Yu Shi
6 Papers
Yu Shi is an academic researcher. The author has contributed to research in topics: Light sheet fluorescence microscopy & Microscopy. The author has an hindex of 1, co-authored 2 publications.
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Papers
Smart lattice light-sheet microscopy for imaging rare and complex cellular events
Yu Shi,Jimmy S. Tabet,Daniel E. Milkie,Timothy A. Daugird,Chelsea Q Yang,Alex T. Ritter,Andrea Giovannucci,Wesley R. Legant +7 more
TL;DR: The effects of Taxol dose on spindle structure and kinetochore dynamics in dividing cells and of antigen strength on cytotoxic T lymphocyte engagement and lytic granule polarization at the immune synapse formation are quantify.
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Correlative single molecule lattice light sheet imaging reveals the dynamic relationship between nucleosomes and the local chromatin environment
Timothy A. Daugird,Yu Shi,Katie L. Holland,Hosein Rostamian,Zhe Liu,Luke D. Lavis,Joseph Rodriguez,Brian D. Strahl,Wesley R Legant +8 more
TL;DR: Researchers developed a single-molecule imaging platform to study nucleosome dynamics and chromatin environment interactions in live cells, revealing differential nucleosome diffusion and packing with chromatin density, and transcription's stabilizing effect on nucleosomes.
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Smart Lattice Light Sheet Microscopy for imaging rare and complex cellular events
Yu Shi,Jimmy S. Tabet,Daniel E. Milkie,Timothy A. Daugird,Chelsea Q Yang,Andrea Giovannucci,Wesley R. Legant +6 more
TL;DR: SmartLLSM as discussed by the authors is a microscope that incorporates AI-based instrument control to autonomously switch between epifluorescent inverted imaging and lattice light sheet microscopy to detect rare events within a heterogeneous cell population.
A posterior approach to correct for focal plane offsets in lattice light sheet structured illumination microscopy
Yu Shi,Timothy A. Daugird,Wesley R. Legant +2 more
TL;DR: Researchers introduce a posterior approach to correct focal plane offsets in lattice light sheet structured illumination microscopy, utilizing residual phase information to retrieve axial offsets and minimize artifacts in reconstructed images.
Correlative single molecule lattice light sheet imaging reveals the dynamic relationship between nucleosomes and the local chromatin environment
Timothy A. Daugird,Yu Shi,Katie L. Holland,Hosein Rostamian,Zhe Liu,Luke D. Lavis,Joseph Rodriguez,Brian D. Strahl,Wesley R. Legant +8 more
TL;DR: An imaging platform to simultaneously visualize single protein dynamics together with the local chromatin environment in live cells is developed and reveals that nuclear heterogeneity arises from both active and passive process and highlights the need to account for different organizational principals when modeling different chromatin environments.