Mantis: High-throughput 4D Imaging and Analysis of the Molecular and Physical Architecture of Cells

Overview

Journal PNAS Nexus

Specialty General Medicine

Date 2024 Sep 16

PMID 39282007

Authors

Ivan E Ivanov

Eduardo Hirata-Miyasaki

Talon Chandler

Rasmi Cheloor-Kovilakam

Ziwen Liu

Soorya Pradeep

Chad Liu

Madhura Bhave

Sudip Khadka

Carolina Arias

Manuel D Leonetti

Bo Huang

Shalin B Mehta

Affiliations

Soon will be listed here.

Abstract

High-throughput dynamic imaging of cells and organelles is essential for understanding complex cellular responses. We report Mantis, a high-throughput 4D microscope that integrates two complementary, gentle, live-cell imaging technologies: remote-refocus label-free microscopy and oblique light-sheet fluorescence microscopy. Additionally, we report shrimPy (Smart High-throughput Robust Imaging and Measurement in Python), an open-source software for high-throughput imaging, deconvolution, and single-cell phenotyping of 4D data. Using Mantis and shrimPy, we achieved high-content correlative imaging of molecular dynamics and the physical architecture of 20 cell lines every 15 min over 7.5 h. This platform also facilitated detailed measurements of the impacts of viral infection on the architecture of host cells and host proteins. The Mantis platform can enable high-throughput profiling of intracellular dynamics, long-term imaging and analysis of cellular responses to perturbations, and live-cell optical screens to dissect gene regulatory networks.

Citing Articles

Ultrack: pushing the limits of cell tracking across biological scales.

Bragantini J, Theodoro I, Zhao X, Huijben T, Hirata-Miyasaki E, VijayKumar S bioRxiv. 2024; .

PMID: 39282368 PMC: 11398427. DOI: 10.1101/2024.09.02.610652.

User-friendly oblique plane microscopy on a fully functional commercially available microscope base.

Sirinakis G, Allgeyer E, Nashchekin D, St Johnston D Biomed Opt Express. 2024; 15(4):2358-2376.

PMID: 38633100 PMC: 11019673. DOI: 10.1364/BOE.518856.

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