Mantis: high-throughput 4D imaging and analysis of the molecular and physical architecture of cells

PNAS Nexus Pub Date : 2024-08-09 DOI:10.1093/pnasnexus/pgae323

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

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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, 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 minutes over 7.5 hours. 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.

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Mantis：对细胞的分子和物理结构进行高通量 4D 成像和分析

细胞和细胞器的高通量动态成像对于了解复杂的细胞反应至关重要。我们报告的 Mantis 是一种高通量 4D 显微镜，它集成了两种互补、温和的活细胞成像技术：远程重聚焦无标记显微镜和斜光片荧光显微镜。此外，我们还报告了用于高通量成像、解卷积和 4D 数据单细胞表型的开源软件 shrimPy。利用 Mantis 和 shrimPy，我们在 7.5 小时内实现了每 15 分钟对 20 个细胞系的分子动力学和物理结构进行高内容关联成像。该平台还有助于详细测量病毒感染对宿主细胞和宿主蛋白质结构的影响。Mantis 平台可以对细胞内动力学进行高通量剖析，对细胞对扰动的反应进行长期成像和分析，并通过活细胞光学筛选来剖析基因调控网络。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PNAS Nexus

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