Attana biosensors provides a reliable, fast and versatile label-free method to study molecular interactions.
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Cardiomyocyte isolation using Cellenion’s cellenONE instrument
Mar 24, 2023
The cellenONE platform is ideal for the isolation of fragile and heterogeneous cell size populations, such as...
ACCELA educational webinar: Unlocking Spatial Biology with RareCyte Orion
Mar 16, 2023
Experience Spatial Biology with Orion Multiplex Imaging. Orion is a benchtop, high...
Recorded webinar: Anesthesia Considerations in Small Animal Imaging
Mar 13, 2023
Anesthesia settings and operation of Optical Imaging Systems: methods, animal handling, safety and regulatory...
Introducing Cytek Human Leukocyte Kit, the first ever 15-color lyse no-wash assay
Mar 13, 2023
This kit has been designed to enumerate all major leukocyte subsets and it mirrors and expands on those identified in a...
Immunofluorescence Imaging for Rare Cell Detection with CyteFinder II
Mar 7, 2023
CyteFinder II Instruments are high speed, whole slide imaging systems with options for liquid biopsy analysis and...
NanoCellect Webinar: Optimizing the Cell Line Development Process with Microfluidic Cell Sorting
Mar 3, 2023
Single-cell selection and cloning are required for bioengineering workflows such as antibody production, cell therapy,...
New Kit for Bacterial analysis expands capability of Guava Muse flow cytometer
Feb 20, 2023
With the Guava Muse cell analyzer, you can now achieve highly quantitative results at a fraction of the price, effort,...
Flash news - did you know, that you can use Singulator S100 also for plant research?
Feb 10, 2023
In this short TechNote you can find how Singulator can help the data quality in Single cell sequencing - now even in...
New scientific article using Attana Biosensors
Jun 1, 2016
A novel method for facile fabrication of glycopolymer-based iron oxide nanoparticles (GIONs) is developed. Via perfluorophenylazide photochemically induced C–H insertion, alkynyl groups were introduced onto the polymer which was precoated on the iron oxide nanoparticle surface. GIONs were then prepared by conjugating the azide-functionalized carbohydrate to the introduced alkynyl groups via click chemistry. Polyvinyl alcohol-coated and dextran-coated iron oxide NPs were chosen as scaffolds to attach two different carbohydrates, α-D-mannose and β-D-glucose, to fabricate multivalent GIONs, respectively. The multivalent GIONs demonstrated high binding affinities towards the corresponding lectins in both protein and cell chips. As a proof of concept, fluorescent GIONs (Gal-RhB-IONPs) were fabricated, which showed selective and efficient internalization by ASGP-R overexpressing HepG2 cells targeted.
Related technologies: Label-free protein analysis
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