Geranyl synthesis

Geranyl acetone is an important intermediate in the synthesis of isophytol [505-32-8], famesol [106-28-5], and neroHdol [40716-66-3]. Isophytol is used in the manufacture of Vitamin E. 

Py rrolostatin is a novel lipid peroxidation inhibitor, which is isolated from Sirepinmyces diresinmyceiiois. Its stnicnire consists of a pyrrole-3-carboxyiic acid v/ith a geranyl group at the 4-posidon. It is readily prepared by applying the Barton-Zard pyrrole synthesis, as shown inEq. 10.33. ... 

According to Example, it is possible to make 443 g of geranyl formate from 375 g of geraniol. A chemist making geranyl formate for the preparation of a perfume uses 375 g of starting material and collects 417 g of purified product. What is the percent yield of this synthesis ... 

Synthesis of geranyl 6-0-fl-o-xylopyranosyl-(3-D-glucopyranoside (82) Tert-butyldimethylsilylation of 51 gave a silyl ether (84, 63% yield), which was subjected to benzoylation to give a benzoate (85) in 71% yield. Desilylation of 85... 

Figure 16 Synthesis of naturally occurring geranyl (3-D-glucopyranosides.

Evidence for de novo synthesis of pheromone components was obtained by showing that labeled acetate and mevalonate were incorporated into ipsdienol by male Ips pini [103,104]. Similarly, labeled acetate and other labeled intermediates were shown to be incorporated into frontalin in a number of Dendroctonus species [105]. Possible precursors to frontalin include 6-methyl-6-hep-ten-2-one, which was incorporated into frontalin by D. ruffipennis [106]. The precursor 6-methyl-6-hepten-2-one also was shown to be converted to bre-vicomin in the bark beetle, Dendroctonus ponderosae [107]. In addition, the expression patterns of HMG-CoA reductase and HMG-CoA synthase are tightly correlated with frontalin production in Dendroctonus jeffreyi [108, 109]. A geranyl diphosphate synthase cDNA from I. pini was also isolated, functionally expressed, and modeled [110]. These data indicate that the de novo isoprenoid biosynthetic pathway is present in bark beetles. A variety of other monoterpene alcohols such as myrcenol, pityol, and sulcitol are probably synthesized through similar pathways [111]... 

Synthesis of 4- and 10-deuteriated neryi and geranyl-p-1)-glucosides and their use in tandem MS studies... 

Several comparative procedures are included. The formation of 1-BENZYLINDOLE and GERANYL CHLORIDE by two different procedures are representative. An interesting comparison of three of the recent adaptations of the Claisen rearrangement on the same substrate is presented in the preparations of N.N-DIMETHYL-5/ -CHOLEST-3-ENE-5-ACETAMIDE, ETHYL-5/S-CHOLEST-3-ENE-5-ACETATE, and 5/9-CHOLEST-3-ENE-5-ACETALDEHYDE. For the utility of the procedure itself as well as for comparison with previously presented syntheses, the preparation and use of triflates in the synthesis of CYCLOBUTANONE is included. 

The IR, NMR, and NMR spectra of this material are identical with those for distilled geranyl chloride (bp 49-51 C at 0.2 mm). Distillation on a small scale significantly reduces the yield, and there is no improvement in the yield of the phosphorylation reaction using distilled material. A synthesis of geranyl chloride was reported earlier in this series. We find, however, that the procedure of Corey, Kim, and Takeda is more convenient. 

Many papers from the patent literature on pyrethroids and juvenile hormones cannot be included in this Report. Papers have reported the synthesis and activity of monoterpenoid juvenoids, including geranyl pyridyl ethers " and geranyl alkyl ethers and amines and their epoxides. Further papers in this section include a report of the potent lung toxicity of perillaketone, the observation that the malodorous water contaminant 2-methylisoborneol has the l-R-exo configuration, and that fenchyl methyl L-aspartylaminomalonate is 2 x 10" times sweeter than sucrose. ... 

A new synthesis of nerolidol (10) from geranyl bromide has been achieved by the use of the hydroxy-sulphoxide (9)/ a new prenylating agent (Scheme 3)7 ... 

Synthesis from (3-Pinene. Pyrolysis of /3-pinene yields myrcene, which is converted into a mixture of predominantly geranyl, neryl, and linalyl chloride by addition of hydrogen chloride in the presence of small amounts of catalyst, e.g., copper(I) chloride and an organic quaternary ammonium salt [29]. After removal of the catalyst, the mixture is reacted with sodium acetate in the presence of a nitrogen base (e.g., triethylamine) and converted to geranyl acetate, neryl acetate, and a small amount of linalyl acetate [30]. 

Synthesis from (3-Pinene. For a description of this route, see under Geraniol. Addition of hydrogen chloride to myrcene (obtained from /3-pinene) results in a mixture of geranyl, neryl, and linalyl chlorides. Reaction of this mixture with acetic acid-sodium acetate in the presence of copper(I) chloride gives linalyl acetate in 75-80% yield [37]. Linalool is obtained after saponification. 

Synthesis of short-chain geranyl esters catalysed by esterase from Fusarium oxysporum in an organic solvent was reported by Stamatis et al. [39]. 

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