microscopy

A microbiologist blends science and art to bring biofilms to life. His work, showcased in museums and books, captivates scientists and curious minds alike.

Advanced microscopy aided in the detection of the pathogen responsible for a nationwide superworm apocalypse and informed the development of a potential vaccine strategy.

Fluorescent probes are key tools for scientists looking at cellular properties or morphology. Use this guide to determine which probe is best for a given situation or experiment.

Harrison York combines microscopy and machine learning to visualize and characterize how endosomes regulate intracellular mechanisms. 

By combining microscopy techniques with genome engineering, scientists revealed the complexities of the presynaptic actin cytoskeleton.

Atomic force microscopy (AFM) is a technique for visualizing a variety of samples, from single molecules to living cells, at ultrahigh resolution. 

A receptor that recognizes DNA fragments formed during learning is necessary for proper memory formation.

Researchers reveal that cellular secretion removes defective mitochondria when lysosomes are dysfunctional.

A state-of-the-art automated microscope streamlines data acquisition and analysis for multiplex assays.

Researchers found that actin filaments can behave counter to decades-old actin dynamics dogma, changing how biologists think about cell movement.

Live cell imaging is a powerful microscopy technique employed by scientists to monitor molecular processes and cellular behavior in real time.

In this webinar, Evelyn Lattmann will discuss how she examined melanoma cell morphology without labels using an AI-based microscope system.  

An essential staining technique with a long history, immunohistochemistry (IHC) is being upgraded for modern research and clinical applications.

A scientific image can conceal even more than it reveals. Scientists can now share their untold behind-the-image stories in our new Science Snapshot column.

CF^®  Dyes combine pegylation and sulfonation to create fluorescent dyes with better signal intensity, more solubility, and superior specificity.

Microscopes were inaccessible to most of the world until Manu Prakash and Jim Cybulski put their engineering prowess to the test.

MINFLUX brought record-breaking resolution to fluorescence microscopy in 2016. A new version perfected for protein tracking came out this spring.

Learn how the latest AI-driven technology uses morphology to comprehensively analyze and sort cell populations.

Finding an effective antibiotic against an infection can easily take 24 hours. Faster testing could save lives and help doctors avoid broad-spectrum antibiotics, which can foster resistance.