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DBCO-acid

* Please kindly note that our products are not to be used for therapeutic purposes and cannot be sold to patients.

DBCO-acid is a cleavable ADC linker used in the synthesis of ADC linker DBCO-NHS ester (HY-115524 and HY-115545), and drug-linker conjugates DBCO-PEG-MMAE.

Category
Cyclic Amino Acids
Catalog number
BAT-008367
CAS number
1353016-70-2
Molecular Formula
C19H15NO3
Molecular Weight
305.33
DBCO-acid
IUPAC Name
4-(2-azatricyclo[10.4.0.04,9]hexadeca-1(16),4,6,8,12,14-hexaen-10-yn-2-yl)-4-oxobutanoic acid
Synonyms
11,12-Didehydro-gamma-oxodibenz[b,f]azocine-5(6H)-butanoic acid
Appearance
Solid
Purity
> 98.0 %
Melting Point
179.0 to 183.0 ℃
Storage
Store at -20 ℃, keep in dry and avoid sunlight.
Solubility
10 mm in DMSO
Application
White to light yellow powder to crystal
InChI
InChI=1S/C19H15NO3/c21-18(11-12-19(22)23)20-13-16-7-2-1-5-14(16)9-10-15-6-3-4-8-17(15)20/h1-8H,11-13H2,(H,22,23)
InChI Key
NDLOVDOICXITOK-UHFFFAOYSA-N
Canonical SMILES
C1C2=CC=CC=C2C#CC3=CC=CC=C3N1C(=O)CCC(=O)O
1. Rate determination of azide click reactions onto alkyne polymer brush scaffolds: a comparison of conventional and catalyst-free cycloadditions for tunable surface modification
Sara V Orski, Gareth R Sheppard, Selvanathan Arumugam, Rachelle M Arnold, Vladimir V Popik, Jason Locklin Langmuir. 2012 Oct 16;28(41):14693-702. doi: 10.1021/la3032418. Epub 2012 Oct 5.
The postpolymerization functionalization of poly(N-hydroxysuccinimide 4-vinylbenzoate) brushes with reactive alkynes that differ in relative rates of activity of alkyne-azide cycloaddition reactions is described. The alkyne-derived polymer brushes undergo "click"-type cycloadditions with azido-containing compounds by two mechanisms: a strain-promoted alkyne-azide cycloaddition (SPAAC) with dibenzocyclooctyne (DIBO) and azadibenzocyclooctyne (ADIBO) or a copper-catalyzed alkyne-azide cycloaddition (CuAAC) to a propargyl group (PPG). Using a pseudo-first-order limited rate equation, rate constants for DIBO, ADIBO, and PPG-derivatized polymer brushes functionalized with an azide-functionalized dye were calculated as 7.7 × 10(-4), 4.4 × 10(-3), and 2.0 × 10(-2) s(-1), respectively. The SPAAC click reactions of the surface bound layers were determined to be slower than the equivalent reactions in solution, but the relative ratio of the reaction rates for the DIBO and ADIBO SPAAC reactions was consistent between solution and the polymer layer. The rate of functionalization was not influenced by the diffusion of azide into the polymer scaffold as long as the concentration of azide in solution was sufficiently high. The PPG functionalization by CuAAC had an extremely fast rate, which was comparable to other surface click reaction rates. Preliminary studies of dilute solution azide functionalization indicate that the diffusion-limited regime of brush functionalization impacts a 50 nm polymer brush layer and decreases the pseudo-first-order rate by a constant diffusion-limited factor of 0.233.
2. Evaluation of click chemistry microarrays for immunosensing of alpha-fetoprotein (AFP)
Seyed Mohammad Mahdi Dadfar, Sylwia Sekula-Neuner, Vanessa Trouillet, Hui-Yu Liu, Ravi Kumar, Annie K Powell, Michael Hirtz Beilstein J Nanotechnol. 2019 Dec 16;10:2505-2515. doi: 10.3762/bjnano.10.241. eCollection 2019.
The level of cancer biomarkers in cells, tissues or body fluids can be used for the prediction of the presence of cancer or can even indicate the stage of the disease. Alpha-fetoprotein (AFP) is the most commonly used biomarker for early screening and diagnosis of hepatocellular carcinoma (HCC). Here, a combination of three techniques (click chemistry, the biotin-streptavidin-biotin sandwich strategy and the use of antigen-antibody interactions) were combined to implement a sensitive fluorescent immunosensor for AFP detection. Three types of functionalized glasses (dibenzocyclooctyne- (DBCO-), thiol- and epoxy-terminated surfaces) were biotinylated by employing the respective adequate click chemistry counterparts (biotin-thiol or biotin-azide for the first class, biotin-maleimide or biotin-DBCO for the second class and biotin-amine or biotin-thiol for the third class). The anti-AFP antibody was immobilized on the surfaces via a biotin-streptavidin-biotin sandwich technique. To evaluate the sensing performance of the differently prepared surfaces, fluorescently labeled AFP was spotted onto them via microchannel cantilever spotting (µCS). Based on the fluorescence measurements, the optimal microarray design was found and its sensitivity was determined.
3. Surface functionalization using catalyst-free azide-alkyne cycloaddition
Alexander Kuzmin, Andrei Poloukhtine, Margreet A Wolfert, Vladimir V Popik Bioconjug Chem. 2010 Nov 17;21(11):2076-85. doi: 10.1021/bc100306u. Epub 2010 Oct 21.
The utility of catalyst-free azide-alkyne [3 + 2] cycloaddition for the immobilization of a variety of molecules onto a solid surface and microbeads was demonstrated. In this process, the surfaces are derivatized with aza-dibenzocyclooctyne (ADIBO) for the immobilization of azide-tagged substrates via a copper-free click reaction. Alternatively, ADIBO-conjugated molecules are anchored to the azide-derivatized surface. Both immobilization techniques work well in aqueous solutions and show excellent kinetics under ambient conditions. We report an efficient synthesis of aza-dibenzocyclooctyne (ADIBO), thus far the most reactive cyclooctyne in cycloaddition to azides. We also describe convenient methods for the conjugation of ADIBO with a variety of molecules directly or via a PEG linker.
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