Zinquin ethyl ester UltraPure grade

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Physical properties

Molecular weight	414.47
Solvent	DMSO

Spectral properties

Excitation (nm)	355
Emission (nm)	491

Storage, safety and handling

Certificate of Origin	Download PDF
H-phrase	H303, H313, H333
Hazard symbol	XN
Intended use	Research Use Only (RUO)
R-phrase	R20, R21, R22
Storage	Freeze (< -15 °C); Minimize light exposure
UNSPSC	12352200

Overview SDS Protocol

See also: Intracellular Ions

CAS

181530-09-6

Molecular weight

414.47

Excitation (nm)

355

Emission (nm)

491

Zinquin ethyl ester is a lipophilic, zinc-sensitive, cell-permeable fluorescent probe. It is retained in living cells because the ethyl ester is cleaved by cytosolic esterase to give Zinquin that carry a negative charge, preventing its efflux across the plasma membrane. Zinquin fluorescent probes may be loaded into cells by in the culture medium containing 5-40 uM Zinquin ethyl ester in PBS with calcium and magnesium (or in culture medium). Cells are normally incubated with the Zinquin ethyl ester for 15-30 minutes at 37 °C. Exact loading concentration, time and temperature depend on the purpose of the experiment and cell type, and so will need to be optimized experimentally. Cells are washed in PBS with culture medium to remove extracellular remaining dye. Cells are observed under microscope or used for confocal microscopy, FACS or spectrofluorimetry analysis. Zinc is the second most abundant transition metal in the body and it is essential as catalytic, structural and regulatory ion. Zinc ions are involved in homeostasis, immune responses, oxidative stress, apoptosis and aging. Zinc has been proposed to function as a conventional neurotransmitter for the presynaptic neuron and as a transmembrane signal to traverse the postsynaptic neuron. Aberrant zinc metabolism is associated with many neurological diseases including Alzheimer's disease, Parkinson's disease and epilepsy. The most suitable technique for in vivo monitoring of zinc has been proven to be fluorescence imaging.

Platform

Flow cytometer

Excitation	355 nm laser
Emission	515/30 nm filter

Example protocol

PREPARATION OF STOCK SOLUTION

Unless otherwise noted, all unused stock solutions should be divided into single-use aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.

1. Zinquin stock solution:
Make a ~10 mM Zinquin ethyl ester stock solution with DMSO.

SAMPLE EXPERIMENTAL PROTOCOL

Load into cells in culture medium containing 5 - 40 uM zinquin ethyl ester or in PBS (with calcium and magnesium).
Incubate with the zinquin ethyl ester for 15 - 30 minutes at 37°C. Exact loading concentration, time, and temperature depend on the purpose of the experiment and cell type, and so will need to be optimized experimentally.
Wash with PBS to remove any extracellular remaining dye, and replace with PBS or medium.
Observe under microscope or analyze with flow cytometer with 515/30 nm filter.

Calculators

Common stock solution preparation

Table 1. Volume of DMSO needed to reconstitute specific mass of Zinquin ethyl ester *UltraPure grade* to given concentration. Note that volume is only for preparing stock solution. Refer to sample experimental protocol for appropriate experimental/physiological buffers.

	0.1 mg	0.5 mg	1 mg	5 mg	10 mg
1 mM	241.272 µL	1.206 mL	2.413 mL	12.064 mL	24.127 mL
5 mM	48.254 µL	241.272 µL	482.544 µL	2.413 mL	4.825 mL
10 mM	24.127 µL	120.636 µL	241.272 µL	1.206 mL	2.413 mL

Molarity calculator

Enter any two values (mass, volume, concentration) to calculate the third.

Mass (Calculate)		Molecular weight		Volume (Calculate)		Concentration (Calculate)		Moles
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Spectrum

Open in Advanced Spectrum Viewer

Spectral properties

Excitation (nm)	355
Emission (nm)	491

Images

Figure 1. Chemical structure for Zinquin ethyl ester *UltraPure grade*

Citations

View all 1 citations: Citation Explorer

Oyster-Derived Zinc-Binding Peptide Modified by Plastein Reaction via Zinc Chelation Promotes the Intestinal Absorption of Zinc
Authors: Li, Jianpeng and Gong, Chen and Wang, Zaiyang and Gao, Ruichang and Ren, Jiaoyan and Zhou, Xiaodong and Wang, Haiyan and Xu, He and Xiao, Feng and Cao, Yuhui and others, undefined
Journal: Marine drugs (2019): 341

References

View all 8 references: Citation Explorer

Zinquin identifies subcellular compartmentalization of zinc in cortical neurons. Relation to the trafficking of zinc and the mitochondrial compartment
Authors: Colvin RA, Laskowski M, Fontaine CP.
Journal: Brain Res (2006): 1

S-Nitroso compounds interfere with zinc probing by Zinquin
Authors: Jansen S, Arning J, Dulcks T, Beyersmann D.
Journal: Anal Biochem (2004): 145

Coordination and fluorescence of the intracellular Zn2+ probe [2-methyl-8-(4-toluenesulfonamido)-6-quinolyloxy]acetic acid (Zinquin A) in ternary Zn2+ complexes
Authors: Hendrickson KM, Geue JP, Wyness O, Lincoln SF, Ward AD.
Journal: J Am Chem Soc (2003): 3889

Fluorescent detection of Zn(2+)-rich vesicles with Zinquin: mechanism of action in lipid environments
Authors: Snitsarev V, Budde T, Stricker TP, Cox JM, Krupa DJ, Geng L, Kay AR.
Journal: Biophys J (2001): 1538

The synthesis and fluorescent properties of analogues of the zinc(II) specific fluorophore zinquin ester
Authors: Kimber MC, Mahadevan IB, Lincoln SF, Ward AD, Tiekink ER.
Journal: J Org Chem (2000): 8204

Changes in distribution of labile zinc in mouse spermatozoa during maturation in the epididymis assessed by the fluorophore Zinquin
Authors: Zalewski PD, Jian X, Soon LL, Breed WG, Seamark RF, Lincoln SF, Ward AD, Sun FZ.
Journal: Reprod Fertil Dev (1996): 1097

Measurement of zinc in hepatocytes by using a fluorescent probe, zinquin: relationship to metallothionein and intracellular zinc
Authors: Coyle P, Zalewski PD, Philcox JC, Forbes IJ, Ward AD, Lincoln SF, Mahadevan I, Rofe AM.
Journal: Biochem J (1994): 781

Flux of intracellular labile zinc during apoptosis (gene-directed cell death) revealed by a specific chemical probe, Zinquin
Authors: Zalewski PD, Forbes IJ, Seamark RF, Borlinghaus R, Betts WH, Lincoln SF, Ward AD.
Journal: Chem Biol (1994): 153