Attana biosensors provides a reliable, fast and versatile label-free method to study molecular interactions.
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Nov 30, 2021
Microfluidics have revolutionized...
Extensive assessment of Cytokine production on the NovoCyte Penteon flow cytometer
Nov 23, 2021
Cytokines are small molecules essential for immune cell response to activation by pathogens, autoimmunity, or...
Nov 10, 2021
Join our webinar to learn how...
Discover the advanced Detector Technology in Agilent NovoCyte flow cytometers
Nov 8, 2021
This technical overview describes advancements in detector technology, and highlights examples where optimal signal...
Oct 20, 2021
Ionizing radiation approaches are effective but use of radioactive radioisotopic elements have become difficult to...
Duke uses XRAD 225 CX to test radiosensitivity hypothesis
Oct 18, 2021
Image guided radiotherapy in a preclinical setting couldn’t be more useful than the treatment of brain tumors, where...
Curiox webinar: Laminar Wash enables single-cell multiomics and cell hashing
Oct 11, 2021
Professor Mats Bemark’s lab at the University of Gothenburg in Sweden studies how the immune system responds to...
Falling in love with Magnetic resonance
Oct 4, 2021
Magnetic Resonance (MR) is more than just analytical science, it is unique, it is a passion that won’t let you go
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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