Contact Us
Science Lab

Science Lab

Science Lab

The knowledge portal of Leica Microsystems offers scientific research and teaching material on the subjects of microscopy. The content is designed to support beginners, experienced practitioners and scientists alike in their everyday work and experiments. Explore interactive tutorials and application notes, discover the basics of microscopy as well as high-end technologies – become part of the Science Lab community and share your expertise!

Studying Virus Replication with Fluorescence Microscopy

The results from research on SARS-CoV-2 virus replication kinetics, adaption capabilities, and cytopathology in Vero E6 cells, done with the help of fluorescence microscopy, are described in this…
Single cell datasets

Exploring Subcellular Spatial Phenotypes with SPARCS

Discover spatially resolved CRISPR screening (SPARCS), a platform for microscopy-based genetic screening for spatial subcellular phenotypes at the human genome scale.
Multi-tissue array with 4 markers shown including DAPI, NaKATPase, PanCk, and Vimentin.

Spatial Biology: Learning the Landscape

Spatial Biology: Understanding the organization and interaction of molecules, cells, and tissues in their native spatial context
How is microscopy used in spatial biology - Teaserimage

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.
Automated Laser Microdissection for Proteome Analysis

Precise Spatial Proteomic Information in Tissues

Despite the availability of imaging-based and mass-spectrometry-based methods for spatial proteomics, a key challenge remains connecting images with single-cell-resolution protein abundance…

20 Years of Leica Laser Microdissection

Phenotype-genotype correlations are key for insight. From Eye to Insight is therefore fitting perfectly to Leica Microsystems and in particular to laser microdissection. Laser Microdissection, also…

How to improve your Biomarker Discovery Workflow with Laser Microdissection

Biomarkers can be used as indicators of certain diseases, such as cancer. The tumor microenvironment moved into the spotlight in this concern. It is in close interaction with the tumor itself.…

Improving RNA Analysis with Laser Microdissection

Parkinson’s disease is a progressive neurodegenerative disorder connected with cell death of dopamine-releasing neurons in the brain. Differences in gene expression between individual…

How to improve your Alzheimer Protein Analysis with Laser Microdissection

Brain Research: Collect pure starting material for proteomics - Improve your workflow with Laser Microdissection - Many brain diseases result from protein malfunction, misfolding and agglutination.…
Scroll to top