Qingtao Gong scite author profile

Dual view transport of intensity phase microscopy is adopted to quantitatively study the regulation of adenosine triphosphate (ATP) on cellular mechanics. It extracts cell phases in real time from simultaneously captured under-and over-focus images. By computing the root-mean-square phase and correlation time, it is found that the cellular fluctuation amplitude and speed increased with ATP compared to those with ATP depletion. Besides, when adenylyl-imidodiphosphate (AMP-PNP) was introduced, it competed with ATP to bind to the ATP binding site, and the cellular fluctuation amplitude and speed decreased. The results prove that ATP is a factor in the regulation of cellular mechanics. To our best knowledge, it is the first time that the dual view transport of intensity phase microscopy was used for live cell phase imaging and analysis. Our work not only provides direct measurements on cellular fluctuations to study ATP regulation on cellular mechanics, but it also proves that our proposed dual view transport of intensity phase microscopy can be well used, especially in quantitative phase imaging of live cells in biological and medical applications.

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Digital field of view correction combined dual-view transport of intensity equation method for real-time quantitative imaging

Gong

et al. 2018

Opt. Eng.

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Digital field-of-view correction for dual-view transport-of-intensity equation-based quantitative microscopy

Zhang

Gong

et al. 2018

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Qingtao Gong

Principal component analysis-based quantitative differential interference contrast microscopy

Measurements on ATP induced cellular fluctuations using real-time dual view transport of intensity phase microscopy

Digital field of view correction combined dual-view transport of intensity equation method for real-time quantitative imaging

Digital field-of-view correction for dual-view transport-of-intensity equation-based quantitative microscopy

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