Confinement of single macromolecules in free solution using a hydrodynamic trap

机译：使用流体动力阱将单个大分子限制在自由溶液中

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We demonstrate the feasibility of trapping and manipulating individual macromolecules such as globular proteins (～ 5 nm in diameter) in free solution using a flow-based, microfluidic confinement method. This new method enables confinement of small nanoscale objects in free solution by utilizing a planar extensional flow created at a microchannel junction. The fluid flow based confinement method described in this work expands the microanomanipulation toolbox by offering a powerful and versatile platform for non-perturbative observation and analysis of single macromolecules in free solution without force fields (electrical, magnetic, optical and acoustic) and surface immobilization.

机译：我们证明了使用基于流动的微流体限制方法在自由溶液中捕获和操纵单个大分子（例如球状蛋白（直径约5 nm））的可行性。通过利用在微通道接合处产生的平面延伸流，该新方法能够将小纳米尺度的物体限制在自由溶液中。这项工作中描述的基于流体流动的限制方法，通过提供强大而通用的平台，可以在无力场（电，磁，光和声）和表面没有自由溶液的情况下，对单个大分子进行无扰动观察和分析，从而扩展了微/纳微夹持工具箱固定。

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《Conference on microfluidics, bioMEMS, and medical microsystems XII》|2014年|89760F.1-89760F.6|共6页
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Melikhan Tanyeri;
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Micro- and nanomanipulation; tweezers; trapping; hydrodynamic trap; microfluidics;

机译：微观和纳米操作;镊子;陷阱流体动力陷阱微流体;

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4. Towards Stable Trapping of Single Macromolecules in Solution [C] . Arijit Kumar De, Debjit Roy, Debabrata Goswami Optical trapping and optical micromanipulation VII . 2010

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5. Transverse confinement of steel free deck slabs by prestressed concrete straps. [D] . Banthia, Vaibhav. 2003

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6. Towards Stable Trapping of Single Macromolecules in Solution [O] . Arijit Kumar De, Debjit Roy, Debabrata Goswami -1

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7. Confinement of single macromolecules in free solution using a hydrodynamic trap [O] . Tanyeri Melikhan 2014

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8. Trapping and Solution of Fission Xe in UO sub 2 : Single Gas Atoms and Solution from Underpressurised Bubbles [R] . Jackson, R. A., Catlow, C. R. A. 1985

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Confinement of single macromolecules in free solution using a hydrodynamic trap

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