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Natural production methods, steps

The cmde diatomite, which may contain up to 60% moisture, is first milled in a method that preserves the intricate stmcture of the diatomite. This material is fed to dryers operating at relatively low temperatures, where virtually all of the moisture is removed (see Drying). Coarse and gritty nondiatomaceous earth material is removed in separators and preliminary particle si2e separation is made in cyclones. For many producers, all of the manufacturing processes, with the exception of the calcination step, take place while the material is being pneumatically conveyed. The resultant material is termed natural product. This is the only type of diatomite made by some producers. [Pg.57]

The cyanohydrin acetonide method has been a valuable tool in natural product synthesis. The first reported demonstration of this strategy was the total synthesis of (-)-roxaticin [29]. In this approach, treatment of cyanohydrin 57 with an excess of the C2-symmetrical dibromide 58 provided 59, without overalkylation (Scheme 6). A second alkylation involving cyanohydrin 60 gave 61 in excellent yield. (-)-Roxaticin was accessed in ca. 10 steps from tetraacetonide 62. [Pg.61]

Improved Methods for Collection, Bioassay, Isolation, and Characterization of Compounds. Techniques used to characterize natural products are evolving rapidly as more sophisticated instrumentation is developed. Plant physiologists and chemists should work closely together on this aspect, since rapid and reproducable bioassays are essential at each step. There is no standard technique that will work effectively for every compound. Briefly, isolation of a compound involves extraction or collection in a appropriate solvent or adsorbant. Commonly used extraction solvents for plants are water or aqueous methanol in which either dried or live plant parts are soaked. After extracting the material for varying lengths of time, the exuded material is filtered or centrifuged before bioassay. Soil extraction is more difficult, since certain solvents (e.g. bases) may produce artifacts. [Pg.4]

Another method for conducting cyclizations catalytic in Cp2TiCl is shown in Scheme 14. It relies on the thermodynamically favorable ring closure of THF from 5-titanoxy radicals [81,82]. This step is mechanistically related to the oxygen rebound steps of oxidation reactions. While the scope of this transformation remains to be established, the presence of substituted THF-derivatives in many natural products renders the method potentially attractive. [Pg.46]

The reduction of nitro ketones with baker s yeast is a good method for the preparation of chiral nitro alcohols.89 The reduction of 5-nitro-2-pentanone with baker s yeast gives the corresponding (5)-alcohol, which is an important chiral building block. Various chiral natural products are prepared from it. In Scheme 7.16, the synthesis of the pheromone of Andrena haemorrhoa is described, where the acylation of the chiral nitro alcohol followed by radical denitration is involved as key steps.89a... [Pg.204]

The intramolecular insertion reactions of nitrenoids into G-H bonds as described above provide an attractive alternative to conventional methods of amine formation. Both carbamate and sulfamate C-H insertions have been applied successfully to the total syntheses of natural products. - The first application of carbamate G-H insertion was reported by Trost in the total synthesis of methyl-L-callipeltose 118 (Equation (92)).230 Intermolecular G-H insertion of carbamate 117 using 10mol% Rh2(OAc)4, PhI(OAc)4, and DTBMP (2,6-di-/ / -butyl-4-methylpyridine) in dichloromethane (40 °C) furnished methyl-L-callipeltose 118 in 63% yield. In an another independent total synthesis of 118, Panek performed this step in refluxing benzene and improved the yield to 93%.231... [Pg.203]

The previous chapters have dealt mainly with LC/MS analysis involving short run times, many samples, and relatively small numbers of compounds in samples. What about samples containing very complex compound mixtures, for example, natural products, samples from biomarker discovery, protein digests, and QA/QC method development or metabolite identification samples requiring detection of every component Such workflows often require several analysis steps with different columns and different mobile phases and pH values to increase the separation probability by changing the selectivities of individual runs. [Pg.114]

The oxypalladation method mentioned above was introduced as a crucial step in the synthesis of several natural products. As shown in Scheme 8.51, Metz and coworkers used this strategy in an enantioselective synthesis of ricciocarpin A [122], Other impressive applications including the acetalization-RCM sequence have been employed in the synthesis of the AB ring of ciguatoxin [123] and of the Q-C fragment of laulimalide [124] (Scheme 8.52). [Pg.460]

Catalytic methods, chemo- as well as bio-catalysis, are of vital importance in the conversion of natural products into derivatives (semi-synthesis). In chemo-catalysis conventional catalysts, such as mineral acids, are being replaced by recyclable solid catalysts. Further progress is also expected in cascade processes in which synthesis steps are combined to one pot methods. [Pg.117]

Yamamura S (1995) Synthetic studies on natural products using electrochemical method as a key step. In Torii, S (ed) Novel trends in electroorganic synthesis, Kodansha, Tokyo, pg265... [Pg.85]

Synthetic applications of the asymmetric Birch reduction and reduction-alkylation are reported. Synthetically useful chiral Intermediates have been obtained from chiral 2-alkoxy-, 2-alkyl-, 2-aryl- and 2-trialkylsllyl-benzamides I and the pyrrolobenzodlazeplne-5,ll-diones II. The availability of a wide range of substituents on the precursor benzoic acid derivative, the uniformly high degree of dlastereoselection in the chiral enolate alkylation step, and the opportunity for further development of stereogenic centers by way of olefin addition reactions make this method unusually versatile for the asymmetric synthesis of natural products and related materials. [Pg.1]

Natural products, from plants and foods to rocks and minerals, are complicated systems, but their analysis by Raman spectroscopy is a growing area. Most examples come from quality control laboratories, motivated to replace current time-consuming sample preparation and analysis steps with a less labor-intensive, faster technique but most authors anticipated the eventual application to process control. Often a method will be practiced in a trading house or customs facility to distinguish between items perceived to be of different qualities, and thus prices. [Pg.220]

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See also in sourсe #XX -- [ Pg.214 ]



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Methods natural products

Natural Step

Production method

Step methods

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