Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Natural Products protein

There seems to be no limit to the types of pharmaceutical systems that can be isolated in the amorphous state. In the literature, samples of sugars, acids, bases, polymers, buffers, inorganics, salts, natural products, proteins, and low-molecular-weight APIs have all been reported to exist in an amorphous form. Likewise, pharmaceutical raw materials, intermediates, and final products that include these amorphous materials are widespread and varied (Table 1). [Pg.84]

The application area of LC-MS is rapidly growing. LC-MS is now regularly used for the analysis of many different types of compound drugs and metabolites, herbicides-pesticides and metabolites, surfactants, dyes, saccharides, lipids-phospholipids, steroids, and many others. In our opinion, the area that profits more from the development of LC-MS is bioanalysis natural products, proteins, peptides, nucleosides, and metabolic studies. Despite the current trends toward immunoassays-biospecific assays and capillary electrophoresis, LC-MS is an extremely powerful analytical technique that is considered complementary to the above mentioned, rather than competitive. [Pg.958]

Natural adhesives Adhesives, mainly made of natural products (protein, latex, starch). [Pg.158]

BIDD Bioinformatics databases about drugs, natural products, protein targets, ADME (Absorption, Distribution, Metabolism and Excretion)/Tox, and drug-protein binding http //bidd.nus.edu.sg/... [Pg.762]

Nature produces many fine and useful polymeric materials. Important fibers include wool, cotton, and sUk. Silk fiber is a natural product protein, produced by the silkworm, Bombyx mori, a species of moth, and other insect... [Pg.769]

Fraser and MacRae have reported important absorption bands for natural product proteins and nylon polyamide at 4870 cm- (2188 nm) resulting from a combination of the peptide absorptions at 3305 cm- (3026 nm) and 1540 cm- (6494 nm). For feather shafts, the authors report absorption bands at 4970 cm- (2012 nm) and 5040 cm (1984 nm). A shoulder at 5040 cm (1984 nm) was reported as resulting from side chain amide groups. For beta-keratin, the paper reports important absorption bands at 4600 cm- (2174 nm), 4850 cm- (2062 tun), and 4970 cm (2012 nm). The authors were interested in studying the amorphous components of naturally occurring protein structures. [Pg.106]

Human growth hormone was originally manufactured by isolation of the natural product from human pituitaries and subsequent purification of the protein. Since 1985, manufacture of hGH has been almost exclusively by recombinant DNA technology. [Pg.197]

Other Lethal Agents. There are a number of substances, many found in nature, which are known to be more toxic than nerve agents (6). None has been weaponized. Examples of these toxic natural products include shellfish poison, isolated from toxic clams puffer fish poison, isolated from the viscera of the puffer fish the active principle of curare "heart poisons" of the digitaUs type the active principle of the sea cucumber active principles of snake venom and the protein ricin, obtained from castor beans (See Castor oil). [Pg.399]

Adhesives. Clays, especially kaolin and attapulgite, are widely used in various adhesive formulations. Adhesives (qv) containing clays can be derived from natural products such as starch or protein, or be whoUy synthetic, eg, latex, hot melt, emulsion, etc. [Pg.210]

Isolation and identification of substances (natural products from nature, protein purification and characterisation, etc). [Pg.72]

The natural world is one of eomplex mixtures petroleum may eontain 10 -10 eomponents, while it has been estimated that there are at least 150 000 different proteins in the human body. The separation methods necessary to cope with complexity of this kind are based on chromatography and electrophoresis, and it could be said that separation has been the science of the 20th century (1, 2). Indeed, separation science spans the century almost exactly. In the early 1900s, organic and natural product chemistry was dominated by synthesis and by structure determination by degradation, chemical reactions and elemental analysis distillation, liquid extraction, and especially crystallization were the separation methods available to organic chemists. [Pg.3]

One example of a naturally occurring diazirine, duazomycin A (137 Scheme 11.20), has been reported, isolated in 1985 from a Streptomyces species during a screen for herbicidal compounds [196], It was fotind to inhibit de novo starch synthesis and it was suggested that this is due to direct inhibition of protein synthesis. Duazomycin A is structurally related to 6-diazo-5-oxo-L-norleucine (138), also reported as a natural product from Streptomyces [197], which acts as a glutamine antagonist and inhibits purine biosynthesis [198],... [Pg.436]

Natural products from the Euphorbiaccae family of plants that mimic the effects of diacylglycerol by binding the Cl domain of proteins such as PKC. [Pg.961]

Hsp90 is a molecular chaperon required for the refolding of proteins in cells exposed to environmental stress. It contains an ATP-binding pocket in its amino terminus. Several natural products, for example radicicol (230) (Scheme 48), bind to this pocket and inhibit its chaperon function, which is mirrored in enhanced proteosomal degradation of Hsp90 client proteins, so that compounds like 230 are of interest as novel anticancer agents. [Pg.314]

Like many other antibodies, the activity of antibody 14D9 is sufficient for preparative application, yet it remains modest when compared to that of enzymes. The protein is relatively difficult to produce, although a recombinant format as a fusion vdth the NusA protein was found to provide the antibody in soluble form with good activity [20]. It should be mentioned that aldolase catalytic antibodies operating by an enamine mechanism, obtained by the principle of reactive immunization mentioned above [15], represent another example of enantioselective antibodies, which have proven to be preparatively useful in organic synthesis [21]. One such aldolase antibody, antibody 38C2, is commercially available and provides a useful alternative to natural aldolases to prepare a variety of enantiomerically pure aldol products, which are otherwise difficult to prepare, allovdng applications in natural product synthesis [22]. [Pg.68]

Natural products have been noted for their potential health benefits from time immemorial and are the basis of Ayurveda, an ancient Indian medical practice (Bushkin and Bushkin, 2002). However, the potential benefits of several natural products reside in one or two active ingredients. For example green tea stands for polyphenols, soy for soy estrogens, broccoli for isothiocyanates and grape seed for polyphenols. The beauty of rice bran is that there are more than 100 antioxidants, several categories of bioactive phytonutrients, such as IP6, polyphenols, phytosterols, tocotrienols, y-oryzanol, B vitamins, minerals and trace minerals in addition to fat, protein, fiber, polysaccharides and other nutrients. These phytonutrients and antioxidants of rice bran are believed to act at the cellular level, and their synergestic function is responsible for the positive health benefits. [Pg.370]

Until recently no enzymes able to produce olivetol-like compounds have been isolated. In an article by Puna et al., polyketide III enzymes were responsible for the formation of phenohc lipid compound [34], a natural product group that ohvetol belongs to. Although the biosynthesized compounds contained a longer chain, which increased over time, the study supported the hypothesis of olivetohc acid production by a polyketide III synthase. Further studies on the genetic and protein level are essential to elucidate the mode of mechanism by which olivetohc acid is formed in C. sativa. [Pg.10]


See other pages where Natural Products protein is mentioned: [Pg.228]    [Pg.344]    [Pg.206]    [Pg.32]    [Pg.463]    [Pg.41]    [Pg.439]    [Pg.466]    [Pg.192]    [Pg.2058]    [Pg.164]    [Pg.424]    [Pg.435]    [Pg.355]    [Pg.427]    [Pg.429]    [Pg.356]    [Pg.693]    [Pg.1257]    [Pg.240]    [Pg.2]    [Pg.240]    [Pg.104]    [Pg.327]    [Pg.379]    [Pg.276]    [Pg.930]    [Pg.28]    [Pg.40]    [Pg.363]    [Pg.73]   


SEARCH



Natural products protein interactions

Protein products

Proteins production

© 2024 chempedia.info