Click-iT™ Plus EdU Alexa Fluor™ 350 Flow Cytometry Assay Kit
Click-iT™ Plus EdU Alexa Fluor™ 350 Flow Cytometry Assay Kit
Invitrogen™

Click-iT™ Plus EdU Alexa Fluor™ 350 Flow Cytometry Assay Kit

Click-iT Plus EdU Alexa Fluor 350フローサイトメトリーアッセイキットは、従来のBrdU法と比較して、増殖細胞のDNA複製を分析するための、シンプルで堅牢なアッセイを提供します。新しく合成されたDNAは詳細を見る
テクニカルサポートオーダーサポート
製品番号(カタログ番号)数量
C1064550 assays
製品番号(カタログ番号) C10645
価格(JPY)
140,700
Each
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数量:
50 assays
Click-iT Plus EdU Alexa Fluor 350フローサイトメトリーアッセイキットは、従来のBrdU法と比較して、増殖細胞のDNA複製を分析するための、シンプルで堅牢なアッセイを提供します。新しく合成されたDNAは、フローサイトメーターのUVレーザーを使用して解析されます。Click-iT Plusの組成は、R-PEやR-PEタンデムなどの標準的な蛍光色素や蛍光タンパク質に対応しています。

•マルチプレックス対応 — R-PE(およびタンデム)および蛍光タンパク質に適合しています
• 正確 — BrdUアッセイと比べて優れた結果を得られます
• 迅速 — 結果が出るまでわずか60分です

フローサイトメトリー用のすべてのClick-iT EdUおよびClick-iT Plus EdUアッセイ選択ガイドを表示

マルチプレックス対応
Click-iT Plus Alexa Fluor 350 EdUアッセイは、R-PEおよびR-PEタンデム、ならびにGFPやmCherryなどの蛍光タンパク質と組み合わせて使用できます。Alexa Fluor 350ラベリング試薬は350 nmのUVレーザーで励起し、438 nmで発光します。

BrdUよりも優れた結果をもたらす高度なメソッド
増殖解析を最も正確に行える方法は、DNA合成の直接測定です。これは当初、放射性ヌクレオシドの組み込みによって行われていました。この方法は、ヌクレオシドアナログブロモデオキシウリジン(BrdU)の抗体ベースの検出に置き換えられました。Click-iT Plus EdUフローサイトメトリーアッセイは、BrdUアッセイに代わる新たな方法です。EdU(5-エチニル-2´-デオキシウリジン)は、活性DNAの合成中にDNAに取り込まれるチミジンアナログです。検出は、クリックケミストリーに基づいています。クリックケミストリーは、アジドとアルキンの間の銅触媒共有結合反応です。このアプリケーションでは、アルキンはEdUのエチニル基に、アジドはAlexa Fluor色素に結合します。標準的なフローサイトメトリー法は、集団におけるS期細胞の割合を測定するために使用します。

穏やかな条件下では細胞周期色素と抗体を使用可能です
色素アジドのサイズが小さいため、取り込まれたEdUを穏やかな条件下で効率的に検出できます。一方、標準的なアルデヒドベースの固定および界面活性剤による透過処理で、Click-iT Plus検出試薬はDNAに到達できます。これは、抗BrdU抗体で検出できるようにBrdUを露出させるために(HCl、熱、またはDNaseでの消化を使用して)DNAの変性を必要とするBrdUアッセイとは対照的です。BrdUアッセイのサンプル処理は、HCl法を使用する際に、細胞周期分布のシグナル変化や抗原認識部位の破壊を引き起こす可能性があります。対照的に、使いやすいClick-iT Plus EdUアッセイは、細胞周期色素に対応しています。Click-iT Plus EdUアッセイは、表面および細胞内マーカーに対する抗体、ならびにR-PE、R-PEタンデム、蛍光タンパク質(GFPおよびmCherry)などの標準フルオロフォアで標識されたコンジュゲートでマルチプレックス化することもできます。

迅速かつシンプルなプロトコル
Click-iT Plus EdUプロトコルは、免疫組織化学的な抗体標識を行うためのアルデヒド固定および界面活性剤による透過処理ステップに基づいています。ただし、EdUはサポニンやメタノールなどの他の固定/透過処理剤に対応しています。’わずか5ステップで細胞増殖データを解析できます。

1.EdUで細胞を処理します。
2.細胞を固定し透過します。
3.Click-it Plus検出カクテルを使用して30分間、S期細胞を検出します。
4.1回洗浄します。
5分析します。

状況によっては、わずか60分で結果を確認できますが、すべてのアプリケーションに90分を推奨します。
研究用途にのみご使用ください。診断目的には使用できません。
仕様
フォーマットKit
数量50 assays
出荷条件室温
Emission350⁄438
使用対象 (装置)フローサイトメーター
製品ラインAlexa Fluor, Click-iT
製品タイプ試薬
Unit SizeEach
組成および保存条件
EdU(5-エチニル-2'-デオキシウリジン)、AlexaFluor 350ピコリルアジド、無水ジメチルスルホキシド(DMSO)、Click-iT固定剤、Click-iTサポニンベースの透過処理および洗浄バッファー、銅保護剤、Click-iT EdU添加バッファーを含みます。
  • 2℃~8℃で保存してください
    • 乾燥した状態で、遮光してください。

    よくあるご質問(FAQ)

    Can I combine Click-iT or Click-iT Plus reactions with phalloidin conjugates used for actin staining?

    We do not recommend using phalloidin conjugates for staining actin in combination with traditional Click-iT or Click-iT Plus reactions since phalloidin is extremely sensitive to the presence of copper.

    For staining actin in combination with traditional Click-iT or Click-iT Plus reactions, we recommend using anti-α-actin antibodies for staining actin in the cytoskeleton. You can find a list of our actin antibodies here.

    Another option would be to use the Click-iT Plus Alexa Fluor Picolyl Azide Toolkit (Cat. Nos. C10641, C10642, C10643). These Click-iT Plus toolkits provide Copper and Copper protectant separately which makes it easier to titrate the copper concentration to obtain optimal labeling with minimal copper-mediated damage. You may need to optimize the click reaction with the lowest possible concentration of copper and then perform the phalloidin staining.

    Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.

    I am observing no signal or very low specific signal for my click-labeled samples. What can I do to improve the signal?

    The click reaction is only effective when copper is in the appropriate valency. Azides and alkynes will not react with each other without copper. Make sure that the click reaction mixture is used immediately after preparation when the copper (II) concentration is at its highest.
    Do not use additive buffer that has turned yellow; it must be colorless to be active.
    Cells need to be adequately fixed and permeabilized for the TdT enzyme and click reagents to have access to the nucleus. Tissue samples require digestion with proteinase K or other proteolytic enzymes for sufficient TdT access.
    Some reagents can bind copper and reduce its effective concentration available to catalyze the click reaction. Do not include any metal chelator (e.g., EDTA, EGTA, citrate, etc.) in any buffer or reagent prior to the click reaction. Avoid buffers or reagents that include other metal ions that may be o xidized or reduced. It may be help to include extra wash steps on the cell or tissue sample before performing the click reaction.
    You can repeat the click reaction with fresh reagents to try to improve signal. Increasing the click reaction time longer than 30 minutes will not improve a low signal. Performing a second, 30 minute incubation with fresh click reaction reagents is more effective at improving labeling.
    Your cells may not be apoptotic. Prepare a DNase I-treated positive control to verify that the TdT enzymatic reaction and click labeling reaction are working correctly.

    Find additional tips, troubleshooting help, and resources within our Labeling Chemistry Support Center.

    I am observing high non-specific background when I image my Click-iT EdU TUNEL-labeled samples. What is causing this and what can I do to reduce the background?

    The click reaction is very selective between an azide and alkyne. No other side reactions are possible in a biological system. Any non-specific background is due to non-covalent binding of the dye to various cellular components. The Select FX Signal Enhancer is not effective at reducing non-specific charge-based binding of dyes following the click reaction; we do not recommend its use with the Click-iT detection reagents. The best method to reduce background is to increase the number of BSA washes. You should always do a no-dye or no-click reaction control under the same processing and detection conditions to verify that the background is actually due to the dye and not autofluorescence. You should also perform the complete click reaction on a no-TdT enzyme control sample to verify the specificity of the click reaction signal.

    Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.

    I notice that when I post-stain my cells with DAPI after performing the click reaction to detect EdU incorporation, my DAPI signal is lower compared to my no-click reaction control samples. What causes the reduction in DAPI signal?

    The copper in the click reaction denatures DNA to a small extent (although not as much as is required for efficient BrdU detection), which can affect the binding affinity of DNA dyes including DAPI and Hoechst stain. This effect should only be apparent with the classic EdU kits and not the Click-iT Plus EdU kits, which use a lower copper concentration.

    Find additional tips, troubleshooting help, and resources within our Cell Viability, Proliferation, Cryopreservation, and Apoptosis Support Center.

    I am observing no signal or very low signal for my click-labeled samples. What can I do to improve the signal?

    The click reaction is only effective when copper is in the appropriate valency. Except for the DIBO alkyne-azide reaction, azides and alkynes will not react with each other without copper. Make sure that the click reaction mixture is used immediately after preparation when the copper (II) concentration is at its highest.
    Do not use additive buffer that has turned yellow; it must be colorless to be active.
    Cells need to be adequately fixed and permeabilized for the click reagents to have access to intracellular components that have incorporated the click substrate(s).
    Some reagents can bind copper and reduce its effective concentration available to catalyze the click reaction. Do not include any metal chelator (e.g., EDTA, EGTA, citrate, etc.) in any buffer or reagent prior to the click reaction. Avoid buffers or reagents that include other metal ions that may be oxidized or reduced. It may be help to include extra wash steps on the cell or tissue sample before performing the click reaction.
    You can repeat the click reaction with fresh reagents to try to improve signal. Increasing the click reaction time longer than 30 minutes will not improve a low signal. Performing a second, 30 minute incubation with fresh click reaction reagents is more effective at improving labeling.
    Low signal can also be due to low incorporation of EdU, EU, or other click substrates. Other click substrates (e.g., AHA, HPG, palmitic acid, azide, etc.) incorporated into cellular components may have been lost if not adequately cross-linked in place or if the wrong fixative was used. For click substrates that are incorporated into the membrane or lipids, you should avoid the use of alcohol or acetone fixatives and permeabilizing agents.
    The incorporated click substrate must be accessible at the time of the click reaction; labeling of incorporated amino acid analogs may be lower in native proteins relative to denatured proteins.
    You may need to optimize the metabolic labeling conditions including analog incubation time or concentration. Cells that are healthy, not too high of a passage number and not too crowded may incorporate the analog better. You may create a positive control by including extra doses of the click substrate during multiple time points during an incubation time that spans or closely spans the doubling time of the cell type of interest.

    Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.

    View all Click-iT™ Plus EdU Alexa Fluor™ 350 Flow Cytometry Assay Kit FAQs