Studies on the Syntheses of the Pyrethrin Analogues and their Biological Activities

The separation of (±) -2,2-dimethyl-3- (3′,4′-methylenedioxyphenyl) -cyclopropane-1-carboxylic acid into the geometrical isomers and the assignment of their configurations were achieved. Of the two isomers, the (±) -trans-acid, which was found more toxic when esterified with (±) -allethrolone, was resolved by means of an optically active α-phenylethylamine salt into (+) - and (-) -enantiomers. (IR:3R) -Configuration was assigned to the (+) -trans-acid and (IS:3S) -configuration to the (-) -trans-acid. The bioassay revealed that the (±) -allethrolone ester with the (+) -trans-acid, which belongs to the same optical series as the natural chrysanthemum acids, was the most toxic against common houseflies, as was the case with other pyrethroids.     

2-Fluoro and 2-Methoxycarbonyl Epoxy-β-ionylideneacetic Acids as Abscisic Acid Analogs

Abscisic acid (ABA) is easily isomerized to inactive trans-ABA by light. To solve this problem, two variations of epoxy-?-ionylideneacetic acid were synthesized as ABA analogs, each of them having a methoxycarbonyl or a fluoric substituent at the 2-position. The 2E-, and 2Z-fluorinated analogs showed moderate growth inhibitory activity toward rice seedlings and lettuce seeds, whereas the methoxycarbonyl analog was inactive toward rice seedling growth and only partially active toward lettuce germination. The 2E-fluorinated analog was extensively isomerized to the 2Z-isomer by UV irradiation. We think that a steric requisite for the 2E-position was high, and that the fluorine substituent was not effective for fixing the 2-double bond in the E-configuration.     

Cis-and all-trans-canthaxanthin levels in fairy shrimps

The carotenoid composition of cysts of seven species of fairy shrimps (Anostraca) was studied using high-performance liquid chromatography. Canthaxanthin was detected as the major pigment, but an important and often predominant fraction of it occurred in the cis-configuration, which is consistent with previous findings in Artemia cysts. Cis-canthaxanthin rapidly disappeared in nauplii of Thamnocephalus platyurus through conversion to all-trans-canthaxanthin and was preferably localized in the abdominal section carrying the genital segment of females, unlike in mature male animals. In contrast, the intense orange-red colour of the thoracopods and the cercopods in both sexes was only due to all-trans-canthaxanthin.     

Studies on bound trans-4-hydroxy-l-proline in sandal (Santalum album L.)

1. trans-4-Hydroxy-l-proline was found to occur in the bound state in the leaves of sandal (Santalum album L.), in which large amounts of free cis-4-hydroxy-l-proline are also present. 2. Bound trans-4-hydroxy-l-proline was present, associated mainly with a `wall' fraction and a `soluble' fraction roughly in equal proportions. 3. Bound proline is present only in small amounts in the `soluble' fraction but is mostly associated with the `wall' fraction and the other sedimented fractions. 4. In the free amino acid fraction more than 98% of the hydroxyproline had the cis-configuration, whereas in the `wall' and `soluble' fractions more than 90% of the bound hydroxyproline was in the trans-configuration. 5. Various extraction procedures indicated heterogeneity of the hydroxyproline-containing components. Hot 5% (w/v) trichloroacetic acid extracts about 25% of hydroxyproline and m-NaOH extracts an additional 25%. 6. Incorporation of [¹⁴C]proline into the bound hydroxyproline was demonstrated. The hydroxyproline component of the `soluble' fraction does not appear to be the precursor of that of the `wall' fraction.     

Characteristics and function of Alcaligenes sp. NBRC 14130 esterase catalysing the stereo‐selective hydrolysis of ethyl chrysanthemate

Aims: Alcaligenes sp. NBRC 14130 was found as a strain hydrolysing a mixture of (±)‐trans‐ and (±)‐cis ethyl chrysanthemates to (1R,3R)‐(+)‐trans‐chrysanthemic acid. The Alcaligenes cells also have hydrolytic activity for 6‐aminohexanoate‐cyclic dimer (6‐AHCD, 1,8‐diazacyclotetradecane‐2,9‐dione). The correlation of function on the enzyme from the Alcaligenes strain with hydrolysis activities for both ethyl chrysanthemate and 6‐AHCD was demonstrated. Methods and Results: The esterase was purified to homogeneity. The purified esterase hydrolysed 20 mmol l^?1 ester including the four stereoisomers to the corresponding (+)‐trans acid with a 37% molar conversion of ethyl (+)‐trans chrysanthemate. The esterase showed high hydrolytic activity for various short‐chain fatty acid esters, n‐hexane amide and 6‐AHCD. The amino acid sequence of the Alcaligenes esterase was identical to that of Arthrobacter 6‐AHCD hydrolase (EC 3.5.2.12) and similar to that of fatty acid amide hydrolase (EC 3.5.1.4) from Rattus norvegicus, having both serine and lysine residues of the catalytic site and the consensus motif Gly‐X‐Ser‐X‐Gly. Conclusion: The stereo‐selective hydrolytic activity was found in Alcaligenes sp. NBRC14130 by screening of ethyl chrysanthemate‐hydrolysing activity in micro‐organisms, and the purified esterase also acted on fatty acid esters and amides. Significance and Impact of the Study: This study has demonstrated that there are great differences in the enzymatic properties, amino acid sequence and catalytic motif of esterases in both Alcaligenes and Arthrobacter globiformis with excellent stereo‐selectivity for (+)‐trans‐ethyl chrysanthemate, but the amino acid sequence of Alcaligenes esterase is identical to that of Arthrobacter 6‐AHCD hydrolase.     

Carotenogenic and abscisic acid biosynthesizing activity in a cell-free system

Abscisic acid is considered an apocarotenoid formed by cleavage of a C-40 precursor and subsequent oxidation of xanthoxin and abscisic aldehyde. Confirmation of this reaction sequence is still awaited, and might best be achieved using a cell-free system capable of both carotenoid and abscisic acid biosynthesis. An abscisic acid biosynthesizing cell-free system, prepared from flavedo of mature orange fruits, was used to demonstrate conversion of farnesyl pyrophosphate, geranylgeranyl pyrophosphate and all-trans-β-carotene into a range of β,β-xanthophylls, xanthoxin, xanthoxin acid, 1′,4′-trans-abscisic acid diol and abscisic acid. Identification of product carotenoids was achieved by high-performance liquid chromatography and on-line spectral analysis of individual components together with co-chromatography. Putative C-15 intermediates and product abscisic acid were identified by combined capillary gas chroma-tography-mass spectrometry. Kinetic studies revealed that β-carotene, formed from either famesyl pyrophosphate or geranylgeranyl pyrophosphate, reached a maximum within 30 min of initiation of the reaction. Thereafter, β-carotene levels declined exponentially. Catabolism of substrate β-carotene into xanthophylls, putative abscisic acid precursors and product abscisic acid was restricted to the all-trans-isomer. However, when a combination of all-trans- and 9-cis-β-carotene in the ratio 1:1 was used as substrate, formation of abscisic acid and related metabolites was enhanced. Biosyn-thetically prepared [¹⁴C]-all-trans-violaxanthin, [¹⁴C]-all-trans-neoxanthin and [¹⁴C]-9′-cis-neoxanthin were used as substrates to confirm the metabolic interrelationship between carotenoids and abscisic acid. The results are consistent with 9′-cis-neoxan-thin being the immediate carotenoid precursor to ABA, which is oxidatively cleaved to produce xanthoxin. Formation of abscisic aldehyde was not observed. Rather, xanthoxin appeared to be converted to abscisic acid via xanthoxin acid and 1′,4′-trans-abscisic acid diol. An alternative pathway for abscisic acid biosynthesis is therefore proposed.     

Crystal structure,DNA binding studies,nucleolytic property and topoisomerase I inhibition of zinc complex with 1,10-phenanthroline and 3-methyl-picolinic acid

Crystal structure analysis of the zinc complex establishes it as a distorted octahedral complex, bis(3-methylpicolinato-κ² N,O)₂(1,10-phenanthroline-κ² N,N)-zinc(II) pentahydrate, [Zn(3-Me-pic)₂(phen)]·5H₂O. The trans-configuration of carbonyl oxygen atoms of the carboxylate moieties and orientation of the two planar picolinate ligands above and before the phen ligand plane seems to confer DNA sequence recognition to the complex. It cannot cleave DNA under hydrolytic condition but can slightly be activated by hydrogen peroxide or sodium ascorbate. Circular Dichroism and Fluorescence spectroscopic analysis of its interaction with various duplex polynucleotides reveals its binding mode as mainly intercalation. It shows distinct DNA sequence binding selectivity and the order of decreasing selectivity is ATAT > AATT > CGCG. Docking studies lead to the same conclusion on this sequence selectivity. It binds strongly with G-quadruplex with human tolemeric sequence 5′-AG₃(T₂AG₃)₃-3′, can inhibit topoisomerase I efficiently and is cytotoxic against MCF-7 cell line.     

Chemotaxonomic studies ofAsplenium sect.Hymenasplenium (Aspleniaceae)

We previously isolated and characterized a new free amino acid withd-configuration at the α-carbon,trans-3, 4-dehydro-d-2-aminopimelic acid and its related amino acids,d-2-aminopimelic acid and 4-hydroxy-l-2-aminopimelic acid fromAsplenium unilaterale. In this paper, we report that the biosynthetic relationshps among these three amino acids were studied using¹⁴C-and³H-labeled compounds as tracers. Glutamate and aspartate were shown to be good precursors and it was suggested that 4-hydroxy-l-2-aminopimelic acid is biosynthesized first and the twod-amino acids are derived from it. Furthermore, the distribution patterns of these non-protein amino acids inAsplenium sect.Hymenasplenium were examined in detail and they were evaluated by their biosynthetic pathway. Morphological characters especially on their rhizomes were also examined and their character phylogeny was determined by outgroup comparison. Taking all the characters available into account, the phylogenetic relationship among 7 species ofAsplenium sect.Hymenasplenium in Japan and Taiwan is discussed by the transformed cladistic method.     

Synthetic Studies on Carbohydrate Antibiotics

By means of a modified Königs-Knorr reaction using 2,3,4,6-tetra-O-benzyl-D-gluco- pyranosyl chloride, all the possible isomers of d-glucopyranoside of trans-2-aminocyclo- hexanol were synthesized. The total yield of the α-anomers exceeded that of the corresponding β-anomers.

Treatment of methyl tri-O-acetyl-6-azido-6-deoxy-d-glucopyranoside (II) with benzyl chloride afforded the corresponding tri-O-benzyl derivative. Reduction of the azido group with zinc-acetic acid or sodium amalgam gave 6-amino derivative. N-Acetylation, hydrolysis of the I-O-methyl group, acetylation and treatment with dry hydrogen chloride in dioxane afforded the title compound (VIII). Königs-Knorr reaction of the chloride with (+)- and (?)-2-aminocyclohexanol produced the corresponding glycosides, one of which was proved to have the α-configuration.     

Psychrophilic <Emphasis Type="Italic">Pseudomonas syringae</Emphasis> requires <Emphasis Type="Italic">trans</Emphasis>-monounsaturated fatty acid for growth at higher temperature

A psychrophilic bacterium, Pseudomonas syringae (Lz4W) from Antarctica, was used as a model system to establish a correlation, if any, between thermal adaptation, trans-fatty acid content and membrane fluidity. In addition, attempts were made to clone and sequence the cti gene of P. syringae (Lz4W) so as to establish its characteristics with respect to the cti of other Pseudomonas spp. and also to in vitro mutagenize the cti gene so as to generate a cti null mutant. The bacterium showed increased proportion of saturated and trans-monounsaturated fatty acids when grown at 28°C compared to cells grown at 5°C, and the membrane fluidity decreased with growth temperature. In the mutant, the trans-fatty acid was not synthesized, and the membrane fluidity also decreased with growth temperature, but the decrease was not to the extent that was observed in the wild-type cells. Thus, it would appear that synthesis of trans-fatty acid and modulation of membrane fluidity to levels comparable to the wild-type cells is essential for growth at higher temperatures since the mutant exhibits growth arrest at 28°C. In fact, the cti null mutant-complemented strain of P. syringae (Lz4W-C30b) that was capable of synthesizing the trans-fatty acid was indeed capable of growth at 28°C, thus confirming the above contention. The cti gene of P. syringae (Lz4W) that was cloned and sequenced exhibited high sequence identity with the cti of other Pseudomonas spp. and exhibited all the conserved features.     

Cloning and characterization of a novel tyrosine ammonia lyase-encoding gene involved in bagremycins biosynthesis in Streptomyces sp.

Tyrosine ammonia lyase catalyzes the deamination of l-tyrosine to trans-coumaric acid. A novel tyrosine ammonia lyase-encoding gene, bagA, was cloned and sequenced from bagremycins-producing strain Streptomyces sp. Tü 4128 whose protein product contains a Ala–Ser–Gly segment in the active site. The disruption of the bagA gene abolished trans-coumaric acid and bagremycins production. trans-coumaric acid restored the formation of bagremycin A in the mutant, but not bagremycin B. Thus, trans-coumaric acid is a precursor for biosynthesis of bagremycins and the bagA gene codes for tyrosine ammonia lyase to synthesize trans-coumaric acid. This is a novel bacterial tal gene reported in actinomycetes for the second time and for the first time in a Streptomyces sp.     

Substrate selectivity of lipases in the esterification of cis/trans-isomers and positional isomers of conjugated linoleic acid (CLA)

The substrate selectivity of several microbial lipases has been examined in the esterification of the conjugated linoleic acid (CLA) isomers cis-9,trans-11-, cis-9,cis-11-, trans-9,trans-11- and trans-10,cis-12-octadecadienoic acid with n-butanol in n-hexane. Lipases from Candida cylindracea and Mucor miehei had a preference for the cis-9,trans-11-octadecadienoic acid, while Chirazyme L-5, a Candida antarctica lipase A, accepted the trans-9,trans-11-fatty acid with a high selectivity. Moreover, lipase from Candida cylindracea and Chirazyme L-5 catalysed the esterification of the cis-9,trans-11-octadecadienoic acid with n-butanol faster than the corresponding reaction of the trans-10,cis-12-fatty acid.     

Evidence forCis- andTrans-acting element coevolution of the 2-μm circle genome inSaccharomyces cerevisiae

Summary We compared the DNA sequence of the yeas 2-μm plasmidcis-actingSTB andtrans-actingREP1 partition loci of laboratory haploid and industrial amphiploid strains. Several industrial strains had a uniqueSTB sequence (type 1) sharing only 70% homology with laboratorySTB (type 2). Type 1 plasmids had a REP1 protein with 6–10% amino acid substitutions when compared to REP1 of type 2 plasmids. All 2-μm variants that shared a similarSTB consensus sequence exhibited a high degree ofREP1 nucleotide and amino acid sequence conservation. These observations suggest molecular coevolution oftrans-acting elements with cognate target DNA structure. Based on DNA sequencing and Southern hybridization analyses, we classified 2-μm variants into two main evolutionary lineages that differ atSTB as well asREP1 loci. The role of molecular coevolution in yeast intra- and interspecies plasmid evolution was discussed.     

Identification of enriched conjugated linoleic acid isomers in cultures of ruminal microorganisms after dosing with 1-<Superscript>13</Superscript>C-linoleic acid

Most studies of linoleic acid biohydrogenation propose that it converts to stearic acid through the production of cis-9 trans-11 CLA and trans-11 C18:1. However, several other CLA have been identified in ruminai contents, suggesting additional pathways may exist. To explore this possibility, this research investigated the linoleic acid biohydrogenation pathway to identify CLA isomers in cultures of ruminai microorganisms after dosing with a ¹³C stable isotope. The ¹³C enrichment was calculated as [(M+1/M)×100] in labeled minus unlabeled cultures. After 48 h incubation, significant ¹³C enrichment was observed in seven CLA isomers, indicating their formation from linoleic acid. All enriched CLA isomers had double bonds in either the 9,11 or 10,12 position except for trans-9 cis-11 CLA. The cis-9 trans-11 CLA exhibited the highest enrichment (30.65%), followed by enrichments from 21.06 to 23.08% for trans-10 cis-12, cis-10 trans-12, trans-9 trans-11, and trans-10 trans-12 CLA. The remaining two CLA (cis-9 cis-11 and cis-10 cis-12 CLA) exhibited enrichments of 18.38 and 19.29%, respectively. The results of this study verified the formation of cis-9 trans-11 and trans-10 cis-12 CLA isomers from linoleic acid biohydrogenation. An additional five CLA isomers also contained carbons originating from linoleic acid, indicating that pathways of linoleic acid biohydrogenation are more complex than previously described.     

Metabolic diversity in biohydrogenation of polyunsaturated fatty acids by lactic acid bacteria involving conjugated fatty acid production

Lactobacillus plantarum AKU 1009a effectively transforms linoleic acid to conjugated linoleic acids of cis-9,trans-11-octadecadienoic acid (18:2) and trans-9,trans-11–18:2. The transformation of various polyunsaturated fatty acids by washed cells of L. plantarum AKU 1009a was investigated. Besides linoleic acid, α-linolenic acid [cis-9,cis-12,cis-15-octadecatrienoic acid (18:3)], γ-linolenic acid (cis-6,cis-9,cis-12–18:3), columbinic acid (trans-5,cis-9,cis-12–18:3), and stearidonic acid [cis-6,cis-9,cis-12,cis-15-octadecatetraenoic acid (18:4)] were found to be transformed. The fatty acids transformed by the strain had the common structure of a C18 fatty acid with the cis-9,cis-12 diene system. Three major fatty acids were produced from α-linolenic acid, which were identified as cis-9,trans-11,cis-15–18:3, trans-9,trans-11,cis-15–18:3, and trans-10,cis-15–18:2. Four major fatty acids were produced from γ-linolenic acid, which were identified as cis-6,cis-9,trans-11–18:3, cis-6,trans-9,trans-11–18:3, cis-6,trans-10–18:2, and trans-10-octadecenoic acid. The strain transformed the cis-9,cis-12 diene system of C18 fatty acids into conjugated diene systems of cis-9,trans-11 and trans-9,trans-11. These conjugated dienes were further saturated into the trans-10 monoene system by the strain. The results provide valuable information for understanding the pathway of biohydrogenation by anaerobic bacteria and for establishing microbial processes for the practical production of conjugated fatty acids, especially those produced from α-linolenic acid and γ-linolenic acid. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Studies on Chrysanthemic Acid

Synthesis of (±)-trans-chrysanthemic acid from (±)-1′-hydroxydihydro-trans-chrysanthemic acid by the dehydration with p-toluene-sulfonic acid was attempted. However, the attempt was found to be unsuccessful giving a compound believed to be methyl methyl 2,6 dimethylhepta-3.6-diene-5-carboxylate upon dehydration.

A cleavage upon cyclopropane ring was confirmed by deriving the acid obtained by the hydrolysis of the above ester to already known 2,6-dimethyl-heptane-5-carboxylic acid.

Analogous mode of dehydration and cleavage upon the ester of (±)-2,2-dimethyl-3-trans-hydroxylbenzyl-cyclopropane-l-carboxylic acid was also observed to give 1-phenyl-4-methyl-penta-1,3-diene-3-carboxylic acid. On the other hand, (±)-trans-caronic acid being derived to (±)-1′-oxo-2′-hydroxy-dihydro-trans-chrysanthemic acid, the synthesis of (±)-trans-chrysanthemic acid from (±)-trans-caronic acid became possible using (±)-1′-oxo-2′-hydroxy-dihydro-trans-chrysanthemic acid as a relay substance.     

Regulation of phenylpropanoid metabolism by exogenous precursors in axenic cultures of Sphagnum fallax

Sphagnum plantlets, cultivated in continuous-feed bioreactors, are characterised by high levels of free endogenous phenolics and a pronounced excretion of some phenolics into the effluent culture medium. The transfer of Sphagnum fallax, precultivated in continuous-feed bioreactors, to batch cultures resulted in an increased flux through phenylpropanoid metabolism and an accumulation of p-coumaric acid to 0.1 μM and of trans-sphagnum acid up to 0.5 μM in the external medium [³H]-labelled L-phenylalanine (7.7 GBq mol^?1) was rapidly taken up, resulting in an enhanced synthesis and excretion of p-coumaric and trans-sphagnum acid. Specific activities were 6.9 and 5.4 GBq mol^?1, respectively, for these cinnamic acids excreted into the external medium. Endogenous pools of trans-cinnamic and p-coumaric acid did not increase and no labelling could be detected in these compounds. Cell wall-bound activity amounted to ca 14% of the applied activity after 48 h of incubation, 59% of which was recovered in dioxane/2 M HCl extracts of the cell wall. Exogenously applied trans-cinnamic acid (0.1 mM) was taken up to 46% and resulted in a transient endogenous accumulation of trans-cinnamic acid, the level of free endogenous p-coumaric and trans-sphagnum acid was found to have decreased. The concentrations of p-coumaric and trans-sphagnum acid in the culture medium rose to 17 and 2.4 μM, respectively, after 48 h of incubation in 0.1 mMtrans-cinnamic acid. Exogenously applied p-coumaric acid (0.1 mM) was taken up to 79% from the incubation solution but not stored endogenously, as metabolic products trans-sphagnum acid and an unknown p-coumaric acid-conjugate accumulated in the external medium and endogenously. These results give evidence for the biosynthetical route from phenylalanine to sphagnum acid and a channelling of pathway intermediates by the enzymes L-phenylalanine ammonia-lyase (EC 4.3.1.5) and cinnamic acid 4-hydroxylase (EC 1.14.13.11).     

Imidazolylchromanones containing alkyl side chain as lanosterol 14α-demethylase inhibitors: synthesis,antifungal activity and docking study

Abstract

Previously, 2-alkylchromans have been introduced as non-azole inhibitors of 14α-demethylase. Accordingly, we incorporated imidazole ring on the 3-position of 2-alkylchromanones to design new inhibitors of 14α-demethylase and potential antifungal agents. Thus, a series of 2-alkyl-3-imidazolylchromanones were synthesized starting from 2-hydroxyphenacyl bromide. The trans-configuration of compounds was confirmed by NMR-spectroscopy. The antifungal activity of title compounds were evaluated against different fungi in comparison with fluconazole and miconazole. trans-2-(1-Pentyl)-3-imidazolylchroman-4-one (4d) showed the most potent activity against yeasts comparable to fluconazole. The experimental data based on ¹H NMR spectroscopy revealed that 2-alkyl side chain and 3-imidazolyl moiety in compound 4d exist predominantly in the di-equatorial conformation. While docking study with 14α-demethylase demonstrated that the di-axial form of compound 4d can be considered as active conformation.     

Synthesis and absolute configuration of the stereoisomers of [2-(1-diethylaminopropyl)] 1-hydroxy-1,1′-bicyclohexyl-2-carboxylate,a muscarinic antagonist

The compound [2-(1-diethylaminopropyl)] 1-hydroxy-1,1′-bicyclohexyl-2-carboxylate 1 is a muscarinic antagonist characterized by the presence of three chiral atoms and eight possible stereoisomers. The binding affinities to the five cloned m₁–m₅ muscarinic receptors of the stereoisomers of 1 were previously investigated and proved to be related to the chirality of the molecules. The eight isomers are prepared through the synthesis of their racemates followed by chemical resolution as (+) and (−) tartrate or (+) and (−) dibenzoyltartrate salts. The isomers with cis-configuration of OH and COOH substituents of the cyclohexane are also obtained by coupling optically active (1S, 2S) or (1R,2R)-1-hydroxy-[1,1′-bicyclohexyl]-2-carboxylic acid with (S)- or (R)-1-diethylamino-2-propanol. Chiral GC and HPLC methods are used to determine their optical purity. The absolute configurations of the four cis- and four trans-isomers are established by stereospecific synthesis and X-ray crystallographic data. Chirality 9:713–721, 1997. © 1997 Wiley-Liss, Inc.