
Life Science Research
Life Science Research
This is the place to expand your knowledge, research capabilities, and practical applications of microscopy in various scientific fields. Learn how to achieve precise visualization, image interpretation, and research advancements. Find insightful information on advanced microscopy, imaging techniques, sample preparation, and image analysis. Topics covered include cell biology, neuroscience, and cancer research with a focus on cutting-edge applications and innovations.
How is Microscopy Used in Spatial Biology? A Microscopy Guide
Different spatial biology methods in microscopy, such as multiplex imaging, are helping to better understand tissue landscapes. Learn more in this microscopy guide.
Confocal Imaging of Immune Cells in Tissue Samples
In this webinar, you will discover how to perform 10-color acquisition using a confocal microscope. The challenges of imaged-based approaches to identify skin immune cells. A new pipeline to assess…
FluoSync - a Fast & Gentle Method for Unmixing Multicolor Images
In this white paper, we focus on a fast and reliable method for obtaining high-quality multiplex images in fluorescence microscopy. FluoSync combines an existing method for hybrid unmixing with…
Multiplexing through Spectral Separation of 11 Colors
Fluorescence microscopy is a fundamental tool for life science research that has evolved and matured together with the development of multicolor labeling strategies in cells tissues and model…
Multiplexed Imaging Types, Benefits and Applications
Multiplexed imaging is an emerging and exciting way to extract information from human tissue samples by visualizing many more biomarkers than traditional microscopy. By observing many biomarkers…
Multi-Color Caspase 3/7 Assays with Mica
Caspases are involved in apoptosis and can be utilized to determine if cells are undergoing this programmed cell death pathway in so-called caspase assays. These assays can be run by e.g. flow…
How to Target Fluorescent Structures in 3D for Cryo-FIB Milling
This article describes the major steps of the cryo-electron tomography workflow including super-resolution cryo-confocal microscopy. We describe how subcellular structures can be precisely located in…
Multicolor Microscopy: The Importance of Multiplexing
The term multiplexing refers to the use of multiple fluorescent dyes to examine various elements within a sample. Multiplexing allows related components and processes to be observed in parallel,…
A New Method for Convenient and Efficient Multicolor Imaging
The technique combining hyperspectral unmixing and phasor analysis was developed to simplify the process of getting images from a sample labeled with multiple fluorophores. This aggregate method…