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  6. Invitrogen™ ArC™ Amine Reactive Compensation Bead Kit (for use with LIVE/DEAD™ Fixable dead cell stain kits)

Invitrogen™ ArC™ Amine Reactive Compensation Bead Kit (for use with LIVE/DEAD™ Fixable dead cell stain kits)

Product Code. 15563052
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100
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Product Code. 15563052 Supplier Invitrogen™ Supplier No. A10628

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125.40 EUR valid until 2026-04-30
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Description

ArC™ Amine Reactive Compensation Bead Kit (for use with LIVE/DEAD™ Fixable dead cell stain kits)

ArC™ Amine Reactive Compensation Bead Kit is a bead-based compensation tool specifically optimized for use with LIVE/DEAD™ Fixable dead cell stain kits.

  • Ready-to-use control
  • Eliminates the hassle of heat-treating cells as a control, saving precious sample
  • Enables accurate and consistent results

    View a selection guide for all fixable viability dyes for flow cytometry.

    Ready-to-use control
    Unlike other methods that require sample preparation to make compensation controls using cellular material, the ArC Amine Reactive Compensation Bead Kit is ready to use out of the dropper bottle. The kit includes two types of specially modified polystyrene microspheres that have been optimized to react with the amine-reactive dye in the LIVE/DEAD Fixable dead cell stain kits. The ArC reactive beads (Component A) bind any of the amine-reactive dyes and provide a positive signal; the ArC negative beads (Component B) have no reactivity and provide a negative compensation control. This ready-to-use product preserves the original sample material for experiments; precious sample is not used for the creation of compensation controls.

    Accurate and consistent results
    Unlike biological controls, which can have variable expression levels depending upon disease or development state, the Arc beads provide a bright, consistent signal (see figure below). Consistency in the staining pattern of compensation controls is important for obtaining the right compensation value. If the signal varies with the control material used, the compensation value can be affected, leading to erroneous results.

    How it works
    One drop of beads is added to a test tube containing LIVE/DEAD Fixable dead cell stain. After incubation with amine-reactive dye, the beads are washed in staining buffer, a drop of negative control beads is added (if required), and the beads are resuspended and analyzed by flow cytometry. The two components provide a distinct positive bead that is at least 50-fold brighter than the negative beads, which can be used to set compensation.

    Other compensation products
    Besides the ArC Amine Reactive Compensation Beads, AbC™ Anti-Mouse Bead Kit is also available for capture of mouse anti-human antibodies, as well as the AbC™ Anti-Rat/Hamster Bead Kit for capture of rat anti-mouse or hamster anti-mouse antibodies.
    • TRUSTED_SUSTAINABILITY

    Specifications

    Diameter (Metric) 6 μm
    Content And Storage Contains 1 vial ArC™ amine reactive beads and 1 vial of negative beads.
  • Store at 2°C to 8°C
    		•
    Format Tube
    For Use With (Equipment) Flow Cytometer
    No. of Tests 25
    Quantity 1 Kit
    Detection Method Fluorescence
    Excitation Wavelength Range any laser (UV to 633/635)
    Stain Configuration Surface
    Shipping Condition Room Temperature
    Product Line ArC, LIVE/DEAD
    Product Type Compensation Beads
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    Frequently Asked Questions (FAQs)

    Are the vials of ArC Amine Reactive Compensation Bead Kit (for use with LIVE/DEAD Fixable dead cell stain kits) (Cat. No. A10346, A10648) compatible with Vaporized Hydrogen Peroxide (VHP) sterilization?

    While the polypropylene cap is compatible with Vaporized Hydrogen Peroxide (VHP) sterilization, we have not tested the compatibility of the Low-Density Polyethylene (LDPE) / Linear Low-Density Polyethylene (LLDPE) vials with VHP sterilization.

    What is the stability for the ArC Amine Reactive Compensation Bead Kit (for use with LIVE/DEAD Fixable dead cell stain kits)?

    When stored as directed (2-8 degrees C), this kit is stable for at least 1 year. Please do not freeze the kit. Please visit the user guide (https://assets.thermofisher.com/TFS-Assets/LSG/manuals/arc_amine_reactive_comp_bead_kit_man.pdf) for further technical details.
    My ArC Amine Reactive Compensation beads are excessively clumped and cannot be resuspended by vortexing or sonication. What may have caused this?

    This can occur if the solution of beads was ever frozen. The formation of ice excludes the beads and compresses the beads together. Once frozen, the beads cannot be resuspended into solution and are no longer usable.
    For the ArC Amine Reactive Compensation Bead Kit, why must I use freshly prepared amine-reactive dye?

    This is because succinimidyl ester (NHS ester) groups are very labile to water; they dissociate readily from the dye structure if held in solvents that are contaminated with water, as is possible from condensation or absorbing water from the atmosphere.

    Besides the Live/Dead Fixable Dead Cell stain, may I conjugate other amine-reactive dyes to the beads in the ArC Amine Reactive Compensation Bead Kit?

    Yes. The succinimidyl ester (NHS ester) and isothiocyanate (e.g., FITC, TRITC) dye derivatives may be attached to the ArC beads, but you would have to optimize the amount of reactive dye per ArC beads.
    I am performing flow cytometry. My compensation matrix has values over 100. That's not possible is it?

    It is possible. But if you have a lot of values over 100, you probably need to look at the voltages that you are using for your data collection.
    I’ve been told that I need to compensate my data for flow cytometry analysis. What does that mean?

    By running single-color controls, it is possible to remove signal of one fluorophore that spills over into the collection channel for another fluorophore.

    What kind of controls do I need for flow cytometry?

    For compensation, you need to prepare a singly stained sample (or compensation beads) for each color parameter that you are using. In addition, we recommend that you use FMO (flow minus one) controls. These are controls in which you label cells or beads with every color in your panel, omitting one. Make one FMO control for each color. These controls are important for helping you properly set gates on your data.
    Do I need compensation controls for non-antibody reagents?

    Yes, you should have a compensation control for each color in your assay. For amine-reactive stains such as our LIVE/DEAD Fixable Dead Cell Stain Kits, you can label beads to make compensation controls using our ArC Amine Reactive Compensation Bead Kit (Cat. No. A10346). For other stains, such as cell cycle stains, you need to use labeled cells for your compensation control.
    Why should I worry about compensation in flow cytometry analysis?

    In a perfect world, the fluorescence emission profile for each individual fluorophore would be a very intense, narrow peak, well separated from all other emission peaks. In reality, organic dyes and fluorescent proteins have broad emission peaks, and compensation must be employed (during or after data acquisition) to correctly assign fluorescence signal to each fluorophore. Compensation is important because it removes fluorescent signal from overlapping spectra so you know that the signal you see is only the signal from the fluorophore of interest.

    How do I make compensation controls for antibodies?

    All that you need for compensation controls is an unstained sample of your cells (or negative control beads) and samples with each of your fluorophores - one per tube. You want the single-stained controls to be as bright as you expect your brightest sample to be. Antibodies can be bound to beads instead of cells using our AbC Total Antibody Compensation Bead Kit (Cat. Nos. A10513 and A10497).

    What is the smallest size that I can detect with the Attune NxT Acoustic Focusing Cytometer?

    The smallest size that you can detect with the Attune NxT Acoustic Focusing Cytometer is 0.5 µm.
    What is the Attune NxT Autosampler?

    The Attune NxT Autosampler, an optional accessory for the Attune NxT Acoustic Focusing Cytometer, enables rapid processing of up to 384 samples. It has broad compatibility with different plate formats, both 96- and 384-well plates. It has an intelligent probe designed to minimize clogging and carryover (<0.5%) and to prevent damage to the instrument. It mixes by aspiration rather than shaking to ensure homogeneity of the sample and maintain cell viability. Is performs automated cleaning as part of the shutdown process of the Attune NxT Cytometer. It provides consistent data regardless of sampling method (tube vs. plate) and collection rate.
    What are the advantages of acoustic-assisted hydrodynamic focusing in flow cytometry?

    -Modular design - Multiple configurations available - field upgradable.
    -Save time - 10X faster speeds with no loss in data quality.
    -Simplified sample prep - No wash, no lyse options, non-clogging fluidics.
    -Enables unique applications - Complex protocols on a broad range of cell types and samples.
    How is the Attune NxT Acoustic Focusing Cytometer different from traditional flow cytometers?

    With the option to be configured with up to 4 lasers and 14 colors for multi-parameter analysis the Attune NxT Acoustic Focusing Cytometer was designed as a modular system to fit most experimental needs and lab budgets. The novel design of the optical path helps ensure precise fixed alignment of four spatially separated lasers onto the sample stream enabling consistency in data over time, superior performance, and superior reliability. The instrument can be configured with up to 4 solid-state lasers (405 nm, 488 nm, 561 nm, and 637 nm) with flat top beam profiles.

    The Attune NxT Flow Cytometer's acoustic focusing uses ultrasonic radiation pressure (> 2 MHz) to transport particles into the center of the sample stream. This pre-focused stream is then injected into the sheath stream, which supplies an additional hydrodynamic pressure to the sample. The combination of these two forces- termed acoustic-assisted hydrodynamic focusing-results in a narrow core stream and uniform laser illumination, regardless of the sample input rate. In traditional cytometers that rely solely on hydrodynamic focusing, the sample core widens to accommodate the increases in flow rate, which results in less uniform laser light illumination.
    What is flow cytometry?

    Cytometry is the measurement of physical or chemical characteristics of cells or particles. Flow cytometry measures these characteristics of cells or particles as they individually pass lasers in a flow cytometer instrument. Flow cytometry is performed on single cells, providing discrete measurements for each cell in the sample. It also provides a statistical distribution of the measured characteristics of the sample.

    A flow cytometer is made up of three subsystems: fluidics, optics, and electronics. Fluidics moves the cells and introduces them for interrogation. Optics generates and collects the light signals. Electronics converts the optical signals to proportional electronic signals for computer analysis.

    For Research Use Only. Not for use in diagnostic procedures.

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