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Biomolecules application

Staining Applications Biomolecules brain spinal cord chromosomes DNA embryos fungi lymph vessels mitochondria neurons nucleic acids sperms tissue culture monolayers yeast cell hairs "... [Pg.249]

Experimental techniques based on the application of mechanical forces to single molecules in small assemblies have been applied to study the binding properties of biomolecules and their response to external mechanical manipulations. Among such techniques are atomic force microscopy (AFM), optical tweezers, biomembrane force probe, and surface force apparatus experiments (Binning et al., 1986 Block and Svoboda, 1994 Evans et ah, 1995 Israelachvili, 1992). These techniques have inspired us and others (see also the chapters by Eichinger et al. and by Hermans et al. in this volume) to adopt a similar approach for the study of biomolecules by means of computer simulations. [Pg.40]

The IE scheme is nonconservative, with the damping both frequency and timestep dependent [42, 43]. However, IE is unconditionally stable or A-stable, i.e., the stability domain of the model problem y t) = qy t), where q is a complex number (exact solution y t) = exp(gt)), is the set of all qAt satisfying Re (qAt) < 0, or the left-half of the complex plane. The discussion of IE here is only for future reference, since the application of the scheme is faulty for biomolecules. [Pg.238]

APPLICATION OF SURFACE-ASSISTED LASER DESORPTION IONIZATION TO THE DETECTION OF BIOMOLECULES... [Pg.140]

Good reviews of the application of dynamic simulation methods to biomolecules can be found in the books by Brooks et al. [1] and McCammon and Harvey [2]. Good short reviews on this topic can also be found in Refs. 3-5. More detailed discussions of dynamic simulation methodologies can be found in books by Allen and Tildesley [6], Frenkel and Smit [7], and Rapaport [8] and in the review by van Gunsteren [9]. [Pg.39]

As stated above, MC simulations are popular in many diverse fields. Their popularity is due mainly to their ease of use and their good convergence properties. Nonetheless, straightforward and application of MC methods to biomolecules is often problematic due... [Pg.72]

The label-free detection of biomolecules is another promising field of application for SERS spectroscopy. Tiniest amounts of these molecules can be adsorbed by specific interactions with receptors immobilized on SERS-active surfaces. They can then be identified by their spectra, or specific interactions can be distinguished from unspecific interactions by monitoring characteristic changes in the conformation sensitive SERS spectra of the receptors. [Pg.263]

Microporous and microfibrous surfaces on metals are increasingly used in biomedical applications. A recent review by Wen et al. [60] identified advantages over metals with smooth surfaces which included early better adhesion of biomolecules and cells and firmer fixation of bone or connective tissue. [Pg.335]

One of the most important and exciting advances in modern biochemistry has been the application of spectroscopic methods, which measure the absorption and emission of energy of different frequencies by molecules and atoms. Spectroscopic studies of proteins, nucleic acids, and other biomolecules are providing many new insights into the structure and dynamic processes in these molecules. [Pg.99]

Their great strength and conductivity have led to the use of nanotubes in submicroscopic electronic components such as transistors. The rigidity of nanotubes may also allow them to be used as minute molds for other elements. For example, they can be filled with molten lead to create lead wires one atom in diameter and can serve as tiny test tubes that hold individual molecules in place. Nanotubes that are filled with biomolecules such as cytochrome c hold the promise of acting as nanosensors for medical applications. [Pg.728]

Basic technology for membrane separation of biomolecules was invented in the United States, but the West Germans and the Japanese lead in its application to separations of enzymes and amino acids from complex mixtures. Japanese... [Pg.38]

Bacci M (1984) The Role of Vibronic Coupling in the Interpretation of Spectroscopic and Structural Properties of Biomolecules. 55 67-99 Baekelandt BG, Mortier WJ, Schoonheydt RA (1993) The EEM Approach to Chemical Hardness in Molecules and Solids Fundamentals and Applications. 80 187-228 Baker EC, Halstead GW, Raymond KN (1976) The Structure and Bonding of 4/and 5/Series Organometallic Compounds. 25 21-66 Baibas LC, see Alonso JA (1987) 66 41-78 Baibas LC, see Alonso JA (1993) 80 229-258... [Pg.241]

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Biomolecule

Biomolecules

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