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Single-molecule detection and super-resolution imaging with a portable and adaptable 3D-printed microscopy platform (Brick-MIC)

Gabriel G. Moya Muñoz, Oliver Brix, Philipp Klocke, Paul David Harris, Jorge R. Luna Piedra, Nicolas Wendler, Eitan Lerner, Niels Zijlstra, Thorben Cordes

2024Science Advances15 citationsDOIOpen Access PDF

Abstract

Over the past decades, single-molecule and super-resolution microscopy have advanced and represent essential tools for life science research. There is, however, a growing gap between the state of the art and what is accessible to biologists, biochemists, medical researchers, or labs with financial constraints. To bridge this gap, we introduce Brick-MIC, a versatile and affordable open-source 3D-printed microspectroscopy and imaging platform. Brick-MIC enables the integration of various fluorescence imaging techniques with single-molecule resolution within a single platform and exchange between different modalities within minutes. We here present variants of Brick-MIC that facilitate single-molecule fluorescence detection, fluorescence correlation spectroscopy, time-correlated single-photon counting and super-resolution imaging (STORM and PAINT). Detailed descriptions of the hardware and software components, as well as data analysis routines, are provided, to allow non-optics specialists to operate their own Brick-MIC with minimal effort and investments. We foresee that our affordable, flexible, and open-source Brick-MIC platform will be a valuable tool for many laboratories worldwide.

Topics & Concepts

BrickComputer scienceNanotechnologyResolution (logic)SoftwareMicroscopyMaterials sciencePhysicsOpticsArtificial intelligenceOperating systemComposite materialAdvanced Fluorescence Microscopy TechniquesAdvanced Biosensing Techniques and ApplicationsCell Image Analysis Techniques
Single-molecule detection and super-resolution imaging with a portable and adaptable 3D-printed microscopy platform (Brick-MIC) | Litcius