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92544

Sigma-Aldrich

Abberior® FLIP 565, maleimide

for single-molecule switching microscopy (e.g. PALM, STORM, GSDIM)

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About This Item

UNSPSC Code:
12352111
NACRES:
NA.32

form

solid

concentration

≥50.0% (degree of coupling)

solubility

DMF: 0.25 mg/mL, clear

fluorescence

λex 565 nm; λem 580 nm±5 nm in PBS, pH 7.4

storage temp.

−20°C

General description

Absorption Maximum (off-state) λmax:314 nm (PBS, pH 7.4)
Extinction Coefficient, ε(λmax): 47,000 M-1cm-1 (MeOH)
Fluorescence Maximum, λfl:580 nm (PBS, pH 7.4)
Photoactication Wavelength: 310-380 (one-photon activation)
650-800 (two-photon activation)
Fluorescence Quantum Yield, η: 0.38 (PBS, pH 7.4)

Application

Abberior® FLIP 565 conjugated with secondary antibody has been used for STORM (stochastic optical reconstruction microscopy) imaging of COS-7 and S180 cells.

Suitability

Designed and tested for fluorescent super-resolution microscopy

Other Notes

Find more infomation here Abberior®

Legal Information

abberior is a registered trademark of Abberior GmbH

related product

Product No.
Description
Pricing

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Regulatory Listings

Regulatory Listings are mainly provided for chemical products. Only limited information can be provided here for non-chemical products. No entry means none of the components are listed. It is the user’s obligation to ensure the safe and legal use of the product.

JAN Code

92544-1MG-BULK:
92544-1MG:

Certificates of Analysis (COA)

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Remi Galland et al.
Nature methods, 12(7), 641-644 (2015-05-12)
Single-objective selective-plane illumination microscopy (soSPIM) is achieved with micromirrored cavities combined with a laser beam-steering unit installed on a standard inverted microscope. The illumination and detection are done through the same objective. soSPIM can be used with standard sample preparations
S W Hell et al.
Optics letters, 19(11), 780-782 (1994-06-01)
We propose a new type of scanning fluorescence microscope capable of resolving 35 nm in the far field. We overcome the diffraction resolution limit by employing stimulated emission to inhibit the fluorescence process in the outer regions of the excitation
Marcus Dyba et al.
Nature biotechnology, 21(11), 1303-1304 (2003-10-21)
We report immunofluorescence imaging with a spatial resolution well beyond the diffraction limit. An axial resolution of approximately 50 nm, corresponding to 1/16 of the irradiation wavelength of 793 nm, is achieved by stimulated emission depletion through opposing lenses. We
Tim Grotjohann et al.
Nature, 478(7368), 204-208 (2011-09-13)
Lens-based optical microscopy failed to discern fluorescent features closer than 200 nm for decades, but the recent breaking of the diffraction resolution barrier by sequentially switching the fluorescence capability of adjacent features on and off is making nanoscale imaging routine. Reported
Stefan W Hell
Nature biotechnology, 21(11), 1347-1355 (2003-11-05)
For more than a century, the resolution of focusing light microscopy has been limited by diffraction to 180 nm in the focal plane and to 500 nm along the optic axis. Recently, microscopes have been reported that provide three- to
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