Fluo-5N, Pentapotassium Salt, cell impermeant

Citations & References (7)

Invitrogen™

Fluo-5N, Pentapotassium Salt, cell impermeant

Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca2+. Fluo-5F, fluo-5N, and fluo-4ff are analogsRead more

Catalog Number	Quantity
F14203 also known as F-14203	500 μg

Catalog number F14203

also known as F-14203

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Quantity:

500 μg

Labeled calcium indicators are molecules that exhibit an increase in fluorescence upon binding Ca²⁺. Fluo-5F, fluo-5N, and fluo-4ff are analogs of fluo-4 with lower Ca²⁺-binding affinity, making them suitable for detecting intracellular calcium levels in the 1 μM to 1 mM range that would saturate the response of fluo-3 and fluo-4. Cells may be physically loaded with the cell-impermeant salt forms of these indicators using patch pipette or microinjection or our Influx™ pinocytotic cell-loading reagent. These indicators are compatible with excitation at 488 nm by argon-ion laser sources, making them useful for confocal microscopy, flow cytometry, and microplate screening applications.

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): Fluo-5N (494/516 nm)
• Fluorescence intensity increase upon binding Ca²⁺: >100 fold
• K_d for Ca²⁺ in buffer: ∼90 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)Confocal Microscope, Fluorescence Microscope, High Content Analysis Instrument, HTS Reader, Microplate Reader, Fluorescent Imager

Product TypeCalcium Indicator

Unit SizeEach

Contents & Storage

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

Citations & References (7)

Citations & References

Abstract

Rational design of protein-based MRI contrast agents.

Authors:Yang JJ, Yang J, Wei L, Zurkiya O, Yang W, Li S, Zou J, Zhou Y, Maniccia AL, Mao H, Zhao F, Malchow R, Zhao S, Johnson J, Hu X, Krogstad E, Liu ZR,

Journal:J Am Chem Soc

PubMed ID:18576649

We describe the rational design of a novel class of magnetic resonance imaging (MRI) contrast agents with engineered proteins (CAi.CD2, i = 1, 2,..., 9) chelated with gadolinium. The design of protein-based contrast agents involves creating high-coordination Gd(3+) binding sites in a stable host protein using amino acid residues and ... More

Concurrent maturation of inner hair cell synaptic Ca2+ influx and auditory nerve spontaneous activity around hearing onset in mice.

Authors:Wong AB, Jing Z, Rutherford MA, Frank T, Strenzke N, Moser T,

Journal:

PubMed ID:23804089

Hearing over a wide range of sound intensities is thought to require complementary coding by functionally diverse spiral ganglion neurons (SGNs), each changing activity only over a subrange. The foundations of SGN diversity are not well understood but likely include differences among their inputs: the presynaptic active zones (AZs) of ... 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

Tuning of synapse number, structure and function in the cochlea.

Authors:Meyer AC, Frank T, Khimich D, Hoch G, Riedel D, Chapochnikov NM, Yarin YM, Harke B, Hell SW, Egner A, Moser T,

Journal:Nat Neurosci

PubMed ID:19270686

Cochlear inner hair cells (IHCs) transmit acoustic information to spiral ganglion neurons through ribbon synapses. Here we have used morphological and physiological techniques to ask whether synaptic mechanisms differ along the tonotopic axis and within IHCs in the mouse cochlea. We show that the number of ribbon synapses per IHC ... More

Confocal imaging of CICR events from isolated and immobilized SR vesicles.

Authors:Shannon TR, Bers DM, Blatter LA, Niggli E

Journal:Cell Calcium

PubMed ID:16122794

The Ca2+ concentration inside the sarcoplasmic reticulum ([Ca2+]SR) is a difficult parameter to measure in ventricular cardiac myocytes. Interference from Ca2+-sensitive dye loading into cellular compartments other than the SR interferes with free Ca2+ measurement. In addition, the composition of the cytosol surrounding the SR in intact cells cannot be ... More

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