A highly selective and sensitive in vivo fluorosensor for zinc(ii) without cytotoxicity

Mistri, Tarun; Dolai, Malay; Chakraborty, Debrup; Khuda‐Bukhsh, Anisur Rahman; Das, Kalyan Kumar; Ali, Mahammad

doi:10.1039/c2ob07084g

Cited by 77 publications

(27 citation statements)

References 44 publications

(9 reference statements)

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“…Among the several methods available for determination of Zn 2+ ion, fluorescence has become more useful and popular method in environmental chemistry, medicine and biology. The most common fluorescent probes for detection of Zn 2+ ion are coumarin, Schiff bases, calixarene, hydroxyflavone 8‐hydroxyquinoline, and imidazoline . Prime reason for lesser development of zinc(II) specific sensors is the poor coordination of ligands towards bivalent zinc, in comparison with other common transition metal ions.…”

Section: Introductionmentioning

confidence: 99%

Selective Recognition of Zn²⁺ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

Behera

Manivannan

2016

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A trisubstituted imidazole, 2,4-bis(2-pyridyl)-5-(4-pyridyl)imidazole (LH) in presence of other cations, selectively binds Zn 2 + ion by exhibiting characteristic absorption and fluorescence spectral behaviors. Upon gradual addition of ZnCl 2 to DMSOsolution of LH, intensity of peak at 318 nm decreased. A new peak appeared at 364 nm along with an isosbestic point at 337 nm. The DMSOsolution of LH upon irradiation with l = 320 nm exhibited an emission peak at 391 nm, which decreased gradually with increase in Zn 2 + ion concentrations. A new emission peak also appeared at 445 nm along with a quasi isoemissive point at 413 nm. The HEPES buffered aqueous DMSO solution (2:8 v/v, pH = 7.4) of free LH, upon excitation with 320 nm radiation gave emission at 396 nm which shifted to 445 nm during incremental additions of Zn 2 + ion. The red shift is due to binding of Zn 2 + ion to LH. The binding is accompanied by deprotonation of acidic hydrogen in imidazole ring and orientation of two 2-pyridyl rings in near-planarity with imidazolate ring. The Zn 2 + ion can be detected with a calculated limit of 6.5 3 10 À7 M. The Job's plot revealed that ligand binds Zn 2 + ion in 1:2 ratios and was further confirmed by single crystal X-ray diffraction method. Results and DiscussionThe selectivity of LHtowards cations in DMSO and HEPES buffered aqueous DMSO solution (pH = 7.4, 2:8, v/v) were exam-[a] N.

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Section: Introductionmentioning

confidence: 99%

Selective Recognition of Zn²⁺ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

Behera

Manivannan

2016

ChemistrySelect

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“…This selectivity of Co 2+ over other relevant metal ions is represented with a bar diagram (inset (a) Figure ). The Limit of Detection (LOD) of AgNC was determined by 3σ method ,. In this method LOD=3σ/m where ‘σ’ is the standard deviation of blank (1.20) and ‘m’ is the slope of the fluorescence intensity vs [Co 2+ ] plot, inset (b) Figure .…”

Section: Resultsmentioning

confidence: 99%

The Application of Silver Nanoclusters to Sensing, Cell Imaging and Construction of Molecular Logic Gates

Samai

Mati²,

Singharoy

et al. 2019

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A simple sensitive method to detect both biothiols and cobalt ion among a series of amino acids and metal ions respectively using a single system of fluorescent silver nanoclusters (AgNC) stabilized by hyperbranched polyethylenimine (PEI) has been demonstrated herein. The sensing response of fluorescent AgNC towards both biothiols and cobalt ion has been applied to construct different molecular logic gates. The characterisation of fluorescent AgNC (size ∼ 3 nm) and recognition mechanism towards the biothiols and metal ion have been discussed thoroughly. The sensing property of both biological system and a metal ion with a single system like tiny fluorescent metal nanocluster and their application in the device technology as a logic gate is surely a step to tie the bond between biology and technology through molecular spectroscopy.

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“…[17] Also, this study has revealed new potential applications in the development of new-generation molecular electronic devices, a molecular INHIBIT logic gate, in which Hg 2+ and Iare used as chemical inputs and the fluorescence signal as output. [17] Also, this study has revealed new potential applications in the development of new-generation molecular electronic devices, a molecular INHIBIT logic gate, in which Hg 2+ and Iare used as chemical inputs and the fluorescence signal as output.…”

Section: Introductionmentioning

confidence: 92%

Rhodamine‐Based Chromo‐/Fluorogenic Dual Signalling Probe for Selective Recognition of Hg^II with Potential Applications for INHIBIT Logic Devices and Cell‐Imaging Studies

et al. 2013

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A new rhodamine-based dual signaling probe (L 3 ) has been found to display quick responses through visible colorimetric changes as well as fluorogenic properties on selective 1:1 binding to Hg 2+ , as delineated by absorption and fluorescence titrations as well as by JobЈs method and ESI-MS + studies. The fluorescent probe L 3 displays a 252-fold fluorescence enhancement on binding to Hg 2+ . A Benesi-Hilderband fit of the absorption titration data gives K d = (32.01 Ϯ 0.74) μM and a 1:1 binding stoichiometry. Owing to

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A highly selective and sensitive in vivo fluorosensor for zinc(ii) without cytotoxicity

Cited by 77 publications

References 44 publications

Selective Recognition of Zn²⁺ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

Selective Recognition of Zn²⁺ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

The Application of Silver Nanoclusters to Sensing, Cell Imaging and Construction of Molecular Logic Gates

Rhodamine‐Based Chromo‐/Fluorogenic Dual Signalling Probe for Selective Recognition of Hg^II with Potential Applications for INHIBIT Logic Devices and Cell‐Imaging Studies

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A highly selective and sensitive in vivo fluorosensor for zinc(ii) without cytotoxicity

Cited by 77 publications

References 44 publications

Selective Recognition of Zn2+ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

Selective Recognition of Zn2+ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

The Application of Silver Nanoclusters to Sensing, Cell Imaging and Construction of Molecular Logic Gates

Rhodamine‐Based Chromo‐/Fluorogenic Dual Signalling Probe for Selective Recognition of HgII with Potential Applications for INHIBIT Logic Devices and Cell‐Imaging Studies

Contact Info

Product

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Selective Recognition of Zn²⁺ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

Selective Recognition of Zn²⁺ Ion Using 2,4‐Bis(2‐pyridyl)‐5‐(4‐pyridyl)imidazole: Spectra and Molecular Structure

Rhodamine‐Based Chromo‐/Fluorogenic Dual Signalling Probe for Selective Recognition of Hg^II with Potential Applications for INHIBIT Logic Devices and Cell‐Imaging Studies