Succinate dehydrogenase (SDH) is regarded as a promising target for fungicide discovery. To continue our ongoing studies on the discovery of novel SDH inhibitors as fungicides, novel pyrazole−thiazole carboxamides were designed, synthesized, and evaluated for their antifungal activity. The results indicated that compounds 9ac, 9bf, and 9cb showed excellent in vitro activities against Rhizoctonia cerealis with EC 50 values from 1.1 to 4.9 mg/L, superior to that of the commercial fungicide thifluzamide (EC 50 = 23.1 mg/L). Compound 9cd (EC 50 = 0.8 mg/L) was far more active than thifluzamide (EC 50 = 4.9 mg/L) against Sclerotinia sclerotiorum. Compound 9ac exhibited promising in vivo activity against Rhizoctonia solani (90% at 10 mg/L), which was better than that of thifluzamide (80% at 10 mg/L). The field experiment showed that compound 9ac had 74.4% efficacy against Rhizoctonia solani on the 15th day after two consecutive sprayings at an application rate of 4.80 g a.i./667 m 2 , which was close to that of thifluzamide (83.3%). Furthermore, molecular docking explained the possible binding mode of compound 9ac in the RcSDH active site. Our studies indicated that the pyrazole−thiazole carboxamide hybrid is a new scaffold of SDH inhibitors.
Organic and inorganic salts of the hexacyano-[3]-radialene anion-radical are readily available and thermally stable compounds (up to ∼180 °C). The tetrabutylammonium salt exhibits an extremely high solubility in a range of solvents (>300 mg l in CHCl) and acts as an efficient p-dopant for poly(3-hexylthiophene) to provide composite films with a conductivity above 2 S cm.
A novel method for obtaining cross-linked microgels of apple pectin has been introduced. This method is based on the Ugi four-component condensation in colloidal suspensions of pectinic acid and amines. Using various processing parameters (the polysaccharide concentration, the type and density of crosslink, and the optimal pH range), particles with controlled colloidal properties have been obtained. Lightly cross-linked polysaccharide chains acquire anionic character due to deprotonation of the carboxyl groups at pH9-10. Increasing the degree of cross-linking leads to a polyampholyte microgel, which can be protonated in acidic medium or deprotonated in basic medium. Polyampholyte microgels derived from apple pectin have proved to be an effective Pickering emulsifier at low concentrations and pH2-3, forming stable oil-in-water emulsions. These Pickering emulsions exhibited pH-responsive behavior: raising the solution pH to 10 resulted in immediate demulsification due to the destabilization of microgel network at the oil-water interface.
High yield solvent-base-controlled, transition metal-free synthesis of 4,5-functionalized 1,2,3-thiadiazoles and 1,2,3-triazoles from 2-cyanothioacetamides and sulfonyl azides is described. Under diazo transfer conditions in the presence of a base in an aprotic solvent 2-cyanothioacetamides operating as C-C-S building blocks produce 5-amino-4-cyano-1,2,3-thiadiazoles exclusively. The use of alkoxide/alcohol system completely switches the reaction course due to the change of one of the reaction centers in the 2-cyanothioacetamide (C-C-N building block) resulting in the formation of 5-sulfonamido-1,2,3-triazole-4-carbothioamide sodium salts as the only products. The latter serve as good precursors for 5-amino-1,2,3-thiadiazole-4-carboximidamides, the products of Cornforth-type rearrangement occurring in neutral protic medium or under acid conditions. According to DFT calculations (B3LYP/6-311+G(d,p)) the rearrangement proceeds via intermediate formation of a diazo compound, and can be catalyzed by acids via the protonation of oxygen atom of the sulfonamide group.
Lead discovery and molecular target identification are
important
for developing novel pesticides. Scaffold hopping, an effective approach
of modern medicinal and agrochemical chemistry for a rational design
of target molecules, is aiming to design novel molecules with similar
structures and similar/better biological performance. Herein, 24 new
ferimzone derivatives were designed and synthesized by a scaffold-hopping
strategy. In vitro bioassays indicated that compound 5o showed similar potency to ferimzone against Cercospora arachidicola and 2-fold higher potency than ferimzone against Alternaria
solani. Compounds 5q, 6a, and 6d displayed fungicidal activity with EC50 values
ranging from 1.17 to 3.84 μg/mL against Rhizoctonia
solani, and compounds 5q and 6a displayed 1.6–1.8-fold higher activity than ferimzone against Fusarium graminearum. The in vivo bioassays at 200 μg/mL
indicated that compound 5q was more potent than ferimzone
against Pyricularia oryzae (90% vs 70% efficacy,
respectively). Density functional theory (DFT) calculations elucidated
the structure–energy relationship. Although the mode of action
of ferimzone is still unclear, studies suggested that compound 5q significantly inhibited the growth and reproduction of R. solani, and its energy metabolism pathways (e.g., starch,
sucrose, lipids, and glutathione) were seriously downregulated after
a 5q treatment.
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