Science Lab

Learn. Share. Contribute. The knowledge portal of Leica Microsystems. Find scientific research and teaching material on the subject of microscopy. The portal supports 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.

Virally labeled neurons (red) and astrocytes (green) in a cortical spheroid derived from human induced pluripotent stem cells. THUNDER Model Organism Imager with a 2x, 0.15 NA objective at 3.4x zoom was used to produce this 425 µm Z-stack (26 positions) which is presented here as an Extended Depth of Field (EDoF) projection. Images courtesy of Dr. F. Birey, Dr. S. Pasca laboratory, Palo Alto, CA.

Guide to Live-Cell Imaging

For a wide range of applications in various research fields of life science, live-cell imaging is an indispensable tool for visualizing cells in a state as close to in vivo, i.e. living and active, as…

Shown is the DMi8 inverted microscope which is used for life-science research.

Factors to Consider When Selecting a Research Microscope

An optical microscope is often one of the central devices in a life-science research lab. It can be used for various applications which shed light on many scientific questions. Thereby the…

Single cells collected via laser microdissection as part of the Deep Visual Proteomics workflow.

AI meets Deep Visual Proteomics (DVP) to Advance Disease Research

In this webinar, Dr. Andreas Mund will introduce a cutting-edge platform that merges Deep Visual Proteomics (DVP) with AI-powered pathology models, enabling high-resolution mapping of key regions in…

Artificial Intelligence (AI) segmentation used in conjunction with LMD to increase discovery throughput.

Biomarker Discovery with Laser Microdissection

Explore the potential of spatial proteomics workflows, such as Deep Visual Proteomics (DVP), to decipher pathology mechanisms and uncover druggable targets. Altered protein expression, abundance, or…

Dr. Nordmann in conversation with Dr. Falk Schlaudraff, Manager Product Management Uprights (widefield/compound) at Leica Microsystems.

How a Breakthrough in Spatial Proteomics Saved Lives

Toxic epidermal necrolysis (TEN) is a rare but devastating reaction to common medications like antibiotics or gout treatments. It begins innocuously, often as a rash, but can escalate rapidly into…

Optic nerve regeneration in the Xenopus laevis tadpole.

A Novel Laser-Based Method for Studying Optic Nerve Regeneration

Optic nerve regeneration is a major challenge in neurobiology due to the limited self-repair capacity of the mammalian central nervous system (CNS) and the inconsistency of traditional injury models.…

Mouse brain slice which was immunostained with GFAP-A647 and imaged using a THUNDER Imager Tissue. Courtesy of H. Xu, University of Pennsylvania, Philadelphia, USA.

A Guide to Neuroscience Research

Neuroscience often requires investigating challenging specimens to better understand the nervous system and disorders. Leica microscopes helps neuroscientists obtain insights into neuronal functions.

Pancreatic Ductal Adenocarcinoma with 11 Apoptosis biomarkers shown – BAK, BAX, BCL2, BCLXL, Caspase9, CIAP1, NaKATPase, PCK26, SMAC, Vimentin, and XIAP.

Transforming Research with Spatial Proteomics Workflows

Spatial Proteomics, Nature Methods 2024 Method of the Year, is driving research advancements in cancer, immunology, and beyond. By combining positional data with high throughput imaging of proteins in…

Automated Laser Microdissection for Proteome Analysis

Deep Visual Proteomics Provides Precise Spatial Proteomic Information

Despite the availability of imaging methods and mass spectroscopy for spatial proteomics, a key challenge that remains is correlating images with single-cell resolution to protein-abundance…