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Super Bright Streptavidin-Ruthenium Fluorescent Magnetic Beads: A Solution to Overcome Limitations of Conventional Fluorophores

Products

2.5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads
Cat. No.  HC101

Unit Size  0.5 ml
Order
2.5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads
Cat. No.  HC102

Unit Size  1.5 ml
Order
5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads
Cat. No.  HC103

Unit Size  0.5 ml
Order
5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads
Cat. No.  HC104

Unit Size  1.5 ml
Order

Cat. No.

Product Name

Unit Size

Order

HC101

2.5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads

0.5 ml

HC102

2.5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads

1.5 ml

HC103

5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads

0.5 ml

HC104

5 μm BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads

1.5 ml

Fluorescence Dye Properties

Fluorophore

Fluorescence
Color

Excitation
(nm)

Emission
(nm)

Fluorescence lifetime
(Ԏ) (µsec)

Stokes shifts
(nm)

Ruthenium (Ru2+)

Far-Red

470

710

354.36

175

Fluorescence Dye Properties

Fluorophore

Ruthenium (Ru2+)

Fluorescence
color

Far-Red

Excitation
(nm)

470

Emission
(nm)

710

Fluorescence lifetime (Ԏ) (µsec)

354.36

Stokes shifts
(nm)

175

Specification

Bead Size

2.5μm diameter; 5μm diameter

Number of Beads

~ 10 x 107 beads/mg (2.5μm)

~ 5 x 107 beads /mg (5μm)

Magnetization

~ 40-45 EMU/g

Type of Magnetization

Superparamagnetic

Concentration

10 mg/ml (10mM Tris, 0.15 M NaCl, 0.1% BSA,1 mM EDTA, pH7.4)

Binding Capacity

Biotinylated BSA / ml of Beads

>1mg/ml

Biotinylate single-stranded oligonucleotides

~ 2,000 pmoles /ml

Storage

Ship at room temperature. Store at 4°C. Do not freeze.

Description

BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads are Time-Resolved Fluorescence (TRF) magnetic microspheres covalently coupled with streptavidin protein. The beads are manufactured using nanometer-scale superparamagnetic iron oxide and ruthenium metal as core and entirely encapsulated by a high-purity silica shell, ensuring no leaching problems with the iron oxide and ruthenium metal. The microspheres combine the benefits of a novel streptavidin biotin-binding method, time-resolved Fluorescence dyes, and magnetic characteristics to perform very sensitive assays.

Streptavidin is a tetrameric biotin-binding protein that originates from Streptomyces avidin and has a mass of 60 kDa. It has no carbohydrates and lower pI, giving a lower degree of nonspecific binding, making streptavidin an ideal reagent choice for many detection systems. Streptavidin and its analogs have become powerful tools for probes and affinity ligands for various applications in biochemical assays, diagnosis, affinity purification, and drug delivery.

Although conventional fluorophores have been widely used over the past decades, they still suffer from either one or several limitations in terms of applicability and efficiency:

1.

Narrow excitation bands cause higher background signals.

2.

Smaller Stokes shift often produces self-quenching.

3.

Fluorescence is sensitive to environmental factors such as metallic ion concentration, pH, temperature, and solvent polarity.

4.

Fluorescence intensity is not high enough for detecting a single biomolecular.

5.

Fluorescence intermittency (blinking) affects some processes of molecule detection.

6.

Easily aggregated because of hydrophobicity.

More improved fluorescence techniques have been developed to address the shortcomings of today’s fluorophores. TR-FRET is one of them, and it has proven to be a highly versatile assay technique, allowing researchers to explore a broad spectrum of biological interactions with low to high affinity, employing both small and large compounds.

BcMag™ TR-FRET (Time-Resolved FRET) Assay

BcMag™ TR-FRET Assay, in contrast to typical FRET (Förster Resonance Energy Transfer) assays, uses time-resolved Fluorescence magnetic beads (BcMag™ TR-Magnetic Beads) as the donor fluorophore. The donor and acceptor can be two proteins, two DNA strands, an antigen, an antibody, or a ligand and its receptor. After a reasonable time delay (usually 50 to 100 s), a signal is generated by fluorescence resonance energy transfer between a donor and an acceptor molecule when they are close and monitored in a time-resolved way. In BcMag™ TR-FRET Assay, a trace amount of analytes can be easily enriched from the complex by TR-Magnetic Beads, resulting in higher sensitivity. This assay practically eliminates all fluorescence backgrounds caused by the sample and plastic microplate, as well as by direct acceptor excitation. As a result, the signal-to-noise ratios of the BcMag™ TR-FRET Assay are very high, and the background is quite low. Furthermore, the assay does not need washing steps. BcMag™ TR-FRET Assay offers substantial advantages to bioassays in high throughput screening, such as assay flexibility, dependability, increased assay sensitivity, higher throughput, and fewer false positive/false negative results.

Ruthenium cryptate fluorophore is an efficient time-resolved Fluorescence tag due to its distinct specific properties. It is excited at 470nm and emits red fluorescence at 710nm, with a long fluorescence lifetime (354.36 μsec) and large stokes shifts (175 nm). BcMag™ Streptavidin-Ruthenium Fluorescence Magnetic Beads are available in nominal diameters of 2.5μm and 5μm. By taking advantage of these properties, time-resolved fluorescence measurement can dramatically reduce the fluorescence background from the sample and increase the signal-to-noise ratio to offer detectability better than one order of magnitude than conventional Fluorescence dyes. BcMag™ Streptavidin- Ruthenium Fluorescence Magnetic Beads are excellent donors used in TR-FRET assays.

Workflow of TR-FRET Magnetic Beads Assay

1.

Mix the antibody-conjugated donor beads with the cell lysates and incubate them with continuous rotation for a sufficient time. The beads remain suspended in the sample solution during mixing, allowing the target analytes to bind to the donor beads.

2.

After incubation, the beads are collected and separated from the sample using a magnet rack.

3.

Add the antibody-conjugated acceptor and incubate them with continuous rotation for a sufficient time.

4.

Analysis of numerous microplate readers supports TR-FRET measurements.

Workflow of TR-FRET Magnetic Beads Assay

Advantages and Benefits

1.

Perform a double function simultaneously on the same beads: The magnetic beads combine separation/preconcentration and detect analytes, allowing quick, simple, robust, and high-throughput analytes of trace amounts from complex biological samples on the same beads.

2.

Ultra sensitive. Lower detection limits of 10 pg/mL versus typical fluorometric detection limits of 100 pg/mL.

3.

Extremely photostable and highly resistant to photobleaching. All the lanthanide chelate or cryptate molecules and iron oxide are entirely encapsulated inside each bead instead of merely on the bead’s surface. The protective environment prevents iron oxide and dye from leaching into aqueous media, which makes the beads less sensitive to external conditions such as solvent, temperature, pH, etc.

4.

Very high Fluorescence intensity. Because a single bead has a large concentration of lanthanide chelate with a high quantum yield ranging from 40 to 90%, the beads show excellent fluorescence intensity, which increases test sensitivity without signal amplification. Such bright beads are also perfect for donors’ use in time-resolved FRET assays.

5.

Lanthanide chelate or cryptate has large Stokes shifts (>250 nm), narrow emission bands (-10 nm bandwidth), and long fluorescence lifetime (μs), which dramatically reduces background and increases the signal-to-noise ratio.

6.

Most bioprocess ELISA assays can be converted to an HTRF assay.

7.

No washing step is involved in the assays.

8.

Have a hydrophilic silica surface grafted by different functional groups with linkers of variable lengths, allowing efficient conjugation of various ligands such as peptides, proteins, antibodies, small molecules, carbohydrates, aptamers, DNA/RNA, etc.

9.

Due to the microsphere’s magnetic properties, the Fluorescence magnetic beads are suitable for high-throughput automation.

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