SNARF™-5F 5-(和-6)-羧酸乙酰氧基甲基酯、醋酸酯 - 特殊包装

引用和文献 (13)

Invitrogen™

SNARF™-5F 5-(和-6)-羧酸乙酰氧基甲基酯、醋酸酯 - 特殊包装

可渗透细胞的比率式 pH 值指示剂 SNARF™-5F 5-(和-6)-羧酸（乙酰氧基甲基酯、乙酸酯）（pKa 为了解更多信息

货号	数量
S23923	20 x 50 μg

货号 S23923

价格（CNY)

6,184.00

Ends: 31-Dec-2026

8,471.00

共减 2,287.00 (27%)

添加至购物车

20 x 50 μg

价格（CNY)

6,184.00

Ends: 31-Dec-2026

8,471.00

共减 2,287.00 (27%)

添加至购物车

可渗透细胞的比率式 pH 值指示剂 SNARF™-5F 5-(和-6)-羧酸（乙酰氧基甲基酯、乙酸酯）（pK_a 为 ∼7.2）在酸性和碱性条件下分别显示出从黄橙色到深红色荧光的显著 pH 值依赖性发射波长变化。这种 pH 值依赖性使得可利用染料在两种发射波长（通常为 580 nm 和 640 nm）处的荧光强度比定量测定 pH 值。

了解有关离子指示剂（包括钙、钾、pH 值和膜电位指示剂）的更多信息›

仅供科研使用。不可用于诊断程序。

检测方法荧光

染料类型基于荧光染料

指示器pH 值指示剂

数量20 x 50 μg

运输条件室温

适用于（设备）荧光显微镜, 流式细胞仪, 微孔板读数仪

产品线SNARF

产品类型pH 值指示剂

Unit SizeEach

内容与储存

在冰箱中（-5°C 至 -30°C）储存。

常见问题解答 (FAQ)

为什么我看不到活细胞荧光指示剂信号有明显变化？

不管何种活细胞指示剂染料（如钙指示剂，pH指示剂，金属离子指示剂），请务必确保上样过程中无血清，否则血清会过早地切割带有AM酯基的染料并非特异性结合染料。在检测样品之前，请使用阳性对照优化染料浓度和染色时间来得到最佳的信号与背景比值。做阳性对照时缓冲液一定要包含已知浓度的自由离子和用于打开离子通道的离子载体（例如Fluo-4 AM一类的钙指示剂，它包括缓冲液中加入钙与卡西霉素，又比如pH指示剂，不同pH值的缓冲液与尼日利亚霉素相结合）。类似于CellROX Green 或H2DCFDA需要一个细胞活性氧（ROS）刺激作为阳性对照，例如甲萘醌。最后，确保成像系统具有灵敏的探测器。例如相对于显微镜或流式细胞仪，读板仪检测信号和背景差异的能力就比较低。

Why don't I see a significant change in signal for my live-cell fluorescent indicator dye?

Regardless of the type of live-cell indicator dye (e.g., calcium indicators, pH indicator, metal ion indicators), make sure there is no serum during the loading step, which can prematurely cleave dyes with AM esters and bind dyes non-specifically. Always optimize the dye concentration and staining time with a positive control before you run your test samples, to give the best signal-to-background. Always run a positive control with a buffer containing free ions of known concentration and an ionophore to open pores to those ions (for instance, for calcium indicators like Fluo-4 AM, this would include a buffer with added calcium combined with calcimycin, or for pH indicators, buffers of different pHs combined with nigericin). Reactive oxygen indicators, such as CellROX Green or H2DCFDA would require a cellular reactive oxygen species (ROS) stimulant as a positive control, such as menadione. Finally, make sure your imaging system has a sensitive detector. Plate readers, for instance, have much lower detector efficiency over background, compared to microscopy or flow cytometry.

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

引用和文献 (13)

引用和文献

Abstract

Relationships between calcium and pH in the regulation of the slow afterhyperpolarization in cultured rat hippocampal neurons.

Authors:Kelly T, Church J

Journal:J Neurophysiol

PubMed ID:16885515

'The Ca(2+)-dependent slow afterhyperpolarization (AHP) is an important determinant of neuronal excitability. Although it is established that modest changes in extracellular pH (pH(o)) modulate the slow AHP, the relative contributions of changes in the priming Ca(2+) signal and intracellular pH (pH(i)) to this effect remain poorly defined. To gain a ... More

Potential contribution of a voltage-activated proton conductance to acid extrusion from rat hippocampal neurons.

Authors:Cheng YM, Kelly T, Church J,

Journal:Neuroscience

PubMed ID:18201832

'We examined the potential contribution of a voltage-gated proton conductance (gH+) to acid extrusion from cultured postnatal rat hippocampal neurons. In neurons loaded with Ca2+- and/or pH-sensitive fluorophores, transient exposures to 25-139.5 mM external K+ (K+o) or 20 microM veratridine in the presence of 2 mM Ca2+o (extracellular pH (pHo) ... More

Fluorescent indicators for intracellular pH.

Authors:Han J, Burgess K,

Journal:Chem Rev

PubMed ID:19831417

This review is about intracellular pH sensors, includingsmall fluorescent organic molecules, nanoparticles, andfluorescent proteins, e.g., GFP. It focuses on their preparations, photophysical properties, and advantages/disadvantagesfor intracellular pH measurements. The discussion is limitedto fluorescent indicators that have been applied to measureintracellular pH values since 1980. ... More

Synthesis and photophysical properties of new fluorinated benzo[c]xanthene dyes as intracellular pH indicators.

Authors:Liu J, Diwu Z, Leung WY

Journal:Bioorg Med Chem Lett

PubMed ID:11677123

Two new fluorinated benzo[c]xanthene dyes were synthesized by reaction of fluorinated 1,6-dihydroxynaphthalenes with 2,4- (and 2,5)-dicarboxy-3'-dimethylamino-2'-hydroxybenzophenone. The two critical fluorinated 1,6-dihydroxynaphthalene intermediates were prepared via a regioselective route. The fluorinated benzo[c]xanthene dyes exhibit desired lower pK(a) values (6.4 and 7.2, respectively) than their parent compound (pK(a)=7.5) while the pH-dependent dual-emission ... More

Time-domain fluorescence lifetime imaging for intracellular pH sensing in living tissues.

Authors:Hille C, Berg M, Bressel L, Munzke D, Primus P, Löhmannsröben HG, Dosche C,

Journal:Anal Bioanal Chem

PubMed ID:18481048

pH sensing in living cells represents one of the most prominent topics in biochemistry and physiology. In this study we performed one-photon and two-photon time-domain fluorescence lifetime imaging with a laser-scanning microscope using the time-correlated single-photon counting technique for imaging intracellular pH levels. The suitability of different commercial fluorescence dyes ... More

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