De Pace C scite author profile

De Pace C

2Publications

3Citation Statements Received

83Citation Statements Given

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Institute of Structural and Molecular Biology, University College London, Living Systems (United States)

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4D imaging of soft matter in liquid water

Battaglia

Marchello

et al. 2021

Preprint

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Water is a critical component for both function and structure of soft matter and it is what bestows the adjective soft. Imaging samples in liquid state is thus paramount to gathering structural and dynamical information of any soft materials. Herein we propose the use of liquid phase electron microscopy to expand ultrastructural analysis into dynamical investigations. We imaged two soft matter examples: a polymer micelle and a protein in liquid phase using transmission electron microscopy and demonstrate that the inherent Brownian motion associated with the liquid state can be exploited to gather three-dimensional information of the materials in their natural state. We call such an approach brownian tomography (BT). We combine BT with single particle analysis (Brownian particle analysis BPA) to image protein structures with a spatial resolution close that achievable using cryogenic TEM. We show that BPA allows sub-nanometer resolution of soft materials and enables to gather information on conformational changes, hydration dynamics, and the effect of thermal fluctuations.Abstract Figure

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Microtubule Probe for Correlative Super-Resolution Fluorescence and Electron Microscopy

Tian

Ruiz‐Pérez

et al. 2018

Preprint

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We report a versatile cyclometalated Iridium (III) complex probe that achieves synchronous fluorescence-electron microscopy correlation to reveal microtubule ultrastructure in cells. The selective insertion of probe between repeated and units of microtubule triggers remarkable fluorescent enhancement, and high TEM contrast due to the presence of heavy Ir ions. The highly photostable probe allows live cell imaging of tubulin localization and motion during cell division with an resolution of 20 nm, and under TEM imaging reveals the unit interspace of 45Å of microtubule in cells.

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De Pace C

4D imaging of soft matter in liquid water

Microtubule Probe for Correlative Super-Resolution Fluorescence and Electron Microscopy

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