Rhod-5N, Tripotassium Salt, cell impermeant

Citations & References (9)

Invitrogen™

Rhod-5N, Tripotassium Salt, cell impermeant

Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca2+. They have uses in many calciumRead more

Catalog Number	Quantity
R14207	500 μg

Catalog number R14207

Price (EUR)

480,00

Add to cart

Quantity:

500 μg

Price (EUR)

480,00

Add to cart

Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca²⁺. They have uses in many calcium signaling investigations, including measuring Ca²⁺ in cells and tissues that have high levels of autofluorescence and also for detecting Ca²⁺ release generated by photoreceptors and photoactivatable chelators. Cells may be physically loaded with the cell-impermeant salt forms of these indicators using patch pipette, microinjection, or our Influx™ pinocytotic cell-loading reagent. The fluorescence signal from these cells is generally measured using fluorescence microscopy.

Learn more about ion indicators including calcium, potassium, pH, and membrane potential indicators ›

Calcium Indicator (Cell-Impermeant Salts) Specifications:
• Label (Ex/Em of Ca²⁺–bound form): Rhod-5N (551/576 nm)
• Fluorescence intensity increase upon binding Ca²⁺: >100 fold
• K_d for Ca²⁺ in the absence of Mg²⁺, in buffer: ∼320 μM
• Exhibit fluorescence increase upon binding Ca²⁺ with little shift in wavelength

Using TPEN to Control Heavy Metal Cations
In addition, BAPTA-based indicators such as these bind various heavy metal cations (e.g., Mn²⁺, Zn²⁺, Pb²⁺) with substantially higher affinity than Ca²⁺. Perturbations to calcium measurements caused by presence of these ions can be controlled using the heavy metal-selective chelator TPEN.

More Choices for Fluorescent Calcium Indicators
We offer a large selection of Molecular Probes™ calcium indicators for use in various experimental scenarios. For more information, review Fluorescent Ca²⁺ Indicators Excited with Visible Light—Section 19.3 in the Molecular Probes™ Handbook.

For UV-excitable Ca²⁺ indicators, protein-based Ca²⁺ indicators, conjugates of Ca²⁺ indicators, and for fluorescence-based indicators of other metal ions (i.e., Mg²⁺, Zn²⁺) review Indicators for Ca²⁺, Mg²⁺, Zn²⁺ and Other Metal Ions—Chapter 19 in the Molecular Probes™ Handbook.

For Research Use Only. Not for human or animal therapeutic or diagnostic use.

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

Specifications

Detection MethodFluorescence

Dye TypeFluorescent Dye-Based

Quantity500 μg

Shipping ConditionRoom Temperature

For Use With (Equipment)Fluorescence Microscope

Product TypeCalcium Indicator

Unit SizeEach

Contents & Storage

Store in freezer -5°C to -30°C and protect from light.

Citations & References (9)

Citations & References

Abstract

Patch-clamp detection of macromolecular translocation along nuclear pores.

Authors:Bustamante JO, Varanda WA

Journal:Braz J Med Biol Res

PubMed ID:9698781

'The present paper reviews the application of patch-clamp principles to the detection and measurement of macromolecular translocation along the nuclear pores. We demonstrate that the tight-seal ''gigaseal'' between the pipette tip and the nuclear membrane is possible in the presence of fully operational nuclear pores. We show that the ability ... More

Extracellular Ca2+ depletion contributes to fast activity-dependent modulation of synaptic transmission in the brain.

Authors:Rusakov DA, Fine A

Journal:Neuron

PubMed ID:12546823

'Synaptic activation is associated with rapid changes in intracellular Ca(2+), while the extracellular Ca(2+) level is generally assumed to be constant. Here, using a novel optical method to measure changes in extracellular Ca(2+) at high spatial and temporal resolution, we find that brief trains of synaptic transmission in hippocampal area ... More

Rhod-5N as a fluorescent molecular sensor of cadmium(II) ion.

Authors:Soibinet M, Souchon V, Leray I, Valeur B,

Journal:J Fluoresc

PubMed ID:18488146

The photophysical and complexing properties of Rhod-5N (commercially available) in MOPS buffer are reported. This fluorescent molecular sensor consists of a BAPTA chelating moiety bound to a rhodamine fluorophore. Its fluorescence quantum yield is low and a drastic enhancement of fluorescence intensity upon cation binding was observed. Special attention was ... More

Measurement of limestone biodeterioration using the Ca2+ binding fluorochrome Rhod-5N.

Authors:McNamara CJ, Perry TD, Bearce K, Hernandez-Duque G, Mitchell R

Journal:J Microbiol Methods

PubMed ID:15722151

Limestone and marble have been used extensively in the construction of modern and historic buildings. Microbial colonization and growth on these stone structures is common. Microbial deterioration of stone has been assessed by measuring Ca2+ released from the stone, using ion selective electrodes and titration with EDTA. In this study, ... More

Low-affinity Ca2+ indicators compared in measurements of skeletal muscle Ca2+ transients.

Authors:Hollingworth S, Gee KR, Baylor SM,

Journal:Biophys J

PubMed ID:19804716

The low-affinity fluorescent Ca(2+) indicators OGB-5N, Fluo-5N, fura-5N, Rhod-5N, and Mag-fluo-4 were evaluated for their ability to accurately track the kinetics of the spatially averaged free Ca(2+) transient (Delta[Ca(2+)]) in skeletal muscle. Frog single fibers were injected with one of the above indicators and, usually, furaptra (previously shown to rapidly ... More

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