Attana biosensors provides a reliable, fast and versatile label-free method to study molecular interactions.
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Vizgen webinar: spatial relationships in Developmental Biology
Nov 21, 2023
MERFISH integrates spatial transcriptomics technology with high resolution spatial imaging, In this webinar we will...
Nov 14, 2023
The xCELLigence RTCA eSight enables simultaneous real time biosensor impedance-based and...
NanoCellect webinar: Plant Potential - Gentle Cell Sorting for Enhanced Plant Biology Workflows
Nov 3, 2023
Gentle cell sorting is a useful tool to increase the efficiency of plant biology workflows that include gene...
Single Cell Deposition: the cornerstone of Flow Cytometry for cellular analysis and manipulation
Nov 2, 2023
One notable technology for harnessing the power of single cell deposition is the NanoCellect WOLF G2 Cell Sorter and N1...
Emulate in vivo conditions – introduce shear flow to your experiments with BioFlux system
Oct 31, 2023
Most research is still conducted in vitro without the presence of flow. We use the BioFlux System to give you the...
Single Cell Deposition: the cornerstone of Flow Cytometry for cellular analysis and manipulation
Oct 30, 2023
One notable technology for harnessing the power of single cell deposition is the NanoCellect WOLF G2 Cell Sorter and N1...
Validation of an orthotopic non-small cell lung cancer mouse model to use in radiotherapy studies
Oct 30, 2023
The use of pre-clinical orthotopic mouse models is essential for the development of novel therapies targeting solid...
Atypical Teratoid Rhabdoid Tumours Are Susceptible to Panobinostat-Mediated Differentiation Therapy
Oct 20, 2023
To assess tumour growth, mice were imaged using the AMI-HTX bioluminescent imaging system (Spectral Instruments...
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.
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