LIVE/DEAD™ Fixable Green Dead Cell Stain Kit, for 488 nm excitation
LIVE/DEAD™ Fixable Green Dead Cell Stain Kit, for 488 nm excitation
Citations & References (8)
Invitrogen™

LIVE/DEAD™ Fixable Green Dead Cell Stain Kit, for 488 nm excitation

LIVE/DEAD™ Fixable Green Dead Cell Stain Kitは、細胞内抗体染色に必要な固定および透過の前、またはホルムアルデヒド固定を使用した生物学的有害物質の除去の前に、細胞の生存率を測定するために使用します詳細を見る
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製品番号(カタログ番号)数量
L23101200アッセイ
L34970400 Assays
L3496980 Assays
製品番号(カタログ番号) L23101
価格(JPY)
81,600
Each
お問い合わせください ›
数量:
200アッセイ
LIVE/DEAD™ Fixable Green Dead Cell Stain Kitは、細胞内抗体染色に必要な固定および透過の前、またはホルムアルデヒド固定を使用した生物学的有害物質の除去の前に、細胞の生存率を測定するために使用します。このキットは青色のレーザーフローサイトメーターで使用するように最適化および検証されています。

•安定—色素は、安定性を維持するために別々のバイアルに凍結乾燥されています

• 堅牢—染色パターンは固定前と固定後で同じです

•明るいシグナル—単一チャンネルの生死細胞間の区別を容易にします

フローサイトメトリー用の固定可能なすべての生存解析用色素の選択ガイドをご覧ください。

安定
溶液で販売されている製品とは異なり、LIVE/DEAD™ Fixable Green Stainは、40本の試験バイアルに便利に包装されており、時間の経過とともに色素の安定性と性能を保証します。溶液中のアミン反応性色素は短時間で有効性を失います。そのため、再水和した後はバイアルを完全に使い切ることが推奨されます。これが不可能な場合は、バイアルを少量ずつ分注して-80℃で保存し、凍結融解の繰り返しを避けます。

堅牢
死細胞識別染色剤は、細胞内リン酸化研究に必要な、ホルムアルデヒドなどの固定剤やエタノールベースの固定法による処理後に感度が低下する可能性があります。LIVE/DEAD™ Fixable Green Stainは、アミン反応性色素で、細胞内および細胞外のアミンと共有結合し、ホルムアルデヒド固定後も染色パターンが維持されます。

最適な輝度
LIVE/DEAD™ Fixable Green染色剤は、その蛍光特性に基づいて選択され、青色の488 nmレーザーで励起された場合に明るいシグナルを提供します。緑色蛍光反応色素は約495 nmの波長で励起するため、青色レーザーやおよそ520 nmの発光に最適であり、FITCチャンネルでのシグナル収集を可能にします。フローサイトメーターの単一の色素と単一のチャンネルで生細胞と死細胞を識別できるため、多色実験に最適です。

原理
膜に障害がある細胞では、染色は細胞内部と細胞表面の両方で遊離アミンと反応し、強い蛍光染色が得られます。生細胞では、色素の反応性は細胞表面のアミンに限定されるため、蛍光の強度は低下します。強度の差は通常、生細胞と死細胞の間で50倍を超えるため、容易に識別できます。

利用可能な色
LIVE/DEAD™ Fixable Dead Cell Stainはお客様のマルチカラーパネルのニーズを満たすよう、さまざまな色で提供されています。
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
細胞透過性Impermeant
細胞タイプ真核細胞
概要LIVE/DEAD™ Fixable Green Dead Cell Stain Kit, for 488 nm excitation
検出法蛍光
染色剤タイプその他の標識または色素
形状固体
フォーマットチューブ
数量200アッセイ
出荷条件室温
溶解性DMSO(ジメチルスルホキシド)
Green
Emission520
Excitation Wavelength Range495 nm
使用対象(アプリケーション)生存率アッセイ
使用対象 (装置)フローサイトメーター
製品ラインLIVE/DEAD
製品タイプ染色
Unit SizeEach
組成および保存条件
LIVE/DEAD™固定可能な死細胞染色液 x 5バイアル、500 μL DMSO。-20℃で保存

よくあるご質問(FAQ)

I need to use a dead cell control for my viability assay. Do you have a protocol for killing cells for this?

Heat killing is commonly used. Place your cells in a tube in buffer and heat at 60oC for 20 minutes. You can also kill your cells by fixing them with ice cold 70% ethanol for 15 minutes. The ethanol-killed cells can then be stored at -20oC until needed, at which point you wash out the ethanol and replace with buffer.

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

Regarding the LIVE/DEAD Fixable Dead Cell Stain Kits, which can discriminate between live and dead cells using flow cytometry with one emission wavelength. Can these kits be used with microscopy?

This dye gives a dim surface label for live cells, but is internalized and gives a brighter signal for dead cells. Flow cytometry is a very sensitive technique and can easily distinguish between the two populations. Microscopy is not as sensitive and may not be able to distinguish the cells because of a less sensitive detector.

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

How do I prepare dead cell controls for LIVE/DEAD cell viability assays?

There are two easy options. One is to heat-inactivate the cells by placing at 60 degrees C for 20 minutes. The second is to subject the cells to 70% ethanol. Alcohol-fixed cells can be stored indefinitely in the freezer until use, potentially up to several years.

Centrifuge cells, pellet, and remove supernatant.
Fix cells: Add 10 mL ice cold 70% ETOH to a 15 mL tube containing the cell pellet, adding dropwise at first while vortexing, mix well.
Store in freezer until use.
When ready to use, wash twice and resuspend in buffer of choice.

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

Which cell viability kits are compatible with fixation?

The LIVE/DEAD Fixable kits for flow cytometry analysis are compatible with fixation. These kits use amine-reactive cell-impermeant dyes that stain the cell surface of live cells and also the cytosol of dead cells-live cells are dim and dead cells are bright. Since the dye is covalently bound to the cells, it will be retained after fixation. Unfortunately, this method does not work well for imaging-based assays, as all cells are stained and it is difficult to distinguish bright dead cells from dim live cells with a microscope. Ethidium monoazide (EMA; Cat No. E1374) is a cell impermeant nucleic acid stain that can be applied to live cultures and stains only dead cells. After incubation and washing away unbound dye, the cells can be exposed to light to photoactivate EMA to crosslink to dead cell DNA. After crosslinking to dead cell DNA, the samples may be fixed and permeabilized. Image-IT DEAD Green Viability Stain (Cat. No. I10291) for imaging and high-content screening (HCS) analysis is a live-cell impermeant DNA binding dye that is compatible with fixation and permeabilization with good retention up to 48 hours. We also have a LIVE/DEAD Reduced Biohazard Cell Viability Kit (Cat. No. L7013) for imaging and flow analysis that contains two DNA binding dyes, SYTO 10 and Dead Red, that are sufficiently retained to be analyzed soon after 4% glutaraldehyde fixation.
Note: In general, DNA-binding dyes and calcein AM are not compatible with fixation, as these dyes are not covalently bound to components of the cell and will thus slowly diffuse out of cells after fixation, gradually staining all cells as dead.

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

Why do I need to include a viability stain in my assays?

Many antibodies and stains will label dead cells. This will give you misleading data if you do not exclude the dead cells from your analysis. Of course, if you are labeling fixed cells, they are already dead and you do not need a viability stain. However, if you label your cells prior to fixation, then you need to use one of the LIVE/DEAD Fixable Dead Cell Stains.

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

View all LIVE/DEAD™ Fixable Green Dead Cell Stain Kit, for 488 nm excitation, 200 Assays FAQs

引用および参考文献 (8)

引用および参考文献
Abstract
Techniques to improve the direct ex vivo detection of low frequency antigen-specific CD8+ T cells with peptide-major histocompatibility complex class I tetramers.
Authors:Chattopadhyay PK, Melenhorst JJ, Ladell K, Gostick E, Scheinberg P, Barrett AJ, Wooldridge L, Roederer M, Sewell AK, Price DA,
Journal:Cytometry A
PubMed ID:18836993
'The ability to quantify and characterize antigen-specific CD8+ T cells irrespective of functional readouts using fluorochrome-conjugated peptide-major histocompatibility complex class I (pMHCI) tetramers in conjunction with flow cytometry has transformed our understanding of cellular immune responses over the past decade. In the case of prevalent CD8+ T cell populations that ... More
Amine reactive dyes: an effective tool to discriminate live and dead cells in polychromatic flow cytometry.
Authors:Perfetto SP, Chattopadhyay PK, Lamoreaux L, Nguyen R, Ambrozak D, Koup RA, Roederer M,
Journal:J Immunol Methods
PubMed ID:16756987
'Membrane-damaged cells caused by either mechanical trauma or through normal biological processes can produce artifacts in immunophenotyping analysis by flow cytometry. Dead cells can nonspecifically bind monoclonal antibody conjugates, potentially leading to erroneous conclusions, particularly when cell frequencies are low. To date, DNA intercalating dyes (Ethidium monoazaide (EMA), Propidium Iodide, ... More
Phenotypic Screening with Human iPS Cell-Derived Cardiomyocytes: HTS-Compatible Assays for Interrogating Cardiac Hypertrophy.
Authors:Carlson C, Koonce C, Aoyama N, Einhorn S, Fiene S, Thompson A, Swanson B, Anson B, Kattman S,
Journal:
PubMed ID:24071917
'A major hurdle for cardiovascular disease researchers has been the lack of robust and physiologically relevant cell-based assays for drug discovery. Derivation of cardiomyocytes from human-induced pluripotent stem (iPS) cells at high purity, quality, and quantity enables the development of relevant models of human cardiac disease with source material that ... More
Anakinra treatment in patients with refractory inflammatory myopathies and possible predictive response biomarkers: a mechanistic study with 12 months follow-up.
Authors:Zong M, Dorph C, Dastmalchi M, Alexanderson H, Pieper J, Amoudruz P, Barbasso Helmers S, Nennesmo I, Malmström V, Lundberg IE,
Journal:Ann Rheum Dis
PubMed ID:23625983
'OBJECTIVE: To perform a mechanistic study on the effect of interleukin (IL)-1 blockade by anakinra in patients with refractory myositis and to explore possible predictive biomarkers. METHODS: Fifteen patients with refractory myositis were treated with anakinra for 12 months. Clinical response was assessed by the six-item core set measures of ... More
Blocking angiotensin-converting enzyme induces potent regulatory T cells and modulates TH1- and TH17-mediated autoimmunity.
Authors:Platten M, Youssef S, Hur EM, Ho PP, Han MH, Lanz TV, Phillips LK, Goldstein MJ, Bhat R, Raine CS, Sobel RA, Steinman L,
Journal:Proc Natl Acad Sci U S A
PubMed ID:19706421
The renin-angiotensin-aldosterone system (RAAS) is a major regulator of blood pressure. The octapeptide angiotensin II (AII) is proteolytically processed from the decapeptide AI by angiotensin-converting enzyme (ACE), and then acts via angiotensin type 1 and type 2 receptors (AT1R and AT2R). Inhibitors of ACE and antagonists of the AT1R are ... More
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