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Antibodies to GFP variants, mCherry and other fluorescent proteins Fluorescent protein antibodies

Flow cytometer calibration beads for AcGFP1/EGFP and mCherry

Use these beads to calibrate your flow cytometer prior to analyzing cells that express the AcGFP1 or mCherry fluorescent proteins. The AcGFP Flow cytometer calibration beads allow for easy calibration of any flow cytometer with a 488-nm laser line that excites the green fluorescent proteins AcGFP1 (Aequorea coerulescens GFP) and EGFP. (The AcGFP Flow cytometer calibration beads work for both AcGFP1 and EGFP because their excitation/emission spectra and brightness are almost identical.)

Use these beads to calibrate your flow cytometer prior to analyzing cells that express the AcGFP1 or mCherry fluorescent proteins. The AcGFP flow cytometer calibration beads allow for easy calibration of any flow cytometer with a 488-nm laser line that excites the green fluorescent proteins AcGFP1 (Aequorea coerulescens GFP) and EGFP. (The AcGFP flow cytometer calibration beads work for both AcGFP1 and EGFP because their excitation/emission spectra and brightness are almost identical.) The mCherry flow cytometer calibration beads allow for easy calibration of any flow cytometer with a 561-nm laser line that excites the red fluorescent protein, mCherry.

Each bead suspension contains six distinct populations of beads that vary in the number of attached AcGFP1 or mCherry molecules, which gives each population a distinct fluorescence intensity. The Molecular Equivalent of Soluble Fluorophore (MESF) value for each peak is determined by correlating the fluorescence intensity of each respective bead population with the amount of soluble AcGFP1 or mCherry yielding the same fluorescence intensity.

Converting fluorescence intensity readings to MESF makes it possible to estimate and compare relative expression levels between cells in the same cell population or in independent samples, and even to compare data from different instruments and experiments. Using the flow cytometer calibration Beads, you can also determine the linearity and stability of your flow cytometer’s readouts. The lowest intensity peak represents the autofluorescence signal of cells not expressing the green or red fluorescent protein; this allows you to measure the fluorescence detection threshold and the background noise level of your flow cytometer. The five remaining peaks are evenly distributed over the remaining scale of the fluorescence detection channel.

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Cat. # Product Size Price License Quantity Details
632595 mCherry Flow Cytometer Calibration Beads 20 Assays USD $365.00

The mCherry Flow Cytometer Calibration Beads allow for easy calibration of any flow cytometer with a 561 nm laser line that excites the red fluorescent protein, mCherry. The beads consist of a mixture of six distinct populations that vary in the number of attached mCherry molecules, giving each population a distinct fluorescent signature. The value for the corresponding Molecular Equivalent of Soluble Fluorophore (MESF) per peak was determined by correlating the fluorescence intensity of each respective bead population with the amount of soluble mCherry yielding the same fluorescence intensity. The lowest intensity represents the autofluorescence signal of cells not expressing red fluorescent protein, while the five remaining peaks are evenly distributed over the remaining scale of the red fluorescence detection channel.

Notice to purchaser

Our products are to be used for Research Use Only. They may not be used for any other purpose, including, but not limited to, use in humans, therapeutic or diagnostic use, or commercial use of any kind. Our products may not be transferred to third parties, resold, modified for resale, or used to manufacture commercial products or to provide a service to third parties without our prior written approval.

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632594 AcGFP Flow Cytometer Calibration Beads 20 Assays USD $365.00

The AcGFP Flow Cytometer Calibration Beads allow for easy calibration of any flow cytometer with a 488 nm laser line that excites the green fluorescent proteins AcGFP1 (Aequorea coerulescens GFP) and EGFP. The excitation/emission spectrum and brightness of AcGFP are almost identical to those of EGFP. The beads consist of a mixture of six distinct populations that vary in the number of attached AcGFP1 molecules, giving each population a distinct fluorescent signature. The value for the corresponding Molecular Equivalent of Soluble Fluorophore (MESF) per peak was determined by correlating the fluorescence intensity of each respective bead population with the amount of soluble AcGFP1 yielding the same fluorescence intensity. The lowest intensity represents the autofluorescence signal of cells not expressing green fluorescent protein, while the five remaining peaks are evenly distributed over the remaining scale of the green fluorescence detection channel.

Notice to purchaser

Our products are to be used for Research Use Only. They may not be used for any other purpose, including, but not limited to, use in humans, therapeutic or diagnostic use, or commercial use of any kind. Our products may not be transferred to third parties, resold, modified for resale, or used to manufacture commercial products or to provide a service to third parties without our prior written approval.

Documents Components Image Data

Selection guides Fluorescent protein quick guide
Antibodies to GFP variants, mCherry and other fluorescent proteins Fluorescent protein antibodies

Overview

Mixture of six discrete bead populations having distinct fluorescent intensities:

  • The lowest intensity represents the autofluorescence signal of cells not expressing the fluorescent protein (AcGFP1 or mCherry)
  • The remaining five peaks are evenly distributed over the remaining scale of the green or red fluorescence detection channel
  • Works with any flow cytometer with a 488-nm laser line (AcGFP1) or a 561-nm laser line (mCherry)

More Information

Applications

  • Calibrate your flow cytometer prior to analyzing cells expressing AcGFP1 or mCherry fluorescent protein
  • Since the spectral properties and brightness of AcGFP1 and EGFP are very similar, these beads may be used to calibrate flow cytometers prior to using EGFP-expressing cells

Additional product information

Please see the product's Certificate of Analysis for information about storage conditions, product components, and technical specifications. Please see the Kit Components List to determine kit components. Certificates of Analysis and Kit Components Lists are located under the Documents tab.

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