Search
Results
-
STED nanoscopy of the centrosome linker reveals a CEP68-organized, periodic rootletin network anchored to a C-Nap1 ring at centrioles
more...
-
How the donut changed the world
For over a century, we stood at the edge of microscope resolution and cursed the inexorable blur of diffracted light. Instruments improved, but the fog never lifted. Then, one man stopped trying to control how light behaves. Armed with a donut-shaped laser beam, he instead commanded where it shines and untethered resolution forever.
more...
-
MATRIX special
more...
-
Where the tiny becomes mighty: light vs electron microscopy
For centuries, conventional light microscopy was and continues to be the workhorse of labs to visualize cells and cellular details. But the advent of electron microscopy brought about a new level of detail. Let's take a closer look at the two techniques.
more...
-
Bye-bye, bleaching!
Fluorescent labeling strategies have become more and more sophisticated and offer ever-new options to improve microscopic imaging. Among the latest are exchangeable HaloTag ligands that put an end to photobleaching for good.
more...
-
MATRIX STED – many eyes see more than one
MATRIX STED is the next level of STED microscopy – combining superior resolution with outstanding signal quality and clarity.
more...
-
MINFLUX – unrivaled spatio-temporal resolution
MINFLUX reaches unprecedented spatio-temporal resolution in light microscopy and provides 2D and 3D localization precisions in the single-digit nanometer range.
more...
-
RAYSHAPE
more...
-
abberior LIVE HaloX
more...
-
Let the cells shine with immunofluorescence labeling
The most versatile and therefore most common strategy to bring the dye to the sample is immunofluorescence. In case you always wanted to know how immunofluorescence works and which properties of antibodies make it so powerful and at the same time define its limits!
more...
-
STED and virology
A little insight into the advances in virus research made possible by STED microscopy and a hint to were the journey might go.
more...
-
STED-PAINT for high-perfomance superresolution
The combination of STED microscopy and PAINT circumvents the physical limitations of current labeling technology.
more...
-
Labeling for STED microscopy
For STED microscopy, similar sample preparation techniques may be utilized as for conventional microscopy. However, the increase in special resolution requires additional precautions to ensure the structural preservation of the specimen.
more...
-
Superresolution for biology: when size, time, and context matter
The spatial resolution achievable with today’s light microscopes has unveiled life at the scale of individual molecules. Size is no longer a barrier to seeing biology at the most fundamental level. But life is not static. It emerges from movement and change. How do superresolution technologies hold up to the challenges of documenting dynamic biological mechanisms?
more...
-
abberior STAR nanobody
more...
-
NHS ester protocol
Dyes with an N-hydroxysuccinimidyl (NHS) ester are amino-reactive derivatives and are most commonly used to label proteins such as antibodies. This reactive group helps to form a chemically stable bond between the dye and the protein (antibody).
more...
-
abberior special
more...
-
abberior LIVE special
more...
-
abberior FLUX special
more...
-
abberior STAR special
more...
-
Ultrastructural axon‐myelin unit alterations in MS correlate with inflammation
more...
-
Actin cytoskeleton and complex cell architecture in an Asgard archaeon
more...
-
What is resolution? Part one!
Are you surprised that the very nature of light caps the resolution that we can achieve in microscope images? Luckily, there are workarounds to this limit. These workarounds push the amount of detail in an image by manipulating precisely where and when fluorophores are allowed to emit. As such, they provide us with a completely new set of tools to shrink the distance between two points while still being able to resolve them.
more...
-
Biomembrane Days 2022
more...
-
Pillarpage
more...
-
A novel long non-coding RNA from NBL2 pericentromeric macrosatellite forms a perinucleolar aggregate structure in colon cancer
more...
-
Far-red emitting fluorescent dyes for optical nanoscopy: Fluorinated silicon–rhodamines (SiRF dyes) and phosphorylated oxazines
more...
-
4-Trifluoromethyl-substituted coumarins with large Stokes shifts: synthesis, bioconjugates, and their use in super-resolution fluorescence microscopy
more...
-
Privacy Policy abberior labels
more...
-
Imprint abberior labels
more...