Synthesis and insecticidal activities of novel derivatives of podophyllotoxin: Part XII

In order to find the biorational pesticides, eight novel 4β-substituted phenoxyaniline derivatives of podophyllotoxin have been synthesized with significant stereoselectivity and improved yields by employing the BF₃·Et₂O/NaI reagent system and evaluated for their antifeedant effect against 5th instar larvae of Pieris rapae and effect on the development of 5th instar larvae of P. rapae as well as for insecticidal activity against P. rapae. The antifeedant activities showed that these compounds exhibited less potent than podophyllotoxin. Though these derivatives showed less potent antifeedant activities than podophyllotoxin, they acted as growth development inhibitor to 5th instar larvae of P. rapae, which were found that the animals treated with podophyllotoxin and its derivatives showed moulting disturbances and/or deformities. Also, the insecticidal activity results show that all of these derivatives of PPT showed delayed insecticidal activity, which differs from traditional neurotoxic insecticides. Among them, compounds possessing a 4β-phenoxyaniline moiety substituted (CO₂C₂H₅, Cl and OH) at para position exhibited greater insecticidal activity against P. rapae than podophyllotoxin.     

Fungicidal activity of a series of 1-substituted-1-aryl-2-triazol-1-yl-ethanols

Twenty-four I-substituted-I-aryl-2-triazol-I-yl-ethanols were prepared by the reaction between acetylenic, propargylic or allylic organometallics and aryl triazolylmethyl ketones. These were tested for antifungal activity against ten phytopathogenic fungi of different taxonomic classes. EC₈₀ values were determined for the seven most active compounds and for two commercial compounds, hexaconazole and flusilazole. In these tests, the fungicidal activity of the new compounds was generally lower than that of the two reference triazoles except for two products which were more active than hexaconazole and flusilazole against powdery mildew on barley.     

20-(S)-喜树碱7-C-取代衍生物的合成及杀松材线虫活性研究

为研究喜树碱(CPT)类化合物的杀线虫活性,以喜树碱为原料,经烷基化、氧化、酯化等步骤合成了13个7-C-取代的20-(S)-喜树碱衍生物,其中化合物 14 未见文献报道,所有衍生物的结构经红外光谱(FT-IR)、核磁共振氢谱(1H NMR)和液-质联用(LC-MS)等分析手段进行了表征。采用浸渍法测定了化合物对松材线虫Bursaphelenchus xylophilus的毒杀活性。结果表明:与母体化合物喜树碱相比,7-C-取代的20-(S)-喜树碱衍生物具有更强的杀线虫活性,其中化合物7-苄基喜树碱、7-甲酰基喜树碱、7-苯甲酰氧甲基喜树碱在24 h的致死中浓度(LC50值)分别为2.28、2.21和1.37 mg/L,明显高于母体化合物喜树碱的LC50值12.18 mg /L。     

Synthesis of novel derivatives of camptothecin as potential insecticides

In an attempt to find the biorational pesticides, a series of novel camptothecin derivatives were synthesized via a simple modification of the carbodiimide method using the combination of scandium triflate (Sc(OTf)₃) and 4-dimethylaminopyridine (DMAP), and their structures were identified by IR, ESR, HRMS and ¹H NMR. Their antifeedant effect and insecticidal activity against third-instar larva of Mythimna separate were examined. The results of preliminary bioassays showed that these compounds exhibited less potent antifeedant activity than camptothecin. Also, all of these derivatives of camptothecin showed delayed insecticidal activity, which differs from traditional neurotoxic insecticides. The results suggested that 20-hydroxyl group in the camptothecin derivatives is essential to keep the insecticidal activity and nature of the substitutes has a major impact on insecticidal activity of these compounds.     

Comparative antifungal activities and biochemical effects of monoterpenes on plant pathogenic fungi

The antifungal activity of twelve monoterpenes, camphene, (R)-camphor, (R)-carvone, 1,8-cineole, cuminaldehyde, (S)-fenchone, geraniol, (S)-limonene, (R)-linalool, (1R,2S,5R)-menthol, myrcene and thymol was evaluated against four plant pathogenic fungi Rhizoctonia solani, Fusarium oxysporum, Penecillium digitatum and Asperigallus niger by using mycelial growth inhibitory technique. (S)-limonene and thymol were examined for their inhibitory effects on pectin methyl esterase (PME), cellulase and polyphenol oxidase (PPO) of tested fungi. Thymol was the most potent antifungal compound against the four test fungi with EC₅₀ values of 33.50, 50.35, 20.14 and 23.80 mg/L on R. solani, F. oxysporum, P. digitatum and A. niger, respectively. The antifungal activity of thymol was comparable to a reference fungicide, carbendazim. (S)-limonene and 1,8-cineole exhibited pronounced antifungal activity against the four tested fungi. The most effective antifungal compounds thymol and (S)-limonene showed strong inhibitory effect on the activity of PME and cellulase but revealed no inhibitory effect on PPO. The results showed that PME was more sensitive than cellulase to thymol and (S)-limonene. This is the first report on the inhibitory effects of monoterpenes thymol and (S)-limonene on PME, cellulase and PPO. The results indicated that monoterpenes may cause their antifungal activity by inhibiting PME and cellulase. The strong antifungal activity of thymol, (S)-limonene and 1,8-cineole reported in this study indicated that these compounds have a potential to be used as fungicides.     

Control efficacy against rice sheath blight of Platycladus orientalis extract and its antifungal active compounds

The control efficacy of Platycladus orientalis extract against Rhizoctonia sonali Kühn, the causal agent of rice sheath blight, was evaluated by pot experiments under greenhouse conditions, and the antifungal compounds were isolated and identified through antifungal bioassay-guided fractionation using R. sonali as a tested fungus. The results indicate that the extracts from P. orientalis exhibited a significant reduction in the severity of rice sheath blight. The petroleum ether fraction partitioned from the ethanolic crude extract, showing the highest antifungal activity, was further separated, and two diterpenoid compounds with antifungal property, totarol and sclareol, were isolated and identified from the active subfractions. Totarol and sclareol possessed antifungal activity against most of the tested fungal pathogens of cereal crops such as R. solani, R. cerealis and Fusarium graminearum, indicating a similar broad antifungal spectrum. These findings suggest that the P. orientalis extract and its derived active compounds may be promising candidate agents for controlling plant fungal diseases like rice sheath blight.     

Inhibition of fatty acid biosynthesis in isolated bean and maize chloroplasts by herbicidal phenoxy-phenoxypropionic acid derivatives and structurally related compounds

The effects of nine phenoxy-phenoxypropionic acid derivatives and structurally related compounds on the incorporation of [¹⁴C]-acetate into free fatty acids in isolated bean and maize chloroplasts were studied. The compounds tested were esters and the corresponding free acids, OH-diclofop, a nonherbicidal metabolite of diclofop in plants, and d and l enantiomers of diclofop. Fatty acid biosynthesis in bean chloroplasts was not affected by all compounds. OH-Diclofop had a weak inhibitory effect on fatty acid synthesis in maize chloroplasts, while free acids were stronger inhibitors than the corresponding esters in the same system. Uptake studies with diclofop-methyl and diclofop indicated that the esters showed higher uptake rates in chloroplasts suspension. d-Diclofop (I₅₀, 9 × 10^?8M) was a more potent inhibitor than l-diclofop (I₅₀, 4 × 10^?6M). This agrees with the low herbicidal activity of the l enantiomer in vivo. The results suggest that the mode of action in this type of herbicide may be closely linked with the inhibition of fatty acid biosynthesis. The tolerance of beans could be based on an insensitivity of the target site.     

Allylamine antimycotics: Recent trends in structure—activity relationships and syntheses

Methods developed for the synthesis of terbinafine-related allylamine antimycotics are reviewed. The synthesis of the en-yne side chains were generally accomplished by means of organometallic reactions. The use of Pd⁰-catalysed coupling reactions allowed easy access to derivatives bearing sensitive side-chain substituents. As examples, four metabolites of terbinafine were prepared via this procedure. Investigations with the carbon analogue of terbinafine revealed that, within the allylamine antimycotics, the nitrogen appears to be necessary for penetration by the drug into the fungal cell. Replacement of the naphthalene moiety of terbinafine by optionally substituted benzo[b]thiophenes led to a number of derivatives with high antifungal activity. A series of benzo[b]thienyl compounds with the side chain at position 7 and different substituents at position 3 showed significantly increased activity against Candida albicans in vitro. In particular, the 3-chloro derivative with the allylamine side chain at position 7(SDZ 87–469) proved to be the most potent allylamine antimycotic reported to this date. Two novel types of lead structures, the homopropargylamines and the benzylamines show very high activity in vitro.     

Neurophysiological activity and toxicity of pyrethroids derived by addition of methylene,sulfur or oxygen to the chrysanthemate 2-methyl-1-propenyl substituent

Conversion of chrysanthemates to their cyclopropane, episulfide, and epoxide derivatives by addition of methylene, sulfur, or oxygen, respectively, to the 2-methyl-1-propenyl double bond yields products generally of reduced toxicity but enhanced neurophysiological activity and photostability. The reduced toxicity is established with cis-cyphenothrin derivatives administered intracerebrally to mice and topically to house flies and with cis-phenothrin derivatives applied topically to American cockroaches and house flies, even in the presence of piperonyl butoxide for the house flies. In contrast, cyclopropane, episulfide, and epoxide derivatives of phenothrin are more potent than the parent compound in eliciting repetitive firing following stimulation of a cercal sensory nerve of the American cockroach in vitro. The individual 1′R and 1′S isomers of epoxides derived from (1R,cis,αS)cyphenothrin, (1R,cis)phenothrin, and (1R,trans)tetramethrin differ in potency by up to 20-fold for insecticidal activity, >30-fold for intracerebral toxicity to mice, and ～100,000-fold in the cercal sensory nerve assay. In each case the epoxide isomer of higher R_f is more potent than that of lower R_f when derived from a trans-chrysanthemate and vice versa from a cis-chrysanthemate.     

Synthesis and antifungal activity of new nitro-alcohol derivatives

Thirty-six new nitro-alcohol derivatives were synthesised. Tested in vitro against Helminthosporium sativum, the compounds had high antifungal activities; the EC₅₀ values varied between 10^?2 and 10^?6 M , and for the majority of the compounds between 10^?4 and 10^?6 M . The EC₅₀ values were calculated by probit analysis, except for the compounds with low activity, for which the values were estimated. Interesting relationships between the structure and antifungal action of the compounds were established.     

Evaluation of insecticidal activity of podophyllotoxin derivatives against Brontispa longissima

Twenty podophyllotoxin analogues were first tested for their insecticidal activity against the fifth-instar larvae of Brontispa longissima in vivo. Among them, compounds 6-9 and 19 showed more promising and pronounced insecticidal activity than toosendanin, a commercial insecticide derived from Melia azedarach. The different insecticidal activity ranges of compounds 1-20 indicated that variation of chemical structures in the podophyllotoxin skeleton markedly affected the activity profiles of this compound class, and some important SAR information has been revealed from it. The results obtained from SAR analysis show good correlation with the docking models as well as with QSAR studies, which allows for the rational design of more potent podophyllotoxin derivatives in the development of potential new insecticides.     

Evaluation of Gram-positive rhizosphere and endophytic bacteria for biological control of fungal rice (<Emphasis Type="Italic">Oryzia sativa</Emphasis> L.) pathogens

Gram-positive bacteria isolated from the rhizosphere and inside the roots of rice were characterized for plant growth promoting (PGP) traits and antifungal activity against some rice plant pathogenic fungi of rice. The results showed the endophytic and rhizosphere isolates had different PGP traits and antifungal activity. Only one rhizosphere isolate and one endophytic isolate showed highly inhibitory effects against the mycelial growth of all fungal rice pathogens tested in this study. The best bacterial isolates, based on multiple PGP traits and inhibitory effects against the mycelial growth of all fungal rice pathogens, were identified. Based on biochemical tests and by comparison of 16S rDNA sequences, the endophytic isolate REN₃ and the rhizosphere isolate REN₄ were closely related to Bacillus cereus and Bacillus mojavensis respectively. The broad-spectrum antifungal strains, the REN₃ and REN₄ isolates analyzed here, exert multiple PGP and antagonistic activity and represent an excellent option to be used as either potent bio-promoting or bio-control agents in rice under in vitro conditions. This application may help to minimize dependence on pesticides, which have adverse effects on the environment, finally leading to have sustainable environments. In conclusion, the results of antifungal activity showed rice harbors bacteria with a good potential in biocontrol of rice fungal pathogens.     

Antifungal bioactivity of 6-bromo-4-ethoxyethylthio quinazoline

In order to create novel potent antifungal agents, the antifungal effects of 6-bromo-4-ethoxyethylthio quinazoline on plant pathogenic fungi were evaluated by mycelial growth rate method. The bioassay results showed that title compound possesses high antifungal activities on fungi with EC₅₀ values ranging from 17.47 to 70.79 μg/mL. The mechanism of action of 6-bromo-4-ethoxyethylthio quinazoline against fungi was studied in Gibberella zeae model. After treated with title compound at 100 μg/mL for 12 h, the mycelial reducing sugar, chitosan, soluble protein and pyruvate content, chitinase activity showed declining tendency.     

Structure-activity relationships in a series of new antifungal nitroalcohol derivatives

The structure-antifungal activity correlations of 23 new nitroalcohol derivatives (1-substituted-2-nitropropane-1, 3-diols, their ethers and esters) were investigated using a generalised quantitative structure-activity relationships (QSAR) method, combining Golender and Rozenblit's logico-structural approach and the Free-Wilson and Hansch analyses. Based on results obtained from principal component analysis, the in-vitro activities against Helminthosporium sativum, the inhibition of germination and of growth could be assumed to be governed by a common mechanism. It is suggested that the antifungal activity of the compounds studied is determined mainly by the presence or absence of an aromatic ring (unsubstituted, or bearing a hydrophobic group that is small in bulk and electron-attracting) at position 1, of a (potential) double bond between carbon atoms 1 and 2, and of an acyloxy group at position 3. Among these factors, the double bond seems to be the most important, and the mechanism of the antifungal action is probably dependent on the reactivity of this bond towards thiol groups of endogenous substances.     

松油烯-4-醇酯类衍生物的合成及杀虫活性

松油烯-4-醇具有较高的生物活性,在前期研究基础上,以松油烯-4-醇为原料,对其羟基进行改造,合成了12个松油烯-4-醇酯类衍生物 Z1~Z12,其中Z3、Z4、Z8、Z9、Z10、Z11、Z12为新化合物。所有化合物的结构均经核磁共振氢谱、碳谱及质谱确证。初步杀虫活性测定结果表明:各化合物对粘虫均有一定的触杀作用,其中Z5 活性最高,其LD50值为0.072 8 mg/头,为松油烯-4-醇的1.32倍;除 Z9 外,其余11个化合物对家蝇均具有一定的熏蒸作用,但其毒力均低于松油烯-4-醇。     

Insect growth inhibition,antifeedant and antifungal activity of compounds isolated/derived from Zingiber officinale Roscoe (ginger) rhizomes

Fresh rhizomes of Zingiber officinale (ginger), when subjected to steam distillation, yielded ginger oil in which curcumene was found to be the major constituent. The thermally labile zingiberene‐rich fraction was obtained from its diethyl ether extract. Column chromatography of ginger oleoresin furnished a fraction from which [6]‐gingerol was obtained by preparative TLC. Naturally occurring [6]‐dehydroshogaol was synthesised following condensation of dehydrozingerone with hexanal, whereas zingerone and 3‐hydroxy‐1‐(4‐hydroxy‐3‐methoxyphenyl)butane were obtained by hydrogenation of dehydrozingerone with 10% Pd/C. The structures of the compounds were established by ¹H NMR, ¹³C NMR and mass (EI‐MS and ES‐MS) spectral analysis. The test compounds exhibited moderate insect growth regulatory (IGR) and antifeedant activity against Spilosoma obliqua, and significant antifungal activity against Rhizoctonia solani. Among the various compounds, [6]‐dehydroshogaol exhibited maximum IGR activity (EC₅₀ 3.55 mg ml ^?1) while dehydrozingerone imparted maximum antifungal activity (EC₅₀ 86.49 mg litre^?1). © 2001 Society of Chemical Industry     

Synthesis of D-glucosamine quaternary ammonium derivatives and evaluation of their antifungal activity together with aminodeoxyglucose derivatives against two wood fungi Coriolus versicolor and Poria placenta: structure-activity relationships

BACKGROUND: Structure–activity relationships are often reported in scientific studies. These may be employed in searching for new acceptable biocides to use against harmful microorganisms, because the biocides used hitherto encounter various problems, including lack of efficiency, high toxicity and persistence. Nowadays, scientists are trying to find new, environmentally acceptable biocides to replace these earlier biocides. Different compounds from renewable materials have been studied and have shown pronounced antifungal activity against wood fungi. These include aminopolysaccharide derivatives and different quaternary ammonium polymers. A biological study carried out with these products indicated a possible relationship between amino groups and differences in biological activity observed. RESULTS: In this study, an amino group was successively fixed to different carbon atoms of glucose, and glucosamine was also modified by both N‐alkylation and quaternisation. The impact of the amino group position on antifungal activity against two wood decay fungi was investigated. The amino group at the anomeric position showed the highest antifungal activity against both Coriolus versicolor Quel. and Poria placenta (Fr.) Cooke. Furthermore, the positive impact of both N‐alkylation and quaternisation on the growth of both strains was demonstrated. CONCLUSION: The anomeric position of the amino group and the N‐alkylation and quaternisation of amino sugars considerably increase the antifungal activity of these compounds. Copyright © 2010 Society of Chemical Industry     

Comparative effects of dichlobenil and its phenolic alteration products on photo- and oxidative phosphorylation

Effects of dichlobenil (2,6-dichlorobenzonitrile) and its phenolic degradation products (2,6-dichloro-3-hydroxybenzonitrile and 2,6-dichloro-4-hydroxybenzonitrile) were compared on electron transport and phosphorylation in isolated spinach (Spinacia oleracea L.) chloroplasts and mung bean (Phaseolus aureus Roxb.) mitochondria. In chloroplasts, the hydroxylated derivatives inhibited both photoreduction and coupled photophosphorylation with water as the electron donor and with ferricyanide as oxidant, and cyclic photophosphorylation with phenazine methosulfate as the electron mediator under an argon gas phase. In mitochondria, the phenolic derivatives acted as uncouplers of oxidative phosphorylation as evidenced by the stimulation of ADP-limited respiration, circumvention of oligomycin-inhibited non-ADP-limited respiration, and the induction of ATPase activity. Treatment of excised mung bean hypocotyls by the phenolic derivatives also resulted in a very rapid and drastic lowering of ATP levels. In all assays, only limited, if any, interference was expressed by dichlobenil even at relatively high molar concentrations.Inhibition of oxidative and photophosphorylation by the phenolic degradation products, but not by dichlobenil, suggests that if there is a delay between the formation of the hydroxylated compounds and their conjugation, photosynthesis and respiration will be inhibited. Because biochemical and physiological processes depend on oxidative and photophosphorylation for the energy (ATP) needed to drive the reactions, interference with ATP production could be one of the major mechanisms through which phytotoxicity is expressed by the phenolic degradation compounds of the herbicide, if they should accumulate in the free from. Species selectivity may be related to the rate of formation of the phenolic products in different plants and the rapidity of conjugate formation.     

Structure-activity relationships of 1,2,3-benzothiadiazole insecticide synergists as inhibitors of microsomal oxidation

The activities of 47 substituted 1,2,3-benzothiadiazoles as inhibitors of microsomal epoxidation and/or hydroxylation in enzyme preparations from rat liver or armyworm (Spodoptera eridania) gut have been evaluated. Many were found to be effective inhibitors of microsomal oxidation, the most active being the 6-butyl and 6-propoxy derivatives with I₅₀ values of 4.9 × 10^?7 and 7.0 × 10^?7M, respectively, for the epoxidation reaction. Regression analyses have established that activity of the 5-, 6-, and 5,6-substituted compounds can be satisfactorily described in equations in terms of π², π, and σ whereas that of the 4-substituted derivatives depends on π and the steric parameter E₈.     

Design, synthesis and antifungal/insecticidal evaluation of novel nicotinamide derivatives

A series of nicotinamide derivatives based on Boscalid were prepared and tested for their activities against seven plant pathogenic fungi and two insects. The preliminary bioassays indicated that almost all of the synthesized target compounds displayed the antifungal activities and some of them also had certain insecticidal activities. And, compound 12 showed the strongest activity of all against Rhizoctonia solani (EC₅₀ = 0.010 mg L⁻¹) and Sphaceloma ampelimum (EC₅₀ = 0.040 mg L⁻¹), even stronger than Boscalid, a new nicotinamide fungicide. Additionally, both compounds 1 and 2 showed strong activities against Plutella xylostella (90% and 80%, respectively, at 1000 mg L⁻¹).