自噬研究中生物工程、超分辨率显微镜和力学生物学的整合：指南（第4版）补遗

Integrating bioengineering, super-resolution microscopy and mechanobiology in autophagy research: addendum to the guidelines (4th edition).

作者信息

Ravasio Andrea, Klionsky Daniel J, Bertocchi Cristina

机构信息

Institute for Biological and Medical Engineering (IIBM), Schools of Engineering, Medicine and Biological Sciences, Pontificia Universidad Católica de Chile, Santiago, Chile.

Life Sciences Institute and Department of Molecular, Cellular and Development Biology, University of Michigan, Ann Arbor, MI, USA.

出版信息

Autophagy. 2025 Mar;21(3):674-677. doi: 10.1080/15548627.2024.2379065. Epub 2024 Jul 20.

DOI:10.1080/15548627.2024.2379065

PMID:39031065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11849944/

Abstract

Recent key technological developments, such as super-resolution microscopy and microfabrication, enabled investigation of biological processes, including macroautophagy/autophagy, with unprecedented spatiotemporal resolution and control over experimental conditions. Such disruptive innovations deepened our capability to provide mechanistic understandings of the autophagic process and its causes. This addendum aims to expand the guidelines on autophagy in three key directions: optical methods enabling visualization of autophagic machinery beyond the diffraction-limited resolution; bioengineering enabling accurate designs and control over experimental conditions; and theoretical advances in mechanobiology connecting autophagy and mechanical processes of the cell. 3D: three-dimensional; SIM: structured illumination microscopy; STORM: stochastic optical reconstruction microscopy.

摘要

近期的关键技术发展，如超分辨率显微镜和微加工技术，使得对包括巨自噬/自噬在内的生物过程的研究能够以前所未有的时空分辨率并在可控的实验条件下进行。这些颠覆性创新提升了我们对自噬过程及其成因提供机制性理解的能力。本附录旨在从三个关键方向扩展自噬指南：能够在超越衍射极限分辨率的情况下可视化自噬机制的光学方法；能够实现精确设计并控制实验条件的生物工程；以及将自噬与细胞机械过程相联系的力学生物学理论进展。3D：三维；SIM：结构光照明显微镜；STORM：随机光学重建显微镜。

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