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1 solubility structure, review

Fluorine is an essential element involved in several enzymatic reactions in various organs, it is present as a trace element in bone mineral, dentine and tooth enamel and is considered as one of the most efficient elements for the prophylaxis and treatment of dental caries. In addition to their direct effect on cell biology, fluoride ions can also modify the physico-chemical properties of materials (solubility, structure and microstructure, surface properties), resulting in indirect biological effects. The biological and physico-chemical roles of fluoride ions are the main reasons for their incorporation in biomaterials, with a pre-eminence for the biological role and often both in conjunction. This chapter focuses on fluoridated bioceramics and related materials, including cements. The specific role of fluorinated polymers and molecules will not be reviewed here. [Pg.281]

Crystal ins. Major water-soluble structural proteins found in fiber cells of vertebrate eye lenses account for the transparency of the lens. Heterogeneous family composed of (our groups a, 0. y, S which have been separated on the basis of size, charge, immunological properties and source. isolation procedures A. Spector. Invest. [Pg.409]

Branched structin-es, especially for a linked polysaccharides, enhance solubility Heterogeneity in types of repeating imits, backbone linkages, and polar or charged fimctionabty also imparts greater solubility. Excellent reviews of the effects of the structural conformation of monosaccharides are foimd in References 71 and 72. [Pg.9177]

To prevent insolubility resulting from uncontrolled aggregation of extended strands, two adjacent parallel or antiparallel yS-peptide strands can be connected with an appropriate turn segment to form a hairpin. The / -hairpin motif is a functionally important secondary structural element in proteins which has also been used extensively to form stable and soluble a-peptide y9-sheet arrangements in model systems (for reviews, see [1, 4, 5] and references therein). The need for stable turns that can bring the peptide strands into a defined orientation is thus a prerequisite for hairpin formation. For example, type F or II" turns formed by D-Pro-Gly and Asn-Gly dipeptide sequences have been found to promote tight a-pep-tide hairpin folding in aqueous solution. Similarly, various connectors have been... [Pg.77]

This review account will summarize latest research results on the design, development and properties of functionalized primary phosphines. In particular, the focus would be centered around recent results from our laboratory on the chemical architecture of heteroatom functionahzed primary bisphosphines. We wiU also discuss synthetic protocols for the formylation reactions of functionalized primary phosphines to produce structurally diverse water-soluble hydroxymethyl phosphines. Finally, we will discuss the utility of carboxylate functionahzed primary bisphosphines for incorporation on to peptides and their potential apphcations in catalysis and biomedicine. [Pg.123]

Absorption across biological membranes is often necessary for a chemical to manifest toxicity. In many cases several membranes need to be crossed and the structure of both the chemical and the membrane need to be evaluated in the process. The major routes of absorption are ingestion, inhalation, dermal and, in the case of exposures in aquatic systems, gills. Factors that influence absorption have been reviewed recently. Methods to assess absorption include in vivo, in vitro, various cellular cultures as well as modelling approaches. Solubility and permeability are barriers to absorption and guidelines have been developed to estimate the likelihood of candidate molecules being absorbed after oral administration. ... [Pg.33]

A large variety of phytochemicals are found within agricultural commodities. This chapter focuses on four main groups phenolics, carotenoids, sterols, and alkaloids. In addition, recent research related to the health benefits of these phytochemicals will be briefly reviewed. Table 9.1 summarizes the main chemical structure and solubility in organic solvents of phytochemicals such as phenolics (flavonoids), carotenoids, sterols, and alkaloids. [Pg.237]


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See also in sourсe #XX -- [ Pg.4 , Pg.62 ]




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Solubility structures

Soluble structure

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