, Institute for Basic Science (IBS), Seoul 08826, Republic of Korea.

Journal of the American Chemical Society
|December 21, 2020
PubMed
まとめ
この要約は機械生成です。

研究者は高発光黄金クラスター (GCA) を開発し,最大90%の量子収量を実現しました. これらの新材料は先進的な 薬物投与システムの可能性を示しています

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科学分野:

  • 材料科学
  • ナノテクノロジー
  • 写真化学

背景:

  • 金属ナノクラスター (NCs) の光発光 (PL) は,従来の発光材料と比較して低い量子出力 (QYs) によって制限されています.
  • より広範な適用のために,NCにおけるPL効率の向上は極めて重要です.

研究 の 目的:

  • 高度発光する黄金クラスター (GCA) を合成し,光発光性能を向上させる.
  • 薬剤投与アプリケーションにおけるGCAの可能性を調査する.

主な方法:

  • メルカプトカルボキシル酸を用いたAu4 (SRCOO-) 4クラスタの合成
  • 金のクラスターをZn2+イオン媒介でGCAに組み込む.
  • GCAの光発光特性と組み立て行動の特徴づけ

主要な成果:

  • 超明快な緑青色光度 (QY) が最大90%に達した.
  • オーロフィルの相互作用と金属イオンのケレーションのシナジェティック効果が示され,発光が強化された.
  • 調節可能な解体/再組みと集積依存の光がGCAで観察された.

結論:

  • 高度発光する黄金のクラスターを合成する新しい方法を開発した.
  • GCAは,独自の光特性と組み立て行動により,生物分解性および追跡可能な薬物投与システムに重要な可能性を秘めています.