Fluorescence spectrometry

About: Fluorescence spectrometry is a research topic. Over the lifetime, 16244 publications have been published within this topic receiving 565365 citations.

A study of the interactions of some polypyridylruthenium (II) complexes with DNA using fluorescence spectroscopy, topoisomerisation and thermal denaturation.

Abstract: The nature of binding of Ru(phen) 2+ (I), Ru(bipy) 2+ (II), Ru(terpy) 2+ (III) (phen = 1,10-phenanthroline, bipy 3 = 2,2'-bipyridyl, 3 terpy = 2,2'2," - 2 terpyridyl) to DNA, poly[d(G-C)] and poly[d(A-T)] has been compared by absorption, fluorescence, DNA melting and DNA unwinding techniques. I binds intercalatively to DNA in low ionic strength solutions. Topoisomerisation shows that it unwinds DNA by 22 degrees +/- 1 per residue and that it thermally stabilizes poly[d(A-T)] in a manner closely resembling ethidium. Poly[d(A-T)] induces greater spectral changes on I than poly[d(G-C)] and a preference for A-T rich regions is indicated. I binding is very sensitive to Mg2+ concentration. In contrast to I the binding of II and III appears to be mainly electrostatic in nature, and causes no unwinding. There is no evidence for the binding of the neutral Ru(phen)2 (CN)2 or Ru(bipy)2 (CN)2 complexes. DNA is cleaved, upon visible irradiation of aerated solutions, in the presence of either I or II.

Total internal reflection fluorescence

Abstract: Total internal reflection fluorescence (TIRF) is an optical effect particularly well-suited to the study of molecular and cellular phenomena at liquid/solid interfaces. Such interfaces are central to a wide range of biochemical and biophysical processes: binding to and triggering of ceils by hormones, neurotransmitters, and antigens; blood coagulation at foreign surfaces; electron transport in the mitochondrial membrane; adherence and mo­bility of bacteria, algae, and cultured animal cells to surfaces; and possible enhancement of reaction rates with cell surface receptors upon nonspecific adsorption and surface diffusion of an agonist. Liquid/solid interfaces also have important medical and industrial applications: e.g. detection of serum antibodies by surface immobilized antigens; and the manufacture of biochemical products by surface-immobilized enzymes. Total internal reflection spectroscopy for optical absorption studies (called attenuated total reflection or ATR) was developed somewhat earlier than the fluorescence applications and has been widely used in surface

Triphenylamine-Thienylenevinylene Hybrid Systems with Internal Charge Transfer as Donor Materials for Heterojunction Solar Cells

Abstract: Star-shaped molecules based on a triphenylamine core derivatized with various combinations of thienylenevinylene conjugated branches and electron-withdrawing indanedione or dicyanovinyl groups have been synthesized. UV−vis absorption and fluorescence emission data show that the introduction of the electron-acceptor groups induces an intramolecular charge transfer that results in a shift of the absorption onset toward longer wavelengths and a quenching of photoluminescence. Cyclic voltammetry shows that all compounds present a reversible first oxidation process whose potential increases with the number of electron-withdrawing groups in the structure. Prototype bulk and bilayer heterojunction solar cells have been realized using fullerene C60 derivatives as acceptor material. The results obtained with both kinds of devices show that the introduction of electron-acceptor groups in the donor structure induces an extension of the photoresponse in the visible spectral region, an increase of the maximum external...

Calcium gradients and buffers in bovine chromaffin cells

Abstract: 1. Digital imaging and photometry were used in conjunction with the fluorescent Ca2+ indicator, Fura-2, to examine intracellular Ca2+ signals produced by depolarization of single adrenal chromaffin cells. 2. Depolarization with a patch pipette produced radial gradients of Ca2+ within the cell, with Ca2+ concentration highest in the vicinity of the plasma membrane. These gradients dissipated within a few hundred milliseconds when the voltage-gated Ca2+ channels were closed. 3. Dialysis of Fura-2 into the chromaffin cell caused concentration-dependent changes in the depolarization-induced Ca2+ signal, decreasing its magnitude and slowing its recovery time course. These changes were used to estimate the properties of the endogenous cytoplasmic Ca2+ buffer with which Fura-2 competes for Ca2+. 4. The spatially averaged Fura-2 signal was well described by a model assuming fast competition between Fura-2 and an endogenous buffer on a millisecond time scale. Retrieval of calcium by pumps and slow buffers occurs on a seconds-long time scale. No temporal changes indicative of buffers with intermediate kinetics could be detected. 5. Two independent estimates of the capacity of the fast endogenous Ca2+ buffer suggest that 98-99% of the Ca2+ entering the cell normally is taken up by this buffer. This buffer appears to be immobile, because it does not wash out of the cell during dialysis. It has a low affinity for Ca2+ ions, because it does not saturate with 1 microM-Ca2+ inside the cell. 6. The low capacity, affinity and mobility of the endogenous Ca2+ buffer makes it possible for relatively small amounts of exogenous Ca2+ buffers, such as Fura-2, to exert a significant influence on the characteristics of the Ca2+ concentration signal as measured by fluorescence ratios. On the other hand, even at moderate Fura-2 concentrations (0.4 mM) Fura-2 will dominate over the endogenous buffers. Under these conditions radiometric Ca2+ concentration signals are largely attenuated, but absolute fluorescence changes (at 390 nm) accurately reflect calcium fluxes.