Debabrata Sen scite author profile

Hydrogen sulfide (H2S) is a multifunctional signaling molecule that exerts neuroprotective effects in oxidative stress. In this article, we report a mitochondria-localized two-photon probe, SHS-M2, that can be excited by 750 nm femtosecond pulses and employed for ratiometric detection of H2S in live astrocytes and living brain slices using two-photon microscopy (TPM). SHS-M2 shows bright two-photon-excited fluorescence and a marked change in emission color from blue to yellow in response to H2S, low cytotoxicity, easy loading, and minimum interference from other biologically relevant species including reactive sulfur, oxygen, and nitrogen species, thereby allowing quantitative analysis of H2S levels. Molecular TPM imaging with SHS-M2 in astrocytes revealed that there is a correlation between the ratiometric analysis and expression levels of cystathionine β-synthase (CBS), the major enzyme that catalyzes H2S production. In studies involving DJ-1, a Parkinson's disease (PD) gene, attenuated H2S production in comparison with wild-type controls was observed in DJ-1-knockout astrocytes and brain slices, where CBS expression was decreased. These findings demonstrate that reduced H2S levels in astrocytes may contribute to the development of PD and that SHS-M2 may be useful as a marker to detect a risk of neurodegenerative diseases, including PD.

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Static Local Field Factor for Dielectric Screening Function of Electron Gas at Metallic and Lower Densities

Sarkar

et al. 1998

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A simple parametric form for the static local field factor G(q) which appears in the dielectric screening theory of an electron gas is proposed. A very accurate fit of Ceperley-Alder data of electron correlation energy in the entire density range using Levin-Weniger interpolant is obtained and used for the calculation of G(q). Both the short-and longwavelength limits of G(q) are satisfied exactly in the present formulation which ensures fulfilment of a number of other legitimate criteria and produces some interesting results. A comparative study of the various static local field factors derived so far vis-a-vis the present work is made. Even within the approximations of a static self-consistent theory, reasonable prediction regarding Wigner Crystallization is obtained in the present work.PACS Number(s): 71.00, 71.45G * B. K. Girls' College,

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A New Highly Selective, Ratiometric and Colorimetric Fluorescence Sensor for Cu²⁺ with a Remarkable Red Shift in Absorption and Emission Spectra Based on Internal Charge Transfer

2010

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A new 1,8-diaminonaphthalene based ratiometric and highly selective colorimetric "off-on" type of fluorescent probe, receptor 2 has been designed and synthesized that senses only Cu(2+) among the other heavy and transition metal ions examined on the basis of internal charge transfer (ICT). The visual sensitivity of the receptor 2 is remarkable, showing dual color changes from colorless (receptor) to purple followed by blue and a large red shift in emission upon Cu(2+) complexation.

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Ratiometric Two-Photon Fluorescent Probe for Quantitative Detection of β-Galactosidase Activity in Senescent Cells

et al. 2014

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We reported a ratiometric two-photon fluorescent probe (SG1) for β-galactosidase (β-gal) and its application to quantitative detection of β-gal activity during cellular senescence in live cells and in aged tissues. This probe is characterized by a significant two-photon excited fluorescence, a marked blue-to-yellow emission color change in response to β-gal, easy loading, insensitivity to pH and reactive oxygen species (ROS), high photostability, and low cytotoxicity. In addition, we show that SG1 labeling is an effective tool for quantitative detection of senescence-associated β-gal activity at the subcellular level in situ. This finding demonstrates that SG1 will find useful applications in biomedical research, including studies of cell aging.

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Amino-functionalized graphene quantum dots: origin of tunable heterogeneous photoluminescence

et al. 2014

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Graphene quantum dots are known to exhibit tunable photoluminescence (PL) through manipulation of edge functionality under various synthesis conditions. Here, we report observation of excitation dependent anomalous m-n type fingerprint PL transition in synthesized amino functionalized graphene quantum dots (5-7 nm). The effect of band-to-band π*-π and interstate to band n-π induced transitions led to effective multicolor emission under changeable excitation wavelength in the functionalized system. A reasonable assertion that equi-coupling of π*-π and n-π transitions activated the heterogeneous dual mode cyan emission was made upon observation of the PL spectra. Furthermore, investigation of incremented dimensional scaling through facile synthesis of amino functionalized quantum graphene flakes (20-30 nm) revealed it had negligible effect on the modulated PL pattern. Moreover, an effort was made to trace the origin of excitation dependent tunable heterogeneous photoluminescence through the framework of energy band diagram hypothesis and first principles analysis. Ab initio results suggested formation of an interband state as a manifestation of p orbital hybridization between C-N atoms at the edge sites. Therefore comprehensive theoretical and experimental analysis revealed that newly created energy levels can exist as an interband within the energy gap in functionalized graphene quantum structures yielding excitation dependent tunable PL for optoelectronic applications.

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Calculation of transverse hydrodynamic coefficients using computational fluid dynamic approach

Tyagi

Sen

2006

Ocean Engineering

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Small Pd cluster adsorbed double vacancy defect graphene sheet for hydrogen storage: A first-principles study

Sen

Thapa

Chattopadhyay

2013

International Journal of Hydrogen Energy

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Debabrata Sen

Thermodynamic and kinetic data for cation-macrocycle interaction

A Ratiometric Two-Photon Fluorescent Probe Reveals Reduction in Mitochondrial H₂S Production in Parkinson’s Disease Gene Knockout Astrocytes

Static Local Field Factor for Dielectric Screening Function of Electron Gas at Metallic and Lower Densities

A New Highly Selective, Ratiometric and Colorimetric Fluorescence Sensor for Cu²⁺ with a Remarkable Red Shift in Absorption and Emission Spectra Based on Internal Charge Transfer

Ratiometric Two-Photon Fluorescent Probe for Quantitative Detection of β-Galactosidase Activity in Senescent Cells

Amino-functionalized graphene quantum dots: origin of tunable heterogeneous photoluminescence

Calculation of transverse hydrodynamic coefficients using computational fluid dynamic approach

Small Pd cluster adsorbed double vacancy defect graphene sheet for hydrogen storage: A first-principles study

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Debabrata Sen

Thermodynamic and kinetic data for cation-macrocycle interaction

A Ratiometric Two-Photon Fluorescent Probe Reveals Reduction in Mitochondrial H2S Production in Parkinson’s Disease Gene Knockout Astrocytes

Static Local Field Factor for Dielectric Screening Function of Electron Gas at Metallic and Lower Densities

A New Highly Selective, Ratiometric and Colorimetric Fluorescence Sensor for Cu2+ with a Remarkable Red Shift in Absorption and Emission Spectra Based on Internal Charge Transfer

Ratiometric Two-Photon Fluorescent Probe for Quantitative Detection of β-Galactosidase Activity in Senescent Cells

Amino-functionalized graphene quantum dots: origin of tunable heterogeneous photoluminescence

Calculation of transverse hydrodynamic coefficients using computational fluid dynamic approach

Small Pd cluster adsorbed double vacancy defect graphene sheet for hydrogen storage: A first-principles study

Contact Info

Product

Resources

About

A Ratiometric Two-Photon Fluorescent Probe Reveals Reduction in Mitochondrial H₂S Production in Parkinson’s Disease Gene Knockout Astrocytes

A New Highly Selective, Ratiometric and Colorimetric Fluorescence Sensor for Cu²⁺ with a Remarkable Red Shift in Absorption and Emission Spectra Based on Internal Charge Transfer