Kingidiol,a kolavane derivative from Baccharis kingii

The aerial parts of Baccharis kingii afforded quercetin 3,3′-dimethyl ether and a new diterpene closely related to hautriwaic acid. Structure and     

Hautriwaic acid as one of the hepatoprotective constituent of Dodonaea viscosa

It is widely known that hepatitis and its complications such as cirrhosis or hepatocellular carcinoma are one of the major health problems of the world especially since no specific treatment is available. In the present study we investigated the hepatoprotective potential of the methanolic extract of the whole plant of Dodonaea viscosa and its ethyl acetate, aqueous, butanol and n-hexane fractions against carbon tetrachloride (CCl₄) induced hepatoxicity in rats. Hepatoprotection was assessed in terms of reduction in serum enzymes (ALT, AST, and ALP) that occur after CCl₄ injury, and by histopathology and immunohistochemistry. The methanolic extract reduced the serum enzyme level (ALT, AST, and ALP) down to control levels despite CCl₄ treatment. It also reduced the CCl₄-induced damaged area to 0% as assessed by histopathology. The CD68+ macrophages were also reduced in number around the central vein area by the methanolic extract. These hepatoprotective effects were better than the positive control silymarin. Similar hepatoprotective activities were found with the ethyl acetate, and aqueous fractions of the methanolic extract. The butanol and n-hexane fractions showed elevated levels of ALT, AST and ALP as compared to the positive control silymarin. Histopathology showed ∼30% damage to the liver cells with the butanol and n-hexane fractions which still showed some protective activity compared to the CCl₄ treated control. HPLC fingerprinting suggested that hautriwaic acid present in the methanolic extract and its ethyl acetate, and aqueous fractions may be responsible for this hepatoprotective activity of Dodonaea viscosa which was confirmed by in vivo experiments.     

Lagerenyl acetate and lagerenol two tetracyclic triterpenoids with the cycloartane skeleton from Lagerstroemia lancasteri

Lagerenyl acetate and lagerenol two new tetracyclic triterpenoids with the cycloartane skeleton together with four other triterpenoids 2α-hydroxy- 3β-E-p-coumaryloxy-urs-12-en-28-oic acid (jacoumaric acid, isolated as its monoacetylmethylcarboxylate derivative), 2α-hydroxyursolic acid (isolated as its diacetate), germanicyl acetate and friedelin, and sitosterol were isolated from the leaves and twigs of Lagerstroemia lancasteri. The structures of lagerenyl acetate and lagerenol were established as 3β-acetoxycycloart-24-one and 3β-hydroxycycloart-24-one, respectively, on the basis of spectral and chemical evidence.     

A ganoderic acid derivative,a highly oxygenated lanostane-type triterpenoid from Ganoderma lucidum

Ganoderic acid C, a new lanostane-type triterpenoid was isolated from the fruit body of Ganoderma lucidum. The structure of ganoderic acid C was elucidated by spectroscopic data and X-ray analysis of methyl ganoderate C acetate.     

Sandaracopimarene derivatives from Senecio subrubriflorus

Several new sandaracopimarene derivatives were isolated from Senecio subrubriflorus. A triphenyl acetate of shikimic acid and a 4, 7-oxide of bisabolene were also present. The structures were elucidated by high field ¹H NMR spectroscopy. The chemistry of this species differs considerably from that of other Senecio species.     

Microglossic acid an alicyclic diterpene and other consituents of Microglossa zeylanica

The aerial parts ofMicroglossa zeylanica collected in Sri Lanka contained β-farnesene, squalene, dammadienyl acetate, caryophyllen-1,10-epoxide, 5,4′-dihydroxy-6,7,8,3′-tetramethoxyflavone, dehydrofalcarindiol and two new alicyclic diterpenes, microglossic acid and dihydromicroglossic acid. Their structures were elucidated by high field¹H NMR spectroscopy.     

Three triterpenes and other terpenoids from Catha cassinoides

The investigation of stems and leaves of Catha cassinoides afforded, in addition to sitosterol, β-amyrin, ursolic acid, lup-20(29)-en-3β,30-diol and friedelin, three new pentacyclic triterpenes: 30-hydroxyfriedelan-3-one, 29-hydroxyfriedelan-3-one and 3-oxo-friedelan-29-oic acid. The structures ofthese were determined by spectral studies and correlations, and were confirmed by X-ray analysis of 29-hydroxyfriedelan-3-one acetate.     

Helifulvanolsäkure—ein neues diterpen mit anomalem kohlenstoffgerüst aus Helichrysum fulvum

The aerial parts of Helichrysum fulvum afforded, in addition to beyerenic acid and ent-kaurenic acid, two new diterpenic acids with the hitherto unknown carbon skeleton of an isotrachylobane type. The structures of these acids, isolated as their methyl esters, were elucidated by extensive NMR studies, some chemical transformations and by X-ray structural analysis of the corresponding acetate. The related alcohol on reaction with pyridinochlorochromate afforded a homoconjugated diene probably formed by fragmentation of a cyclopropyl carbinol. The possible biogenesis of the new carbon skeleton is discussed briefly.     

Grindelane diterpenoids from grindelia squarrosa and G. Camporum

An acid fraction of the dichloromethane extract of Grindelia squarrosa and a neutral fraction of the ethyl acetate extract of Grindelia camporum yielded a number of previously known grindelane diterpenoids and flavonoids. Along with the known isolates, two new grindelane diterpenoids, 13-isogrindelic acid and 17-grindeloxy grindelic acid, from G. squarrosa were isolated and identified spectroscopically.     

Metabolic pathways involved in lipogenesis from lactate and acetate in bovine adipose tissue: Effects of metabolic inhibitors

Metabolic inhibitors were used in vitro in an attempt to elucidate the biochemical pathways by which lactate is converted to fatty acids by bovine adipose tissue. Subcutaneous adipose tissue samples were obtained by biopsy techniques from steers fed a high-energy ration. Kynurenate (α-2-diamino-γ-oxabenzenebutanoic acid) (5–10 mm), an inhibitor of acetyl-CoA carboxylase, and cerulenin (2,3-epoxy-4-oxo-7,10-dodecadienamide) (20–100 μg/ml), an inhibitor of the fatty acid synthetase enzyme complex, inhibited fatty acid synthesis from both acetate and lactate. The hydrogen acceptor, N-methylphenazonium methosulfate (10 μm) inhibited acetate but not lactate incorporation into fatty acids. α-Cyanohydroxycinnamate (5 mm) and phenylpyruvate (10 mm), which inhibit pyruvate entry into the mitochondria and pyruvate carboxylase, respectively, decreased lipogenesis from both acetate and lactate. The effects of phenylpyruvate on lipogenesis from acetate were greater in the presence of glucose plus insulin. Agaric acid (2-hydroxy-1,2,3-nonadecanetricarboxylic acid) (0.2 and 1.0 mm), which inhibits citrate efflux from the mitochondria also decreased lipogenesis from both acetate and lactate. Fluoroacetate (2.5 mm), an inhibitor of aconitate hydratase, had no effect on lipogenesis from acetate; but, in the presence of glucose or pyruvate, decreased lactate incorporation into fatty acids. n-Butylmalonate (5 mm), which blocks malate transport across the mitochondrial membrane, decreased lipogenesis from lactate but not acetate. Malate transport during lipogenesis is not associated with an operative malate:asparate shuttle in bovine adipose tissue, as indicated by the lack of effect of either 0.2 or 1.0 mm aminooxyacetate, a transaminase inhibitor, on lipogenesis from acetate or lactate. The results suggest a functional ATP-citrate lyase:NADP-malate dehydrogenase pathway in bovine subcutaneous adipose tissue and that this pathway may be involved in lipogenesis from acetate as well as lactate.     

Synthesis and structure of [bis(pyrazol-1-yl)acetato]trioxorhenium(VII) and [bis(3,5-dimethylpyrazol-1-yl)acetato]trioxorhenium(VII)

The coordination of the ligands bis(pyrazol-1-yl)acetate (bpza) and bis(3,5-dimethylpyrazol-1-yl)acetate (bdmpza) to rhenium(VII) was investigated. The compounds [(bpza)ReO₃] and [(bdmpza)ReO₃] were synthesised by reaction of bpza and bdmpza with perrhenic acid with the loss of one water molecule. The new complex [(bdmpza)ReO₃] was characterised by single-crystal X-ray analysis. It has a monomeric structure with a distorted octahedron for the [N,N,O]ReO₃ central core.     

Elucidation of Growth Inhibition and Acetic Acid Production by Clostridium thermoaceticum

The production of acetic acid by Clostridium thermoaceticum was studied by using batch fermentations. In a pH-controlled fermentation with sodium hydroxide (pH 6.9), this organism was able to produce 56 g of acetic acid per liter. On the other hand, when the pH was not controlled and was decreased during fermentation to 5.4, the maximum attainable acetic acid concentration was only 15.3 g/liter. To obtain a better understanding of the end product inhibition, various salts were tested to determine their effect on the growth rate of C. thermoaceticum. An inverse linear relationship between the growth rate and the final cell concentration to the sodium acetate concentration was found. By using different concentrations of externally added sodium salts, the relative growth inhibition caused by the anion was found to be in the order of acetate > chloride > sulfate. Various externally added cations of acetate were also examined with respect to their inhibitory effects on growth. The relative magnitude of inhibition on the growth rate was found to be ammonium > potassium > sodium. The combined results have shown that the undissociated acetic acid was much more inhibitory than the ionized acetate ion. Complete growth inhibition resulted when the undissociated acetic acid concentration was between 0.04 and 0.05 M and when the ionized acetate concentration was 0.8 M. Therefore, at low pH (below 6.0), undissociated acetic acid is responsible for growth inhibition, and at high pH (above 6.0), ionized acetate ion is responsible for growth inhibition.     

Biosynthesis of acerogenin A,a diarylheptanoid from acer nikoense

The biosynthesis of acerogenin A was studied by feeding various ¹⁴C-labelled compounds to the young shoots of Acer nikoense. Phenylalanine and cinnamic acid were the best precursors. C-2 of both acetate and malonic acid were efficiently incorporated into acerogenin A, but C-1 of acetate and the methyl carbon of methionine were incorporated very poorly. These results show that acerogenin A is probably biosynthesized via (−)-centrolobol derived from two p-coumarate residues and one malonate.     

Germacranolides and diterpenes from Viguiera species

The investigation of six Viguiera species afforded in addition to known compounds two new diterpenes, the 9,11-dehydro derivatives of trachylobanic and stachenic acid, two new heliangolides closely related to viguiestenin, and the acetate of falcarinol. The chemotaxonomic situation is discussed briefly.     

Malate- and pyruvate-dependent Fatty Acid synthesis in leucoplasts from developing castor endosperm

Leucoplasts were isolated from the endosperm of developing castor (Ricinis communis) endosperm using a discontinuous Percoll gradient. The rate of fatty acid synthesis was highest when malate was the precursor, at 155 nanomoles acetyl-CoA equivalents per milligram protein per hour. Pyruvate and acetate also were precursors of fatty acid synthesis, but the rates were approximately 4.5 and 120 times less, respectively, than when malate was the precursor. When acetate was supplied to leucoplasts, exogenous ATP, NADH, and NADPH were required to obtain maximal rates of fatty acid synthesis. In contrast, the incorporation of malate and pyruvate into fatty acids did not require a supply of exogenous reductant. Further, the incorporation of radiolabel into fatty acids by leucoplasts supplied with radiolabeled malate, pyruvate, or acetate was reduced upon coincubation with cold pyruvate or malate. The data suggest that malate and pyruvate may be good in vivo sources of carbon for fatty acid synthesis and that, in these preparations, leucoplast fatty acid synthesis may be limited by activity at or downstream of the acetyl-CoA carboxylase reaction.     

Distribution of some triterpenes and phenolic compounds in the extractives of endemic dipterocarpaceae species of Sri Lanka

Extractives of bark and/or timber of 11 species belonging to the genera Cotylelobium, Hopea, Shorea, Vateria and Vatica yielded a fatty-acid ester, a sitosteryl ester, β-amyrin acetate, β-amyrin, dipterocarpol, ursolic acetate, lupeol, sitosterol, ursolic acid, betulinic acid, hexamethyl-coruleoellagic acid, tetramethylellagic acid, chrysophanol and scopoletin. The distribution of these compounds in 18 other species was examined by TLC screening.     

DNA Microarray Analyses of the Long-Term Adaptive Response of Escherichia coli to Acetate and Propionate

In its natural environment, Escherichia coli is exposed to short-chain fatty acids, such as acetic acid or propionic acid, which can be utilized as carbon sources but which inhibit growth at higher concentrations. DNA microarray experiments revealed expression changes during exponential growth on complex medium due to the presence of sodium acetate or sodium propionate at a neutral external pH. The adaptive responses to acetate and propionate were similar and involved genes in three categories. First, the RNA levels for chemotaxis and flagellum genes increased. Accordingly, the expression of chromosomal fliC′-′lacZ and flhDC′-′lacZ fusions and swimming motility increased after adaptation to acetate or propionate. Second, the expression of many genes that are involved in the uptake and utilization of carbon sources decreased, indicating some kind of catabolite repression by acetate and propionate. Third, the expression of some genes of the general stress response increased, but the increases were more pronounced after short-term exposure for this response than for the adaptive response. Adaptation to propionate but not to acetate involved increased expression of threonine and isoleucine biosynthetic genes. The gene expression changes after adaptation to acetate or propionate were not caused solely by uncoupling or osmotic effects but represented specific characteristics of the long-term response of E. coli to either compound.     

Linalyl Acetate Is Metabolized by Pseudomonas incognita with the Acetoxy Group Intact

Metabolism of linalyl acetate by Pseudomonas incognita isolated by enrichment culture on the acyclic monoterpene alcohol linalool was studied. Biodegradation of linalyl acetate by this strain resulted in the formation of linalool, linalool-8-carboxylic acid, oleuropeic acid, and Δ⁵-4-acetoxy-4-methyl hexenoic acid. Cells adapted to linalyl acetate metabolized linalyl acetate-8-aldehyde to linalool-8-carboxylic acid, linalyl acetate-8-carboxylic acid, Δ⁵-4-acetoxy-4-methyl hexenoic acid, and geraniol-8-carboxylic acid. Resting cell suspensions previously grown with linalyl acetate oxidized linalyl acetate-8-aldehyde to linalyl acetate-8-carboxylic acid, Δ⁵-4-acetoxy-4-methyl hexenoic acid, and pyruvic acid. The crude cell-free extract (10,000 g of supernatant), obtained from the sonicate of linalyl acetate-grown cells, was shown to contain enzyme systems responsible for the formation of linalyl acetate-8-carboxylic acid and linalool-8-carboxylic acid from linalyl acetate. The same supernatant contained NAD-linked alcohol and aldehyde dehydrogenases involved in the formation of linalyl acetate-8-aldehyde and linalyl acetate-8-carboxylic acid, respectively. On the basis of various metabolites isolated from the culture medium, resting cell experiments, growth and manometric studies carried out with the isolated metabolites as well as related synthetic analogs, and the preliminary enzymatic studies performed with the cell-free extract, a probable pathway for the microbial degradation of linalyl acetate with the acetoxy group intact is suggested.     

Two malyngamides from the caribbean cyanobacterium Lyngbya majuscula

Chemical examination of two collections of the Caribbean cyanobacterium, Lyngbya majuscula, led us to isolate several antimicrobial agents. The most active was elemental sulphur, followed by the previously reported fatty acid (−)-7(S)-methoxytetradec-4(E)-enoate, and then by two new amides of this fatty acid, malyngamide D and malyngamide D acetate. The new compounds possess vinyl chloride and α,β-unsaturated enone functional groups. The structures of the new compounds are based on spectroscopic evidence including several 2D NMR techniques at high field as well as chemical interconversion.     

Bioefficacy of some Rhizobactrial isolates against sorghum root Rot pathogen Bipolaris sorokiniana

This study carried out to identify certain microbial allelochemicals with antifungal activity of some rhziobacterial isolates against Bipolaris sorokiniana fungi. The fungicidal activity of isolated microbe metabolites was compared based on inhibition % of fungal growth. Results showed that ethyl acetate crude extracts with two concentrations (500 and 1000 ppm) of Pseudomonas geniculata (SC) and Bacillus cereus (S4) were the most efficient isolates recorded inhibition % 33.62 and 52.59% followed by S4 (Bacillus cereus (ATCC 14579) which achieved inhibition % 33.62 and 46.55% at the same concentrations, respectively. After 4 days.The constituents analyzed by LC-MS/MS and FTIR of the ethyl acetate extracts of the Pseudomonas geniculata ATCC19374 were afforded aminobutyric acid, 1,4-benzoquinone, coumaric acid, sinapic acid, tryptophan amino acid, Succinic acid and ferulic acid. While, the secondary metabolites of (Bacillus cereus ATCC 14579 extract were aminobutyric acid, 1,4-benzoquinone, coumaric acids, sinapic acid, ferulic acid and benzoic acid. Results indicated that the isolates of Pseudomonas geniculata ATCC19374 and Bacillus cereus ATCC 14579 could be use as a good element in plant root rot pathogen Bipolaris sorokiniana management.