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Energy transfer principles

More recently double stranded DNA-binding dyes, (e.g., SYBR Green), have been introduced (Giulietti et al. 2001) which removed the need for an expensive, specific probe to be designed. Other sophisticated tools have been developed to work in conjunction with the Taqman method, for example molecular beacons, scorpions and hybridisation probes. These techniques rely on the FRET (Fluorescence Resonance Energy Transfer) principle but do not require the nuclease activity of the Taq polymerase. The different real-time... [Pg.856]

Ubitron A millimeter wave high-power quasiquantum generator with relativistically high-speed electron beam. Millimeter waves are generated due to quantum transition between two energy states of electrons and amplified due to the velocity modulation and kinetic energy transfer principles. [Pg.520]

The basic principle is simple. A solid particle is struck and the energy transferred causes the particle to fragment creating a size distribution of smaller particles (Figure 5.9). [Pg.137]

Thermodynamic It is the scientific principle that deals with the inter-conversion of heat and other forms of energy. Thermodynamics (thermo = heat and dynamic = changes) is the study of these energy transfers. The law of conservation of energy is called the first law of thermodynamics. [Pg.643]

Any factor that affects the size or shape of a molecule, the hindered movement of a fluorophore within a molecule, or the energy transfer within the molecule will affect the measured depolarization of its fluorescence emission. Therefore, the conformation of humic fractions in solution can be studied as a function of pH, ionic strength, temperature, and other factors by depolarization measurements. The principle of the method is that excitation of fluorescent samples with polarized light stimulates... [Pg.181]

More recently, the method of scanning near-field optical microscopy (SNOM) has been applied to LB films of phospholipids and has revealed submicron-domain structures [55-59]. The method involves scanning a fiber-optic tip over a surface in much the same way an AFM tip is scanned over a surface. In principle, other optical experiments could be combined with the SNOM, snch as resonance energy transfer, time-resolved flnorescence, and surface plasmon resonance. It is likely that spectroscopic investigation of snbmicron domains in LB films nsing these principles will be pnrsned extensively. [Pg.67]

The process of spin-lattice relaxation involves the transfer of magnetization between the magnetic nuclei (spins) and their environment (the lattice). The rate at which this transfer of energy occurs is the spin-lattice relaxation-rate (/ , in s ). The inverse of this quantity is the spin-lattice relaxation-time (Ti, in s), which is the experimentally determinable parameter. In principle, this energy interchange can be mediated by several different mechanisms, including dipole-dipole interactions, chemical-shift anisotropy, and spin-rotation interactions. For protons, as will be seen later, the dominant relaxation-mechanism for energy transfer is usually the intramolecular dipole-dipole interaction. [Pg.128]

In this section, we develop the basic principles of thermodynamics, which is the quantitative study of energy transfers and transformations. Simply put, thermodyuamics is the study of how much energy goes where. ... [Pg.360]

Forster, Th 211, 278, 282, 285 Forster resonance energy transfer, 282 Forster singlet energy transfer, 378 Franck-Condon factors, 23 Franck-Condon principle, 5 Franck-Condon transition, 5 French, C. S., 555 Friedman, G., 353 Fritzsche, J., 37 Frosch, R. P 252, 267, 269 Fumaronitrile, photodimerization in solid state, 478... [Pg.297]

If the charge distributions of the D and A overlap than a new class of interactions has to be considered, namely the exchange interaction between the electrons on D and on A. This type of energy transfer is called Dexter transfer [80, 96,98], Here we briefly outline the physical principles involved. [Pg.61]

In previous chapters it was shown that FRET can be reliably detected by donor fluorescence lifetime imaging. Here, we will focus on what is perhaps the most intuitive and straightforward way to record FRET imaging of sensitized emission (s.e., that is, the amount of acceptor emission that results from energy transferred by the donor through resonance) by filterFRET. While simple in principle, determinations of s.e. are complicated by overlap of excitation and emission spectra of the donors and acceptors, and by several imperfections of the recording optics, light sources and detectors. [Pg.301]

Szollosi, J., Damjanovich, S., Nagy, P., Vereb, G. and Matyus, L. (2006). Principles of resonance energy transfer. Curr. Prot. Cell Biol. 1.12.11-11.12.16. [Pg.518]

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See also in sourсe #XX -- [ Pg.17 ]



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Fluorescence resonance energy transfer (FRET principles

Forster energy transfer Principles

Resonance energy transfer principles

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