Products

Cleavable Alkyne Magnetic Beads

Products

1 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads
Cat. No.  IK101

Unit Size  150 mg
Order
1 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads
Cat. No.  IK102

Unit Size  300 mg
Order
2.5 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads
Cat. No.  IK103

Unit Size  150 mg
Order
2.5 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads
Cat. No.  IK104

Unit Size  300 mg
Order
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Cat. No.

Product Name

Unit Size

Order

IK101

1 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads

150 mg

IK102

1 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads

300 mg

IK103

2.5 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads

150 mg

IK104

2.5 μm BcMag™ Cleavable Alkyne-Activated Magnetic Beads

300 mg

Specification

Composition

Magnetic beads grafted with a high density of alkyne groups on the surface

Number of Beads

~ 1.68 x 109 beads/mg (1μm beads)

~1.47 x 108 beads/mg (2.5μm beads)

Stability

Short Term (<1 hour): pH 4-11; Long-Term: pH 4-10

Temperature: 4°C -140°C; Most organic solvents

Magnetization

~40-45 EMU/g

Type of Magnetization

Superparamagnetic

Formulation

Lyophilized Powder

Functional Group Density

1μm Magnetic Beads

~37 nmole / mg of Beads

2.5μm Magnetic Beads

~32 nmole /mg of Beads

Storage

Ship at room temperature. Store 4°C upon receipt.

Description

The activated magnetic beads are uniform inert silica-based magnetic beads grafted with a high density of alkyne functional groups on the surface. The beads are specifically designed to efficiently enrich azide-tagged biomolecules from complex cell lysates via a Cu(I)-catalyzed Alkyne-Azide (CUAAC) reaction. Compared with other affinity resins such as agarose beads or other polymers, the inert silica enclosed magnetic beads offer high stability, low nonspecific binding, and superior handling in protein-based systems. Since the active cleavable alkyne group is linked with the beads through a built-in cleavable disulfide linker, reducing agents such as DTT or β-mercaptoethanol can cleave and separate the target molecule-ligand complex from the beads after affinity purification. These magnetic beads are ideal tools for genomics, proteomics, biomarker discovery, posttranslational modification (PTM) analysis, etc.

product-cleavable-alkyne-beads

Workflow

The beads work perfectly as affinity resin for capturing azide-tagged biomolecules from complex cell lysate. Add the beads to a sample containing the tagged biomolecules, then mix, incubate, wash and elute the target molecules.

Workflow of magnetic beads for affinity purification

Features and Advantages

Easy to use

Stable covalent bond with minimal ligand leakage

Produces reusable immunoaffinity matrices

Low nonspecific binding

1.

Cleave the Disulfide Bond

Note: Due to conformational variation from ligands to ligands, the user should determine the optimal working conditions such as reducing agent, pH, and temperature for cleaving the disulfide bond of individual ligands.

1)

Incubate the magnetic beads (30mg/ml) in either 140 mM β-mercaptoethanol or 5mM DTT (Dithiothreitol).

a. 100 mM Tris-HCl, pH 8.0, 50 mM EDTA, 140 mM β-mercaptoethanol for 2 hours to overnight at room temperature or 98°C for 5 minutes.

b. 100 mM Tris-HCl, pH 8.0, 50 mM EDTA, 5mM DTT for 2 hours to overnight at room temperature or 98°C for 5 minutes.

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