Micro-fluidic channels on nanopatterned substrates: Monitoring protein binding to lipid bilayers with surface-enhanced Raman spectroscopy

Banerjee A; Perez-Castillejos R; Hahn D; Smirnov AI; Grebel H

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Micro-fluidic channels on nanopatterned substrates: Monitoring protein binding to lipid bilayers with surface-enhanced Raman spectroscopy

机译：纳米图案底物上的微流体通道：通过表面增强拉曼光谱监测蛋白质与脂质双层的结合

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We used surface-enhanced Raman spectroscopy (SERS) to detect binding events between streptavidin and biotinylated lipid bilayers. The binding events took place at the surface between micro-fluidic channels and anodized aluminum oxide (AAO) with the latter serving as substrates. The bilayers were incorporated in the substrate pores. It was revealed that non-bound molecules were easily washed away and that large suspended cells (Salmonella enterica) are less likely to interfere with the monitoring process: when focusing to the lower surface of the channel, one may resolve mostly the bound molecules.

机译：我们使用表面增强拉曼光谱（SERS）来检测链霉亲和素和生物素化脂质双层之间的结合事件。结合事件发生在微流体通道和阳极氧化铝（AAO）之间的表面，后者用作底物。将双层结合到基质孔中。结果表明，未结合的分子很容易被冲走，大的悬浮细胞（沙门氏菌）不太可能干扰监测过程：当聚焦到通道的下表面时，一个分子可能会分解大部分结合的分子。

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来源
《Chemical Physics Letters》 |2010年第3期|共6页
作者
Banerjee A; Perez-Castillejos R; Hahn D; Smirnov AI; Grebel H;
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正文语种 eng
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PLASMON RESONANCE; NANOTUBE ARRAYS; OXIDE FILMS; SCATTERING; URACIL; DNA; ALUMINUM; AFFINITY;

机译：等离子共振;纳米管阵列;氧化物膜;散射;尿嘧啶;DNA;铝;亲和力;

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专利

1. Micro-fluidic channels on nanopatterned substrates: Monitoring protein binding to lipid bilayers with surface-enhanced Raman spectroscopy [J] . Banerjee A, Perez-Castillejos R, Hahn D, Chemical Physics Letters . 2010,第1a3期

机译：纳米图案底物上的微流体通道：通过表面增强拉曼光谱监测蛋白质与脂质双层的结合
2. Potential-Induced Structural Alterations in the Tethered Bilayer Lipid Membrane-Anchoring Monolayers Revealed by Electrochemical Surface-Enhanced Raman Spectroscopy [J] . Talaikis Martynas, Valincius Gintaras, Niaura Gediminas The journal of physical chemistry, C. Nanomaterials and interfaces . 2020,第35期

机译：通过电化学表面增强拉曼光谱揭示的束缚双层脂质膜 - 锚定单层的潜在诱导的结构改变
3. Surface-Enhanced Raman Spectroscopy of Fluid-Supported Lipid Bilayers [J] . Bruzas Ian, Brinson Bruce E., Gorunmez Zohre, ACS applied materials & interfaces . 2019,第36期

机译：流体负载脂质双层的表面增强拉曼光谱
4. Monitoring changes of proteins and lipids in laser welded aorta tissue using Raman spectroscopy and basis biochemical component analyses [C] . C. H. Liu, W. B. Wang, A. Alimova, Optical interactions with tissue and cells XX . 2009

机译：使用拉曼光谱法和基础生化成分分析监测激光焊接的主动脉组织中蛋白质和脂质的变化
5. The role of the lipid bilayer in substrate binding to the P-glycoprotein multidrug transporter [D] . Dyer, Andrew 2008

机译：脂质双层在底物与P-糖蛋白多药转运蛋白结合中的作用
6. Microfluidic Channels on Nanopatterned Substrates: Monitoring Protein Binding to Lipid Bilayers with Surface-Enhanced Raman Spectroscopy [O] . Amrita Banerjee, R. Perez-Castillejos, D. Hahn, -1

机译：在纳米图形衬底的微流体通道：监测蛋白结合到脂双层与表面增强拉曼光谱
7. Micro-fluidic channels on nanopatterned substrates: Monitoring protein binding to lipid bilayers with surface-enhanced Raman spectroscopy [O] . Amrita Banerjee, R. Perez-Castillejos, D. Hahn, 2010

机译：纳米透明基底上的微流体通道：监测蛋白质与具有表面增强拉曼光谱的脂双层的蛋白质结合

Micro-fluidic channels on nanopatterned substrates: Monitoring protein binding to lipid bilayers with surface-enhanced Raman spectroscopy

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