Peroxidase-like activity of Thermobifida fusca hemoglobin: The oxidation of dibenzylbutanolide

The thermostable truncated hemoglobin from the actinomyces Thermobifida fusca (Tf-trHb) displays a robust peroxidase activity, with optimum at acidic pH values, in experiments with the redox mediator ABTS. However, typical peroxidase substrates, such as phenolic or aromatic amine compounds, appear to be poor substrates for Tf-trHb. In turn, the protein is able to catalyze a unique dehydrogenation reaction of dibenzylbutanolides, suggested intermediates in the biosynthesis of podophyllotoxin, in the presence of hydrogen peroxide. Dibenzylbutanolides with a free 4″-hydroxyl group were thus converted into the corresponding 2,7″-dehydroderivatives thus setting up the basis for an efficient biotransformation of this important precursor. In particular, Tf-trHb mediated oxidation of trans-2-(4″-hydroxy-3″,5″-dimethoxybenzyl)-3-(3′,4′-methylenedioxy-7′β-hydroxybenzyl)butanolide 1 into the corresponding benzylidene-benzoyl-γ-butyrolactone 2 was obtained at high yield and with excellent selectivity.     

Studies on isopentenyl pyrophosphate isomerase with artificial substrates: Z-E isomerization of Z-3-methyl-3-pentenyl pyrophosphate

The reaction of isopentenyl pyrophosphate isomerase of pig liver in deuterated water was examined with five artificial substrate homologs, 3-ethyl-3-butenyl- (1), E-3-methyl-3-pentenyl- (2), Z-3-methyl-2-pentenyl- (3), E-3-methyl-2-pentenyl- (4), and Z-3-methyl-3-pentenyl pyrophosphate (5). The course of deuterium incorporation into the products was monitored by coupled gas chromatographic-mass spectrometric analysis using selected ion monitoring. Two new isomerization reactions for the artificial homologs were discovered in addition to those reported previously by us [J. Biol. Chem.248, 8043 (1973)]: The artificial homolog 5 is apparently isomerized irreversibly to the E-isomer 2 via 4 as an intermediate. The conversion of 2 to 1 was confirmed showing that the isomerization between 1 and 2 is reversible even though the equilibrium is heavily in favor of 2.     

Design,synthesis, and biological evaluation of deuterated phenylpropionic acid derivatives as potent and long-acting free fatty acid receptor 1 agonists

The free fatty acid receptor 1 (FFA1) is a potential target due to its function in enhancement of glucose-stimulated insulin secretion. Takeda’s compound 1 has robustly in vitro activity for FFA1, but it has been suffered from poor pharmacokinetic (PK) profiles because the phenylpropanoic acid is vulnerable to β-oxidation. To identify orally available agonists, we tried to interdict the metabolically labile group by incorporating two deuterium atoms at the α-position of phenylpropionic acid. Interestingly, the differences of physicochemical properties between hydrogen and deuterium are quite small, but there are many differences in the structure-activity relationship between phenylpropionic acid series and present deuterated series. Further optimizations of deuterated series led to the discovery of compound 18, which exhibited a superior balance in terms of in vitro activity, lipophilicity, and solubility. Better still, compound 18 revealed a lower clearance (CL = 0.44 L/h/kg), higher maximum concentration (C_max = 7584.27 μg/L), and longer half-life (T_1/2 = 4.16 h), resulting in a >23-fold exposure than compound 1. In subsequent in vivo pharmacodynamic studies, compound 18 showed a robustly glucose-lowering effect in rodent without the risk of hypoglycemia.     

An efficient one-pot synthesis of thiochromeno[3,4-d]pyrimidines derivatives: Inducing ROS dependent antibacterial and anti-biofilm activities

An efficient synthesis of thiochromeno[3,4-d]pyrimidine derivatives has been achieved successfully via a one-pot three-component reaction of thiochrome-4-one, aromatic aldehyde and thiourea in the presence of 1-butyl-3-methyl imidazolium hydrogen sulphate [Bmim]HSO₄. This new protocol has the advantages of environmental friendliness, high yields, short reaction times, and convenient operation. Furthermore, among all the tested derivatives, compounds 4b and 4c exhibited promising antibacterial, minimum bactericidal concentration and anti-biofilm activities against Staphylococcus aureus MTCC 96, Staphylococcus aureus MLS16 MTCC 2940 and Bacillus subtilis MTCC 121. The compound 4c also showed promising intracellular ROS accumulation in Staphylococcus aureus MLS16 MTCC 2940 comparable to that of ciprofloxacin resulting in apoptotic cell death of the bacterium.     

Rates of reduced cytochrome c-ferricyanide binding and electron transfer

The oxidation of reduced cytochrome c by ferricyanide has been studied over a wide range of ferricyanide concentrations using a continuous-flow apparatus. The formation of a ferrocytochrome c-ferricyanide complex has been demonstrated and the binding and electron transfer processes separated to give both the oxidation electron transfer rate and the binding rate parameters. The electron transfer rate has been found to be 1.86 · 10³ s^?1 in H₂O buffer and 1.36 · 10³ s^?1 in ²H₂O demonstrating that a deuterium isotope effect of similar magnitude (R = 1.37) to that found in the cytochrome reactions in photosynthetic bacteria [18] is also found in the reaction studied here. The binding association rate parameters also show a similar deuterium isotope effect suggesting that water rotation may be involved in both the binding of ferricyanide to reduced cytochrome c and the subsequent oxidation electron transfer.     

Synthesis and pharmacological investigation of new N-hydroxyalkyl-2-aminophenothiazines exhibiting marked MDR inhibitory effect

Novel N-hydroxyalkyl-2-aminophenothiazines implying a tetrazole moiety at the alkyl chain have been synthesized by hydroboration–oxidation of dienes followed by Buchwald–Hartwig cross-coupling reaction. Also, some sulfoxide and sulfone derivatives have been prepared by selective oxidations. MDR inhibition studies on rat hepatocyte cell culture revealed that some derivatives exhibit marked biological efficacy exceeding that of the standard verapamil (e.g., 3h, 4h, 16). Selected derivatives were subjected to chemical resolution to provide both enantiomers which were shown of similar activity on P-gp interaction measurements. The new compounds exhibited no toxicity.     

Synthesis and biological evaluation of novel pyrazolopyrimidines derivatives as anticancer and anti-5-lipoxygenase agents

A novel series of 6-aryl-3-methyl-1-phenyl-1H-pyrazolo[3,4-d]pyrimidin-4(5H)-ones 3a-h were synthesized in a single step via condensation of carboxamide 2 with some aromatic aldehydes (presence of iodine). Treatment of aminopyrazole 1a with acetic anhydride afforded pyrazolopyrimidines 4 which on treatment with ethyl chloroacetate in refluxing dry DMF furnished a single product identified as ethyl 2-(3,6-dimethyl-4-oxo-1-phenyl-1H-pyrazolo[3,4-d]pyrimidin-5(4H)-yl) acetate 5. On the other hand, esterification of compound 6 with different alcohol, led to the formation of new esters linked pyrazolo[3,4-d]pyrimidinones hybrids 7a-f. The reaction of compound 2 with 3-propargyl bromide gave the compound 8 used as a dipolarophile to access to triazoles (4- and 5-regioisomers (9a-e) and (10a-e), respectively) via the 1,3-dipoar cycloaddition reaction. Finally, condensation reaction of aminopyrazole 1b with α-cyanocinnamonitiles gave the new pyrazolo[1,5-a]pyrimidine-3,6-dicarbonitriles 11a-e. Structures of compounds were established on the basis of ¹H/¹³C NMR and ESI-HRMS. Compounds were screened for their cytotoxic (HCT-116 and MCF-7) and 5-lipoxygenase inhibition activities. The structure-activity relationship (SAR) was discussed.     

A facile synthesis,anti-inflammatory and analgesic activity of isoxazolyl-2,3-dihydrospiro[benzo[f]isoindole-1,3′-indoline]-2′,4,9-triones

A new series of isoxazolyl-2,3-dihydrospiro[benzo[f]isoindole-1,3′-indoline]-2′,4,9-triones (14) were synthesized by reaction of 4-amino-3-methyl-5-styrylisoxazole 10 with chloroacetic acid followed by a three component reaction with substituted isatins 12 and 1,4-naphthoquinone 13 using Ceric ammonium nitrate (CAN) catalyst under aerial oxidation condition. Structures of these compounds were established on the basis of IR, ¹H NMR, ¹³C NMR and mass spectral data. The title compounds 14a–j were evaluated for their anti-inflammatory and analgesic activity. Compounds 14d, 14e and 14f exhibited potent anti-inflammatory and analgesic activity as that of standard drugs.     

Synthesis of 4-substituted pyrido[2,3-d]pyrimidin-4(1H)-one as analgesic and anti-inflammatory agents

4-Substituted-pyrido[2,3-d]pyrimidin-4(1H)-ones 4a–c were synthesized by oxidation of 4-substituted-dihydropyrido[2,3-d]pyrimidin-4(1H)-ones 3a–c which were in turn prepared from arylidenemalononitriles 1a–c and 6-aminothiouracil 2. The reactivity of compounds 4a–c towards some reagents such as formamide, carbon disulfide, urea, thiourea, formic and acetic acids were studied. All the synthesized compounds were characterized by spectroscopic means and elemental analysis. Compound 4c exhibited 64% and 72% analgesic activity. Also, compound 4b showed 50% and 65% anti-inflammatory activity. Interestingly these compounds showed one-third of ulcer index of the reference aspirin and diclofenac.     

Catechol thioethers with physiologically active fragments: Electrochemistry,antioxidant and cryoprotective activities

A number of asymmetrical thioethers based on 3,5-di-tert-butylcatechol containing sulfur atom bonding with physiologically active groups in the sixth position of aromatic ring have been synthesized and the electrochemical properties, antioxidant, cryoprotective activities of new thioethers have been evaluated. Cyclic voltammetry was used to estimate the oxidation potentials of thioethers in acetonitrile. The electrooxidation of compounds at the first stage leads to the formation of o-benzoquinones. The antioxidant activities of the compounds were determined using 2,2′-diphenyl-1-picrylhydrazyl radical (DPPH) assay, experiments on the oxidative damage of the DNA, the reaction of 2,2′-azobis(2-amidinopropane hydrochloride) (AAPH) induced glutathione depletion (GSH), the process of lipid peroxidation of rat liver (Wistar) homogenates in vitro, and iron(II) chelation test. Compounds 1–9 have greater antioxidant effectiveness than 3,5-di-tert-butylcatechol (CatH₂) in all assays. The variation of physiologically active groups at sulfur atom allows to regulate lipophilic properties and antioxidant activity of compounds. Thioethers 3, 4 and 7 demonstrate the combination of radical scavenging, antioxidant activity and iron(II) binding properties. The researched compounds 1–9 were studied as possible cryoprotectants of the media for cryopreservation of the Russian sturgeon sperm. Novel cryoprotective additives in cryomedium reduce significantly the content of membrane-permeating agent (DMSO). A cryoprotective effect of an addition of the catechol thioethers depends on the structure of groups at sulfur atom. The cryoprotective properties of compounds 3, 4 and 7 are caused by combination of catechol fragment, bonded by a thioether linker with a long hydrocarbon chain and a terminal ionizable group or with a biologically relevant acetylcysteine residue.     

Structural basis of the inhibition of GH1 β-glucosidases by multivalent pyrrolidine iminosugars

The synthesis of multivalent pyrrolidine iminosugars via CuAAC click reaction between different pyrrolidine-azide derivatives and tri- or hexavalent alkynyl scaffolds is reported. The new multimeric compounds, together with the monomeric reference, were evaluated as inhibitors against two homologous GH1 β-glucosidases (BglA and BglB from Paenibacillus polymyxa). The multivalent inhibitors containing an aromatic moiety in the linker between the pyrrolidine and the scaffold inhibited the octameric BglA (µM range) but did not show affinity against the monomeric BglB, despite the similarity between the active site of both enzymes. A modest multivalent effect (rp/n = 12) was detected for the hexavalent inhibitor 12. Structural analysis of the complexes between the monomeric and the trimeric iminosugar inhibitors (4 and 10) and BglA showed the insertion of the inhibitors at the active site of BglA, confirming a competitive mode of inhibition as indicated by enzyme kinetics. Additionally, structural comparison of the BglA/4 complex with the reported BglB/2F-glucose complex illustrates the key determinants responsible for the inhibitory effect and explains the reasons of the inhibition of BglA and the no inhibition of BglB. Potential inhibition of other β-glucosidases with therapeutic relevance is discussed under the light of these observations.     

In vitro biosynthesis of isopentenylacetophenones in Eupatorium rugosum

A cell free homogenate of Eupatorium rugosum leaves was prepared and utilized to study the biosynthesis of dehydrotremetone (1). Homogenates of young leaves were most efficient in the formation of 1. The furan ring and its side chain were derived from an isoprenoid unit, which appeared to be isopentenyl pyrophosphate and not dimethylallyl pyrophosphate. Potential aromatic precursors such as 4-hydroxyacetophenone and 4-hydroxy-3[isopenten-(2)-yl]-acetophenone were poorly utilized. However, tremetone, especially in the presence of the coenzyme NADP, was very efficiently converted to 1. An apparent intermediate in the pathway leading to 1 was isolated and appeared similar to 4-hydroxy-3[isopenten-(2)-yl]-acetophenone. It is proposed that the aromatic moiety of 1 is derived from acetate via a polyketide intermediate, which undergoes isoprenylation by isopentenyl pyrophosphate, followed by aromatization and furan ring closure.     

Orobanone analogues from acid-promoted aromatization rearrangement of curcumol inhibit hypoxia-inducible factor-1 (HIF-1) in cell-based reporter assays

In this paper, the mechanism of orobanone analogues formation via aromatization rearrangement of curcumol was minutely explored. Aromatization of curcumol with acetone under acidic condition was selected as the model reaction. The formation of a stable aromatic system was the driving force for this reaction. Based on the model reaction, other four new orobanone analogues were prepared through curcumol reacting with different carbonyl compounds. The results showed that the stability of carbocation, which was generated from the carbonyl compounds, and the steric hindrance were main factors affecting the aromatization. We also synthesized the analogue of aromaticane B using compound 2. In vitro anti-proliferative activity of some derivatives were tested by MTT assay. Two derivatives showed weak anti-tumor effect on two cancer cell lines (HepG2 and MCF7) under normoxia. Four orobanone analogue 2, 5, 6 and 9 significantly inhibited hypoxia-induced HIF-1 luciferase reporter activity in HeLa cells with the IC₅₀ values of 13.6, 6.6, 2.4 and 18.2 μM, respectively.     

Syntheses and structures of vinyl and aryl derivatives of carbonyl halide iron complexes

cis,trans-Fe(CO)₂(PMe₃)₂(p-Y-C₆H₄)X [X=Br, Y=H (4a), MeO (4b), Cl (4c), F (4d), Me (4e); X=I, Y=H (5); X=Cl, Y=H (6)] and cis,trans-Fe(CO)₂(PMe₃)₂(σ-CHCH₂)X [X=Br (7); X=I (8); X=Cl (9)] are prepared by reacting dihalide complexes cis,trans,cis- Fe(CO)₂(PMe₃)₂X₂ [X=Br (1), X=I (2), X=Cl (3)] with Grignard reagents p-Y-C₆H₄-MgBr (Y=H, OMe, Cl, F, Me) or CH₂CH-MgBr and with lithium reagents PhLi, CH₂CH-Li. With both reagents, the reaction proceeds following two parallel pathways: one is the metallation reaction which yields alkyl derivatives, the other affords 17 electron complexes [Fe(CO)₂(PMe₃)₂X] via monoelectron reductive elimination. The influence of the halides and organometallic reagents on the yield of the metallation reaction is discussed. The solution structure of the complexes is assigned on the basis of IR and ¹H, ¹³C, ¹⁹F, ³¹P NMR spectra. The solid state structure of complexes 4a, 5 and 6 is determined by single crystal X-ray diffractometric methods.     

Comparison of commercially available antibody reagents for the cytomegalovirus pp65 antigenemia assay

Background: The Argene Biosoft 1C3 and the Biotest C10,C11 monoclonal antibodies are two of the most commonly used commercially available antibody reagents for the cytomegalovirus (CMV) pp65 antigenemia assay.Objectives: The sensitivities of these two reagents were compared in peripheral blood specimens received for CMV antigenemia testing.Study design: A total of 1149 peripheral blood specimens were processed for CMV antigenemia testing. Duplicate slides were stained with the Biosoft 1C3 and Biotest C10,C11 monoclonal antibodies.Results: A total of 158 specimens gave a positive result by one or both antibodies. One hundred and forty five were positive by the Biosoft antibody and 130 were positive by the Biotest antibody. Positive cell counts were significantly higher on cell preparations stained by the Biosoft antibody (Wilcoxon signed rank, P < 0.001) and the Biosoft antibody detected twice as many low-level positive specimens as the Biotest.Conclusions: The Biosoft antibody reagent was superior to the Biotest reagent for the detection of CMV antigenemia. This is an important factor since early detection is essential for appropriate initiation of preemptive antiviral therapy, particularly in transplant recipients at high risk of CMV disease.     

ZnCl2 catalyzed new coumarinyl-chalcones as cytotoxic agents

A new series of coumarin-yl-chalcone derivatives (3a-m) had been designed and synthesized through different reactions such as aromatic addition, cyclization and Claisen-Schmidt reactions in good yields (54–78%). 5-acetyl-4-(2-hydroxyphenyl) -6-methyl-3, 4-dihydropyrimidin-2(1H) -one (1) has been synthesized by multi-component one pot reaction of salicylaldehyde, methyl acetoacetate and urea, which was further reacted with malonic acid employing ZnCl₂ catalyst to yield 5-acetyl-4-(4-hydroxy-2-oxo-2H-chromen-8-yl) -6-methyl-3, 4-dihydropyrimidin-2(1H) -one (2). The title compounds (3a-m) were synthesised by reacting 5-acetyl-4-(4-hydroxy-2-oxo-2H-chromen-8-yl) -6-methyl-3, 4-dihydropyrimidin-2(1H)-one (2) with different aromatic aldehydes in the presence of potassium hydroxide. In silico studies, a preliminary screening method for predicting the anti-cancer activity was performed for the synthesized compounds (3a-m) against Src, Alb tyrosine kinase and homology model protein (PDB ID: 4csv). The derivatives 3h and 3m showed moderate binding energies. The in vitro cytotoxic activity was evaluated for the compounds 3h and 3m by using human cancer cell-line morphology and MTT assay against three human cell-lines A549 (Lung), Jurkat (Leukemia) and MCF-7 (Breast). The results indicate that the derivatives 3h and 3m display significant anti-cancer activity, however it was found to be less cytotoxic when compared to the standard used i.e. Imatinib.     

Synthesis of new compartmental amino-phenolic ligands. Basicity, coordination properties towards Cu(II) and Zn(II) ions. A fluorescent chemosensor for H and Zn(II)

The syntheses of three new compartmental ligands are reported. Each ligand shows two 1,4,7-triazaheptane (dien) moieties separated by different rigid aromatic groups. The dien unit is linked to the spacer through its central N-atom, while each aromatic moiety contains two hydroxyl-phenolic functions. The synthetic aspects involved in attaching two dien subunits to an aromatic group containing two hydroxyl functions were explored. Each ligand synthesized can coordinate two metal ions positioned far from each other; the single dinuclear units will be useful as building blocks in new supramolecular aggregates. The basicity and binding properties of one of the synthesized ligands (3,3′-bis[N,N-bis(2-aminoethyl)aminomethyl]-4,4′-dihydroxybiphenyl (L2)) were potentiometrically studied in aqueous solution. L2 was found to behave as a diprotic acid and as a pentaprotic base under the experimental conditions used. L2 forms stable mononuclear and dinuclear complexes with Cu(II) and Zn(II) ions; the mononuclear species show a tendency to dimerize, while the dinuclear ones are predominant in the presence of two equivalents of M(II) ions in solution.Both protonation and the presence of Zn(II) strongly affect the fluorescence emission properties of L2, which can be used as a new chemosensor for H⁺ and Zn(II) ions. L2 exhibits pH-dependent fluorescence and the emission due to the different protonation of L2 and can be ascribed, above all, to the degree of protonation of the 4,4′-biphenol unit; thus, L2 is more emitting at acidic pH values where the aromatic unit is fully protonated. On the contrary, the Zn-dinuclear species are more emitting from neutral to alkaline pH values exhibiting a CHEF effect which reaches its maximum values (seven times those of the free ligand) at pH 9 with the [Zn₂H₋₂L2]²⁺ species, thus highlighting the sensing properties of this new chemosensor towards Zn(II).     

Effect of p-aminophenols on tyrosinase activity

Tyrosinase is involved in the synthesis of melanin in the skin and hair as well as neuromelanin in the brain. This rate limiting enzyme catalyzes two critical steps (reactions) in melanogenesis; the hydroxylation of tyrosine to form DOPA and the subsequent oxidation of DOPA into dopaquinone. Several new aminophenol derivatives have been synthesized based on structure–activity relationship studies of N-(4-hydroxyphenyl)retinamide (1), a derivative of retinoic acid. In order to find new tyrosinase inhibitors, we investigated the effects of these p-aminophenols, including p-decylaminophenol (3), on the activity of mushroom tyrosinase. Compound 3 was the most potent agent, showing significant inhibition as compared with control. The inhibitory effects of 3 on tyrosinase activities were greater than seen with kojic acid, a well-known potent inhibitor of tyrosinase activity, which also causes adverse effects, including rash and dermatitis. A Lineweaver–Burk kinetic analysis of inhibition showed that 3 suppresses tyrosinase activity in a non-competitive fashion for both substrates, tyrosine and DOPA. These results suggest that 3 might be a useful alternative to kojic acid as a tyrosinase inhibitor.     

Chloroplast membrane conformational changes measured by chemical modification

The chemical modification reagents iodoacetic acid (primarily sulfhydryl group directed) and acetic anhydride (primarily amino group directed) were used to monitor chloroplast thylakoid membrane conformational changes. The incorporation of [³H]-iodoacetate and [³H]acetic anhydride showed the following pattern: (i) There was an increased level of binding of iodoacetate in the light compared to the dark or light plus 2,4-dichlorophenyl-1,1-dimethyl urea (DCMU) conditions. A 30 to 50% increase, from about 1.0 to 1.3–1.5 nmol/mg of Chl in iodoacetate incorporation, was found; 30–50% less acetic anhydride was bound in the light than in the dark or light plus DCMU state, typical values being near 15 nmol of acetic anhydride bound/mg of Chl in the dark and 10 nmol/mg of Chl in the light, (ii) The incorporation pattern for both reagents indicated that Photosystem II-dependent proton release is required to elicit the differential binding. Evidence for this is: (a) Cyclic electron flow and proton accumulation, mediated by phenazine methosulfate in the presence of a Photosystem II inhibitor (DCMU), did not induce either the extra binding of iodoacetate or the decrease in binding of acetic anhydride; (b) in chloroplasts made deficient in water oxidation by NH₂OH treatment, electron flow from I^?, an alternate Photosystem II electron donor, to methyl viologen did not induce the differential binding, whereas with the proton-donating donor, diphenyl carbazide, Photosystem II electron flow did elicit the differential binding, (iii) Uncouplers of phosphorylation (nigericin plus valinomycin) had no affect on the differential binding of either reagent, consistent with the hypothesis that it is not simply a transmembrane proton gradient that potentiates the conformational change, but rather an intramembrane reaction between protons released by Photosystem II and certain membrane components. The lack of uncoupler effect also suggests that the conformational change does not involve the coupling factor complex, at least not in the same sense as for the coupling factor conformational changes detected by tritium exchange (I. J. Ryrie and A. T. Jagendorf, 1971, J. Biol. Chem.246, 582–588) or N-ethyl maleimide binding (R. E. McCarty et al., 1972, J. Biol. Chem.247, 3048–3051). (iv) The decrease in acetic anhydride binding in the light was independent of the structural state of the chloroplast. Stacked and unstacked (by low salt) grana membranes showed similar light-dependent decreases in acetic anhydride binding. The results with these modification reagents support earlier conclusions about a Photosystem II-linked conformational change based on work with diazonium benzenesulfonic acid (R. Giaquinta et al., 1975, Biochemistry14, 4392–4396).     

A new phenylpropanoid glycoside from the bark of Streblus ilicifolius (Vidal) Corner

A new compound, pheglycoside A (1), along with four known aromatic glycosides (2-5) and three known lignan glycosides (6–8) were isolated from Streblus ilicifolius (Vidal) Corner. The structure of compound 1 was determined by spectral analyses, including HRESIMS, 1D, and 2D NMR (COSY, HSQC, and HMBC) experiments. The absolute configuration of compound 1 was determined using the CD spectrum and experiment data. From the present investigation, all these compounds were isolated for the first time from S. ilicifolius. It is interesting that phenylpropanoid glycoside and aromatic glycosides are reported for the first time in the genus Streblus. The chemotaxonomic significance of these compounds was summarized.