Synthesis and characterisation of Pd(II) allyl complexes derived from the diterpene carvone

A series of cationic allyl complexes of Pd(II) derived from the diterpene carvone have been synthesised and characterised using the chelating ligands, bipyridine, 1,8-phenanthroline, neocuproin, S,S (-)-Chiraphos and R (+)-Binap as co-ligands. These complexes can be readily converted to new organic products in which one C---H bond of the allyl methyl has been substituted. The structure of a bipyridyl complex as its tetraphenyl borate salt has been determined via X-ray diffraction. 2-D NOESY studies on the Chiraphos and Binap complexes are reported. The Binap, but not the Chiraphos, complex reveals η³-η³η³ isomerisation at ambient temperature.     

Achillea ligustica: composition and antimicrobial activity of essential oils from the leaves, flowers and some pure constituents

The composition of the essential oils obtained from the leaves and the flowers of Achillea ligustica (Asteraceae) growing in Sicily has been studied. The main constituents of the leaves were 4-terpineol (19.3%), carvone (8.9%), γ-terpinene (7.2%) and β-phellandrene (6.8%). 4-terpineol (12.0%), carvone (10.0%), and β-phellandrene (5.4%), along with linalool (20.4%) and cedrol (4.3%) were detected in the flower’s oil. Furthermore, the antimicrobial activity of the essential oils and of some of the main constituents were assayed on bacteria and fungi. In memory of Prof. Ivano Morelli (1940–2005)     

Improved reactor performance and operability in the biotransformation of carveol to carvone using a solid-liquid two-phase partitioning bioreactor

In an effort to improve reactor performance and process operability, the microbial biotransformation of (-)-trans-carveol to (R)-(-)-carvone by hydrophobic Rhodococcus erythropolis DCL14 was carried out in a two phase partitioning bioreactor (TPPB) with solid polymer beads acting as the partitioning phase. Previous work had demonstrated that the substrate and product become inhibitory to the organism at elevated aqueous concentrations and the use of an immiscible second phase in the bioreactor was intended to provide a reservoir for substrates to be delivered to the aqueous phase based on the metabolic rate of the cells, while also acting as a sink to uptake the product as it is produced. The biotransformation was previously undertaken in a two liquid phase TPPB with 1-dodecene and with silicone oil as the immiscible second phase and, although improvement in the reactor performance was obtained relative to a single phase system, the hydrophobic nature of the organism caused the formation of severe emulsions leading to significant operational challenges. In the present work, eight types of polymer beads were screened for their suitability for use in a solid-liquid TPPB for this biotransformation. The use of selected solid polymer beads as the second phase completely prevented emulsion formation and therefore improved overall operability of the reactor. Three modes of solid-liquid TPPB operation were considered: the use of a single polymer bead type (styrene/butadiene copolymer) in the reactor, the use of a mixture of polymer beads in the reactor (styrene/butadiene copolymer plus Hytrel(R) 8206), and the use of one type of polymer beads in the reactor (styrene/butadiene copolymer), and another bead type (Hytrel(R) 8206) in an external column through which fermentation medium was recirculated. This last configuration achieved the best reactor performance with 7 times more substrate being added throughout the biotransformation relative to a single aqueous phase benchmark reactor and 2.7 times more substrate being added relative to the best two liquid TPPB case. Carvone was quantitatively recovered from the polymer beads via single stage extraction into methanol, allowing for bead re-use.     

Agronomical and chemical characterization of spearmint (Mentha spicata L.) originating in Turkey

The essential oil properties of spearmint (Mentha spicataL.), one of the most important spice plants, were studied and the essential oil components determined using gas chromatography. The essential oil content of wild-grown spearmint in the region was found to range from 1.00% to 2.00%, and two chemotypes were identified, one high in carvone (49.53-80.65%) and the other in pulegone (44.9-49.23%). Agronomic and essential oil properties of cultivated landraces ofM. spicata were also investigated under field conditions during the 1999 vegetation period. The examined spearmint landraces showed a great variability for each character studied, including yield and essential oil components. The crop was harvested twice during the vegetation period, and the essential oil content of the landraces varied from 0.90 to 2.70% in the first harvest and from 1.00 to 3.00% in the second one. Carvone was constantly present as the predominant essential oil in landraces, except for one sample, which was high in linalool (82.80%). Superior landraces with carvone contents were discovered; their maximum content reached 79.70% in the first cutting and 82.97% at the second cutting. The superior landraces were assayed for future improvement studies.     

香芹酮和薄荷醇手性异构体对淡色库蚊熏蒸及驱避活性

【目的】比较香芹酮和薄荷醇各手性异构体对淡色库蚊Culex pipiens pallens成蚊的熏蒸及驱避活性,为其应用提供理论依据。【方法】以3日龄淡色库蚊雌成蚊为供试昆虫,采用三角瓶熏蒸法比较测定香芹酮和薄荷醇的5种手性异构体的击倒与熏蒸致死活性;用Y-型嗅觉仪法比较测定驱避作用;将活性较好单体制成电热蚊香片,用方箱法进一步评价药效。【结果】5种异构体对淡色库蚊均具有一定的击倒和致死作用,其中L-香芹酮的击倒速度最快,KT50为9.75 min;D-香芹酮的致死作用最强,LC50为0.26μL/L。L-香芹酮和D-香芹酮对淡色库蚊均具较好的驱避作用,在0.5μL剂量下,处理30 min后的驱避率仍达100%。方箱法实验表明,以200μL的L-香芹酮和D-香芹酮为有效成分的电热蚊香片加热1 h后,对淡色库蚊雌成蚊的KT50分别为13.70和17.90 min。【结论】香芹酮对淡色库蚊雌成蚊的熏杀活性优于薄荷醇,且不同异构体的活性存在显著差异,L-香芹酮具备被开发为植物源卫生害虫防控剂的潜力。     

Degradation of Pinene by Bacillus pallidus BR425

An aerobic thermophile has been isolated from an -pinene enrichment culture. The isolate, which was designated BR425, has been tentatively identified as Bacillus pallidus using 16S ribosomal RNA gene sequencing and organism morphology. Monophasic and biphasic incubations of BR425 cells with -pinene, -pinene, and limonene yielded a number of oxidized monoterpene metabolites with carveol as a common metabolite. A pinene degradation pathway with carveol and carvone as central metabolic intermediates is suggested.     

Stereoselectivity of the reduction of carvone and dihydrocarvone by suspension cells of Nicotiana tabacum

The biotransformation of foreign substrates with suspension cells of Nicotiana tabacum was tested with (4R)-(?)- and (4S)-(+)-carvones, (     

Biosynthesis of carvone in Mentha spicata

Degradation of, and measurement of isotope ratios in, (?)-carvone that had been biosynthesized in Mentha spicata from ³H- and ¹⁴C-labelled geraniol and mevalonate indicate that (a) oxidation of limonene or its biogenetic equivalent to form carvone involves shift of the endocyclic double bond; (b) (+)-limonene and (?)-carvone are biogenetically related and are probably formed on divergent pathways from a common intermediate; and (c) the exocyclic double bond of carvone is not formed regiospecifically. These results enable the mechanisms for the introduction of the carbonyl group and for the formation of the isopropenyl side-chain to be delimited.     

Biocatalytic reduction of (+)-carvone and (−)-carvone in submerged cultures of the fungi Penicillium citrinum and Fusarium oxysporium

Abstract

Biocatalytic transformation represents a green approach to the asymmetric hydrogenation of activated alkenes. This paper details catabolic events after the addition of (?)-carvone or (+)-carvone to submerged cultures of Penicillium citrinum and Fusarium oxysporium. These microorganisms were shown to biotransform the isomers of carvone, leading to the formation of a diastereoisomeric excess of derivatives of carvone and reduced carveols, and also to isomerize both dihydrocarvone, and their derivatives dihydrocarveols.     

Enhanced bioproduction of carvone in a two-liquid-phase partitioning bioreactor with a highly hydrophobic biocatalyst

The microbial biotransformation of (-)-trans-carveol to the flavor and fragrance compound (R)-(-)-carvone by Rhodococcus erythropolis DCL14 was carried out in a 3 L two phase partitioning bioreactor with an immiscible liquid second phase in an effort to improve upon the reactor performance achieved in a single aqueous phase system. The purpose of employing the liquid second phase is to minimize biotransformation rate inhibition due to the accumulation of the toxic substrate (cis-carveol) and product (carvone) in the aqueous phase. 1-Dodecene was chosen as the solvent for this application because it is biocompatible, non-biodegradable and has a superior affinity for the target product (carvone) relative to the other solvents tested. However, when 1-dodecene was used in the biotransformation, the extremely hydrophobic R. erythropolis DCL14 created an emulsion with the organic solvent with significant sequestering of the cells into the organic phase and negligible substrate conversion. To overcome these operational difficulties, silicone oil, which is considered a liquid polymer, was used with the aim of preventing emulsification and sequestration of cells in the non-aqueous phase. Although some emulsification of the water-silicone oil was again created by the cells, operability was improved and, in fed-batch mode, the system was able to convert approximately 2(1/2) times more carveol than a benchmark single aqueous phase system before substrate/product toxicity caused the biotransformation to stop. This study has demonstrated enhancement of a microbial biotransformation for the production of a high value nutraceutical compound via the use of a second partitioning phase, along with operational challenges arising from the use of a highly hydrophobic organism in such systems.