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S1 SARS-CoV-2 sdAb - N3505-DBCO

Single-domain antibody binding to the RBS of S1 protein from SARS-CoV-2

This product was developed by   

NanoTag-Biotechnologies

Camelid single domain antibodies (sdAbs) consist only of one antigen binding site of an Alpaca heavy chain antibody. With only ~15 kDa, these Tags are about 10-times smaller than conventional IgG antibody molecules.

Camelid single domain antibody
Cat. No.: N3505-DBCO
Amount: 250 µg
Price: $770.00
Cat. No. N3505-DBCO 250 µg purified antibody, lyophilized from PBS, fluorescence-labeled with DBCO.

Dibenzocyclooctyne (DBCO, ADIBO) is one of the most reactive cycloalkynes for strain promoted alkyne azide cycloaddition (spAAC), a copper-free click chemistry reaction.

Albumin was added for stabilization. For reconstitution add 250 µl H2O to get a 1mg/ml solution in PBS. Either add 1:1 (v/v) glycerol, then aliquot and store at -20°C until use, or store aliquots at -80°C without additives.
Reconstitute immediately upon receipt! Avoid bright light when working with the antibody to minimize photo bleeching of the fluorescent dye.
Applications
 
ICC: yes
Label DBCO
Clone W25
Immunogen recombinant S1-Spike protein from SARS-CoV-2 (UniProt Id: P0DTC2)
Specificity RBD of S1 protein from SARS-CoV-2
Cat. No.: N3505-DBCO
Amount: 250 µg
Price: $770.00
Background

This anti-S1 SARS-CoV-2 nanobody was developed by the team of Alejandro Rojas-Fernandez at the Institute of Medicine from the Universidad Austral de Chile. NanoTag acquired the exclusive license to produce this nanobody and make it available or research and development purposes. The FluoTag-Q anti-S1 SARS-CoV-2 is based on the W25 clone, which has a sub-nanomolar affinity for the SARS-CoV-2 S1 protein receptor binding domain (RBD) and can neutralize infections as it efficiently competes with ACE-2 receptor binding.

 

Unlabeled variants and several modifications of sdAbs like biotin, fluorophore or DBCO conjugation are available.


In FluoTag®-Q each fluorophore is coupled to exactly one FluoTag, which in turn binds to its target molecule in a monovalent fashion. The high binding affinity and a coupling efficiency of > 95% guarantees a highly linear relation between the number of target molecules and the intensity of fluorescence. This enables a direct count of the target molecule of interest. The fluorophore is located exceptionally close to the recognized epitope (< 1.5 nm), which is ideal for all microscopy techniques.