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Three-dimensional template

N. R. Organically templated three-dimensional open-framework metal selenites with a diamondoid network. J. Mater, Chem. 2003. 13, 1635-1638. (d) Behera, J. N. Ayi, A. A.. Rao. C. N. R. The First Organically Templated Open-Framework Metal Selenate with a Three-Dimensional Architecture. Chem. Commun. 2004, 456-457. [Pg.366]

A sequence alignment establishes the correspondences between the amino adds in th unknown protein and the template protein (or proteins) from wliich it will be built. Th three-dimensional structures of two or more related proteins are conveniently divided int structurally conserved regions (SCRs) and structurally variable regions (SVRs). Ihe structural conserved regions correspond to those stretches of maximum sequence identity or sequenc... [Pg.555]

Backbone generation is the first step in building a three-dimensional model of the protein. First, it is necessary to find structurally conserved regions (SCR) in the backbone. Next, place them in space with an orientation and conformation best matching those of the template. Single amino acid exchanges are assumed not to affect the tertiary structure. This often results in having sections of the model compound that are unconnected. [Pg.188]

Crystal structures of the NS5B polymerase alone and in complexes with nucleotide substrates have been solved and applied to discovery programs (Ago et al. 1999 Bressanelli et al. 2002 Bressanelli et al. 1999 Lesburg et al. 1999 O Farrell et al. 2003). From these studies, HCV polymerase reveals a three-dimensional structure that resembles aright hand with characteristic fingers, palm, and thumb domain, similar to the architectures of the RNA polymerases of other viruses. However, none of these experimental structures contained the ternary initiation complex with nu-cleotide/primer/template, as obtained with HIV RT. Accordingly, HCV initiation models have been built using data from other viral systems in efforts to explain SAR (Kozlov et al. 2006 Yan et al. 2007). [Pg.32]

Zeolites are prepared by the linking of basic structural units around a template molecule. The structural units are typically based on oxides of silicon and aluminium, and the templates are usually individual small molecules. Under the right conditions, the silicon and aluminium oxide precursors will link up around the template to form a crystalline three-dimensional matrix containing the template molecules. The template... [Pg.60]

According to Ref. [12], template for synthesis of nanomaterials is defined as a central structure within which a network forms in such a way that removal of this template creates a filled cavity with morphological or stereochemical features related to those of the template. The template synthesis was applied for preparation of various nanostructures inside different three-dimensional nanoporous structures. Chemically, these materials are presented by polymers, metals, oxides, carbides and other substances. Synthetic methods include electrochemical deposition, electroless deposition, chemical polymerization, sol-gel deposition and chemical vapor deposition. These works were reviewed in Refs. [12,20]. An essential feature of this... [Pg.324]

A second product is the ICE Solid-State Model Kit, developed by L. A. Mayer and G. C. Lisensky, which makes it possible to build extended three-dimensional structures Using a base with holes, templates for some 60 different structures, rods, and four sizes of spheres in radius ratios, common crystal structures can be assembled in a matter of minutes (3). Furthermore, many structures can be assembled from different perspectives by teams of students For example, the cubic NaCl unit cell can be assembled with its orientation on the face of the cube or on the body diagonal. Natural cleavage planes can be found with the kit Lifting one sphere will separate atomic planes from one another. (Contact ICE for ordering information.)... [Pg.83]

We have been interested in studying the structure of the D6 chemokine receptor (7). This receptor has not, so far, been implicated in pathologies as prominent as those involving CCR5 and CXCR4. Nevertheless, it is structurally very similar to the other chemokine receptors and thus a three-dimensional structure of D6 would be an invaluable template that would facilitate the determination of the structure of other chemokine receptors. A major advantage of D6 over the other chemokine receptors is that it can be expressed to extremely... [Pg.47]

Sadakane, M., Asanuma, T., Kubo, J. et al. (2005) Facile procedure to prepare three-dimensionally ordered macroporous (3DOM) perovskite-type mixed metal oxides by colloidal crystal templating method, Chem. Mater. 17, 3546. [Pg.323]

The presence of triethylenetetramine in the hydrothermal synthesis of open-framework zinc phosphates results in a number of frameworks with one- to three-dimensional structures. The structures include one-dimensional ladders, two-dimensional layer structures, and one structure where the tetramine is bound to the zinc center. The structural type was highly sensitive to the relative concentration of the amine and phosphoric acid.411 Piperazine and 2-methylpiperazine can be used as templating molecules in solvothermal syntheses of zinc phosphates. The crystallization processes of the zinc compounds were investigated by real time in situ measurements of synchrotron X-ray powder diffraction patterns.412... [Pg.1180]

The benefit of the LbL technique is that the properties of the assemblies, such as thickness, composition, and function, can be tuned by varying the layer number, the species deposited, and the assembly conditions. Further, this technique can be readily transferred from planar substrates (e.g., silicon and quartz slides) [53,54] to three-dimensional substrates with various morphologies and structures, such as colloids [55] and biological cells [56]. Application of the LbL technique to colloids provides a simple and effective method to prepare core-shell particles, and hollow capsules, after removal of the sacrificial core template particles. The properties of the capsules prepared by the LbL procedure, such as diameter, shell thickness and permeability, can be readily adjusted through selection of the core size, the layer number, and the nature of the species deposited [57]. Such capsules are ideal candidates for applications in the areas of drug delivery, sensing, and catalysis [48-51,57]. [Pg.213]

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