Home  About us  Contact
 

Fluorescence Emission Intensity (fluorescence + emission_intensity)

Distribution by Scientific Domains
Chemistry75%

Selected Abstracts

In Vivo Optical Analysis of Quantitative Changes in Collagen and Elastin During Arterial Remodeling,

PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 2 2005
Alexander Christov
ABSTRACT Altered collagen and elastin content correlates closely with remodeling of the arterial wall after injury. Optical analytical approaches have been shown to detect qualitative changes in plaque composition, but the capacity for detection of quantitative changes in arterial collagen and elastin content in vivo is not known. We have assessed fluorescence spectroscopy for detection of quantitative changes in arterial composition in situ, in rabbit models of angioplasty and stent implant. Fluorescence emission intensity (FEI) recorded at sites remote from the primary implant site was correlated with immunohistochemical (IH) analysis and extracted elastin and collagen. FEI was significantly decreased (P < 0.05) after treatment with anti-inflammatory agents, and plaque area decreased on comparison with saline-treated rabbits after stent implant or angioplasty (P, 0.013). Excellent correlations for FEI with elastin and collagen I, III and IV content measured by IH (R2, 0.961) analysis were detected by multiple regression (MR) analysis. Good correlations also were found for FEI with elastin and collagen measured by high-performance liquid chromatography; MR analysis provided highly predictive values for collagen and elastin (R2, 0.994). Fluorescence spectroscopic analysis detects quantitative compositional changes in arterial connective tissue in vivo, demonstrating changes at sites remote from primary angioplasty and stent implant sites. [source]

Fluorescence spectroscopy of H-ras transfected murine fibroblasts: A comparison with Monte Carlo simulations

BIOPOLYMERS, Issue 2 2010
Shlomo Mark
Abstract Autofluorescence properties of tissues have been widely used to diagnose various types of malignancies. In this study, we measured the autofluorescence properties of H-ras transfected murine fibroblasts and the counterpart control cells. The pair of cells is genetically identical except for the transfected H-ras gene. We applied Monte Carlo simulations to evaluate the relative contributions of Rayleigh and Mie scattering effects towards fluorescence in an in vitro model system of normal and H-ras transfected fibroblasts. The experimental results showed that fluorescence emission intensity was higher for normal cells than the malignant counterpart cells by about 30%. In normal cells, linearity in emission intensity was observed for cell densities of up to 1.0 × 106 cells/ml whereas for transformed cells it was up to 1.4 × 106 cells/ml. Nuclear volume changes give good account for the differences in the intrinsic fluorescence between normal and malignant cells. The Monte Carlo (MC) code, newly developed for this study, explains both predominant experimental features: the large fluorescence intensity differences between the transfected and the corresponding control cells as well as the phenomena of the red shift in the excitation spectra as a function of cell density. The contribution of Rayleigh scattering was found to be predominant compared to Mie scattering. © 2009 Wiley Periodicals, Inc. Biopolymers 93: 132,140, 2010. This article was originally published online as an accepted preprint. The "Published Online" date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com [source]

Binding of quercetin with human serum albumin: A critical spectroscopic study

BIOPOLYMERS, Issue 6 2003
Bidisa Sengupta
Abstract Flavonols are plant pigments that are ubiquitous in nature. Quercetin (3,3,,4,,5,7-pentahydroxyflavone) and other related plant flavonols have come into recent prominence because of their usefulness as anticancer, antitumor, anti-AIDS, and other important therapeutic activities of significant potency and low systemic toxicity. Quercetin is intrinsically weakly fluorescent in aqueous solution, showing an emission maximum at ,538 nm. Upon binding to human serum albumin (HSA), quercetin undergoes dramatic enhancement in its fluorescence emission intensity, along with the appearance of dual emission behavior, consisting of normal and excited-state proton transfer (ESPT) fluorescence. In addition, the occurrence of a third emitting species has been noted for the first time. This is attributed to a electronic ground-state complex formed in the protein environment. High values of the fluorescence anisotropy (r) are obtained in the presence of HSA for the ESPT tautomer (r = 0.18), as well as the complex species (r = 0.37) of quercetin, indicating that the precursor ground-state molecules for both these emitting species of quercetin molecules are located in the motionally constrained sites of HSA. The steady-state emission data suggest that quercetin binds to two distinct sites in HSA from which the emissions from the normal tautomer and complex species take place. The preliminary results of studies on emission decay kinetics are also reported herein. Studies by far-UV circular dichroism spectroscopy reveal that binding of quercetin induces no significant perturbation in the secondary structure of HSA. © 2003 Wiley Periodicals, Inc. Biopolymers (Biospectroscopy), 2003 [source]

Novel Molecular Building Blocks Based on the Boradiazaindacene Chromophore: Applications in Fluorescent Metallosupramolecular Coordination Polymers

CHEMISTRY - A EUROPEAN JOURNAL, Issue 15 2009
Ö. Altan Bozdemir Dr.
Abstract Bright polymers: Fluorescent coordination polymers made up of versatile functionalized bodipy (boron-dipyrrin) chromophore building blocks, such as that depicted, are described. Polymerization is signaled by changes in fluorescence emission intensity and shifts in peak emission wavelengths. We designed and synthesized novel boradiazaindacene (Bodipy) derivatives that are appropriately functionalized for metal-ion-mediated supramolecular polymerization. Thus, ligands for 2-terpyridyl-, 2,6-terpyridyl-, and bipyridyl-functionalized Bodipy dyes were synthesized through Sonogashira couplings. These fluorescent building blocks are responsive to metal ions in a stoichiometry-dependent manner. Octahedral coordinating metal ions such as ZnII result in polymerization at a stoichiometry corresponding to two terpyridyl ligands to one ZnII ion. However, at increased metal ion concentrations, the dynamic equilibria are re-established in such a way that the monomeric metal complex dominates. The position of equilibria can easily be monitored by 1H,NMR and fluorescence spectroscopies. As expected, although open-shell FeII ions form similar complex structures, these cations quench the fluorescence emission of all four functionalized Bodipy ligands. Bu çal,,mada, metal iyonlar, arac,l,,,yla supramoleküler polimerizasyon için uygun ,ekilde fonksiyonland,r,lm,, yeni boradiazaindasen (Bodipy) türevleri tasarlanm,, ve sentezlenmi,tir. Bu amaçla, ligand olarak Sonogashira reaksiyonu ile 2- ve 2,6-terpiridil ve bipiridil gruplar,n, içeren Bodipy boyarmaddeleri sentezlenmi,tir. Bu floresan yap, bloklar, stokiyometriye ba,l, bir biçimde metal iyonlar,na duyarl,l,k gösterirler. ZnIIgibi oktahedral koordinasyon e,ilimi olan metal iyonlar,, iki terpiridil ligand,na bir ZnIIiyonu tekabül edecek bir stokiyometride polimerizasyona yol açmaktad,rlar. Bununla beraber, yüksek metal iyonu deri,imlerinde monomerik metal kompleksinin bask,n olaca,, bir biçimde, dinamik dengeler yeniden kurulmaktad,r. Bu dengelerin pozisyonu1H,NMR ve fluoresans spektroskopileriyle kolayl,kla izlenebilmektedir. Beklenildi,i gibi, benzer kompleks yap,lar olu,turmas,na ra,men FeIIiyonu, sentezlenen tüm fonksiyonalize Bodipy ligandlar,n,n emisyonlar,n, sönümlendirmektedir. [source]