Gil A. Gonzalez scite author profile

Gil A. Gonzalez

5Publications

41Citation Statements Received

104Citation Statements Given

How they've been cited

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100

Affiliations

Purdue University System, Purdue University West Lafayette

Publications

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Real-time precision opto-control of chemical processes in live cells

et al. 2022

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Precision control of molecular activities and chemical reactions in live cells is a long-sought capability by life scientists. No existing technology can probe molecular targets in cells and simultaneously control the activities of only these targets at high spatial precision. We develop a real-time precision opto-control (RPOC) technology that detects a chemical-specific optical response from molecular targets during laser scanning and uses the optical signal to couple a separate laser to only interact with these molecules without affecting other sample locations. We demonstrate precision control of molecular states of a photochromic molecule in different regions of the cells. We also synthesize a photoswitchable compound and use it with RPOC to achieve site-specific inhibition of microtubule polymerization and control of organelle dynamics in live cells. RPOC can automatically detect and control biomolecular activities and chemical processes in dynamic living samples with submicron spatial accuracy, fast response time, and high chemical specificity.

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Pulse-Picking Multimodal Nonlinear Optical Microscopy

2022

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Nonlinear optical microscopy techniques can map chemical compositions in biological samples in a label-free manner. Commonly used nonlinear optical processes for imaging include multiphoton excitation fluorescence (MPEF), second harmonic generation (SHG), and coherent Raman scattering (CRS). Femtosecond lasers are typically used for MPEF and SHG due to the requirement of high peak power for excitation, while picosecond lasers are preferred for CRS due to the need for high spectral resolution. Therefore, it is challenging to integrate CRS with MPEF and SHG for chemical imaging. We develop a pulsepicking strategy based on an acousto-optic modulator that can program the duty cycle of the laser pulse train, significantly increasing the pulse peak power at low input average power. This approach offers strong enhancement of nonlinear optical signals and makes hyperspectral coherent anti-Stokes Raman scattering (CARS) microscopy compatible with MPEF and SHG for multimodal imaging at low laser average power. The pulse-picking method also enables the evaluation and comparison of phototoxicity of laser pulses at different average and peak power levels. The photo-perturbations to biological samples are evaluated using cellular dynamics and sample morphological changes, allowing the selection of optimal laser power for the best sensitivity and minimal phototoxicity.

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Direct Comparison of Hyperspectral Stimulated Raman Scattering and Coherent Anti-Stokes Raman Scattering Microscopy for Chemical Imaging

Clark

Brasseale

Gonzalez

et al. 2022

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Direct Comparison of Hyperspectral Stimulated Raman Scattering and Coherent Anti-Stokes Raman Scattering Microscopy for Chemical Imaging

Clark

Brasseale

Gonzalez

et al. 2022

JoVE

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Real-time precision opto-control (RPOC) of biomolecules using chemical selective optical signals

Clark

Carlsen

Gonzalez

et al. 2022

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Gil A. Gonzalez

Real-time precision opto-control of chemical processes in live cells

Pulse-Picking Multimodal Nonlinear Optical Microscopy

Direct Comparison of Hyperspectral Stimulated Raman Scattering and Coherent Anti-Stokes Raman Scattering Microscopy for Chemical Imaging

Direct Comparison of Hyperspectral Stimulated Raman Scattering and Coherent Anti-Stokes Raman Scattering Microscopy for Chemical Imaging

Real-time precision opto-control (RPOC) of biomolecules using chemical selective optical signals

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