DBCO Protein Labeling Kit (100 µg scale)

Cat. No.: D1510875
Disponible para pedir
GRADE & PURITY BioReagent ? BioReagent grade — tested suitable for life-science and molecular-biology use. Use for cell culture, assays, and biochemical work needing biological compatibility.
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10reactions
D1510875-10reactions
8-12 wks(?) Production requires sourcing of materials. We appreciate your patience and understanding.
249,90US$
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Why this grade

BioReagent BioReagent for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Store at 2-8°C,Room temperature,Store at -20°C,Desiccated,Do not freeze Ships Wet ice,Do not freeze Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 0 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Descripción general

  Aladdin’s DBCO Protein Labeling Kit (100 µg scale) (D1510875) provides a convenient method to label proteins with dibenzylcyclooctyne (DBCO) for use in strain‑promoted azide‑alkyne cycloaddition (SPAAC) reactions (Figure 1). The kit uses DBCO-PEG5-NHS ester, a heterobifunctional crosslinker that readily reacts with primary amines, forming covalently attached DBCO groups that can be further reacted with an azide‑labeled coupling partner to produce diverse bioconjugates. The kit includes reagents for DBCO‑labeling and purification of ten 100μL samples with a concentration of 0.5–5 mg/mL. Labeling and purification can be performed in as little as 90 minutes. The kit is optimized for labeling proteins with molecular weights between 20 kDa and 150 kDa.

Figure 1 Schematic of SPAAC

Aladdin’s DBCO Protein Labeling Kit features include:

  • Versatile—label proteins (20–150 kDa) with volumes of 0.5–5 mL
  • Chemoselective—DBCO reacts selectively with azides
  • Heterobifunctional—reactive towards amine and azide
  • Stability—The PEG chain enhances water solubility  and reduces non-specific adsorption
  •  Convenient—labeling and purification can be completed in as little as 90 minutes with 30 min hands-on time

Required materials not supplied

1.     Variable‑speed benchtop microcentrifuge

2.     0.5mL microcentrifuge tubes

3.     Desired Protein for labeling (free of BSA or any carrier protein)

4.     PBS buffer (pH 7.2-7.4).

5.     UV‑Vis spectrophotometer

Matters needing attention

1.     The purified proteins should be in a buffer that does not contain primary amines (for example, ammonium ions, Tris, glycine, ethanolamine, triethylamine, glutathione) or imidazole. All of these substances significantly inhibit protein labeling.

2.     Impure proteins or proteins stabilized with bovine serum albumin (BSA) or gelatin will not be labeled well.

3.     The crosslinker is moisture‑sensitive. Equilibrate the vial to room temperature before opening to prevent moisture condensation inside the vial. After preparing the stock solution with the anhydrous solvent provided in the kit, it can be aliquoted and stored at –20 °C, where it remains stable for two months. Storage at –80 °C allows for even longer preservation.

4.     The sample loading volume for Spin Desalting Columns must be between 70 and 120 μL to ensure optimal performance. Loading volumes outside this range may lead to lower protein recovery or inefficient removal of unconjugated reagents.

5.     Do not reuse Spin Desalting Columns.

Instructions for Use

1.     Prepare the protein sample

1.1   Prepare the target protein in a buffer (pH 7-9) free of amines, ammonium ions, or azide as these will interfere with the labeling reaction. If necessary, dialyze or exchange the target protein into an appropriate buffer, such as PBS (1X), before labeling.

1.2   Prepare the protein sample at a concentration of 0.5–5 mg/mL in PBS solution. The final volume should be ≤120 μL.

2.     Calculations

The optimal amount of DBCO-PEG5-NHS will depend on the desired degree of labeling. In general, higher protein concentrations or proteins with a greater number of accessible primary amines (e.g., lysine residues) on the surface will require less DBCO-PEG5-NHS to achieve the desired labeling density. For recommendations on DBCO:protein ratios, see Table 1.

Protein concentration RangeMolar Ratio (DBCO:Protein)
0.5-1.0 mg/mL40:1-20:1
1.0-5.0 mg/Ml20:1-10:1

Table 1. Recommended molar ratio of DBCO-PEG5-NHS to target protein

2.1   Use the following formula to calculate the amount (in millimoles) of crosslinker to add to the sample for an X:1 molar ratio.

2.2   Use the following formula to calculate the volume (in μL) of 20 mM crosslinker to add to the sample.

2.3   For 100 μL of 2 mg/mL IgG (MW = 150,000 g/mol) with 20:1 molar ratio, add 1.3 μL of 20 mM DBCO-NHS to the prepared sample.

3.     Protein labeling procedure

3.1   Equilibrate DBCO-PEG5-NHS ester to room temperature.

3.2   Just before use, reconstitute the crosslinker. Add 215 μL of DMSO to the vial of DBCO-PEG5-NHS to obtain a 20 mM stock solution. Vortex or pipette up and down until the solution is homogeneous.

3.3   Add the calculated volume of 20 mM DBCO-PEG5-NHS to the tube.

3.4   Incubate the reaction mixture for 1 hour at room temperature or 2 hours on ice.

4.     Prepare the spin column

4.1   Loosen the cap on a spin column, twist the tab off of the bottom, then place the column into a collection tube.

4.2   Centrifuge the column‑tube assembly at 1,000 x g for 2 minutes to remove the storage solution. 

Note: When using a fixed-angle rotor, place a mark on the side of the column that faces away from the rotor center. For all subsequent centrifugation steps, place the column in the microcentrifuge with the mark facing away from the rotor center.

4.3   Discard the flowthrough, then place the column back into the collection tube.

4.4   Add 500 μL of PBS Buffer, then centrifuge the column‑tube assembly at 1,000 x g for 2 minutes to equilibrate the column. Discard the flow through.

4.5   Repeat step 4.4 3 times, discarding the buffer from the collection tube each time.

5.     Purify the DBCO‑labeled protein

5.1   Transfer the equilibrated column into a new collection tube.

5.2   Carefully pipette the entire reaction mixture (≤120 μL) onto the center of the column.

5.3   Centrifuge the column‑tube assembly at 1,000 × g for 2 minutes. The purified DBCO‑labeled protein is in the collection tube.

6.     Determine the Degree of Labeling (optional)

The efficiency of the conjugation reaction can be determined by measuring the absorbance of the protein at 280 nm and the absorbance of the DBCO group at its excitation maximum (309 nm).

6.1   For samples with high concentrations, dilute a small amount of the purified conjugate with PBS.

6.2   Measure the absorbance of the protein at 280 nm (A280) and the DBCO group at 309 nm (A309).

6.3   Calculate the concentration of the protein in the sample using the following formula.

Where:

1.     εprotein​: Molar extinction coefficient of protein at 280 nm.  Generally, the molar extinction coefficient of IgG at 280 nm is 203,000 cm⁻¹M⁻¹, and this also applies to IgA, IgD and IgE.

2.     0.90 is a correction factor for the DBCO contribution to A280.

6.4   Calculate the degree of labeling (DOL) using the following formula.

Where:

1.     εDBCO​: Molar extinction coefficient of the DBCO group at 309 nm is 12,000 M⁻¹cm⁻¹

7.     Conjugate the DBCO‑labeled protein to an azide (optional)

7.1   Prepare the azide‑labeled coupling partner (supplied separately; Cat. No.  A1510878; A1510880; A1510881) in an azide‑free buffer, such as PBS.

7.2   Add the prepared azide‑labeled coupling partner to the DCBO‑labeled protein at a 1.5 to 10 fold molar excess.

7.3   Incubate the reaction mixture for 4–12 hours at room temperature.

7.4   Depending on your application, you can use the conjugated protein immediately or purify the conjugated protein by size exclusion chromatography columns and resins.

Almacenamiento y envío
Condiciones de almacenamiento de almacenamiento
Store at 2-8°C,Room temperature,Store at -20°C,Desiccated,Do not freeze
Enviado en
Wet ice,Do not freeze
Estabilidad y almacenamiento
Each component has a shelf life of 1 year under corresponding storage conditions.
Contents & Storage
D1510875Component 10 reactionsStorageQuantity Per Reaction
D1510875ADBCO-PEG5-NHS ester3mg-20℃.  Store in the darkPrepare according to instructions
D1510875BDMSO1mLRT.Prepare according to instructions
D1510875CSpin Desalting Column10 EA2-8℃.  Do not freeze1 EA for 1 reaction
D1510875DCollection Tubes10 EART.1 EA for 1 reaction
Imágenes
DBCO Protein Labeling Kit (100 µg scale) (D1510875) - Flow Cytometry 
Flow Cytometry analysis of Jurkat cells stained with 0.5 μg/mL Recombinant CD45 Antibody (Ab210608). Followed by a goat anti-mouse IgG conjugated to PE at 1 μg/mL for 1 hour at room temperature in the dark. This conjugate is produced by site-specific coupling of azide-modified goat anti-mouse IgG (prepared using the Azide Protein Labeling Kit (100 µg scale) (A1510878) and DBCO-modified phycoerythrin (PE) (prepared using the DBCO Protein Labeling Kit (100 µg scale) (D1510875) via a strain-promoted alkyne-azide cycloaddition (SPAAC) reaction. Blue - Isotype control, Mouse IgG (Ab170221). Black - Unlabelled control, cells without incubation with primary antibody.
DBCO Protein Labeling Kit (100 µg scale) (D1510875) - Flow Cytometry 
Flow Cytometry analysis of Jurkat cells stained with 0.5 μg/mL Recombinant CD45 Antibody (Biotin) (Ab213118). Followed by a streptavidin conjugated to APC at 1 μg/mL for 1 hour at room temperature in the dark. This conjugate is produced by site-specific coupling of azide-modified streptavidin (prepared using the Azide Protein Labeling Kit (100 µg scale) (A1510878) and DBCO-modified APC (prepared using the DBCO Protein Labeling Kit (100 µg scale) (D1510875) via a strain-promoted alkyne-azide cycloaddition (SPAAC) reaction. Blue - Isotype control, Mouse IgG (Biotin) (Ab180306). Black - Unlabelled control, cells without incubation with primary antibody.

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

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✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

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📊 Datasheet

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🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

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Advanced Data

Certificados (CoA, COO, BSE/TSE y tabla de análisis)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

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4 results found

Lot NumberCertificate TypeFechaArticulo
ZJ26F0434345Certificate of AnalysisApr 23, 2026 D1510875
ZJ26F0434348Certificate of AnalysisApr 21, 2026 D1510875
ZJ26F0434347Certificate of AnalysisApr 21, 2026 D1510875
ZJ26F0434346Certificate of AnalysisApr 21, 2026 D1510875
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