On the basis of the scaffolds widely used in drug design, a series of novel spirooxindole derivatives containing hydantoin, thiohydantoin, urea, and thiourea moieties have been designed, synthesized, characterized, and first evaluated for their biological activities. The diastereoselectivity mechanism is proposed, and the systematic conformational analysis is performed. The bioassay results show that the target compounds possess moderate to good antiviral activities against tobacco mosaic virus (TMV), among which compound 22 shows the highest antiviral activity in vitro as well as inactivation, curative, and protection activities in vivo (45
On the basis of the mechanism of
acylhydrazone compounds inhibiting
the assembly of TMV CP and the unique structural characteristics of
diketopiperazine ring, a series of optically pure indole diketopiperazine
acylhydrazone were designed and synthesized. In order to systematically
study the effect of the spatial configuration of the compounds on
the antiviral activity, four compounds with different spatial configurations
at C6 and C12a were also prepared. The bioassay results
indicated that most of these new compounds displayed moderate to good
antiviral activity, among which compounds 23, 25, 27, 28, 31, and 5d showed a significantly higher activity than that of commercial ribavirin.
An in-depth structure–activity relationship investigation showed
that the spatial conformation was one of the most important factors
in adjusting antiviral activity; the research results provided information
about the possible optimum configuration for interaction of this molecular
with its target protein. At the same time, these new compounds also
exhibited broad-spectrum fungicidal activities against 14 kinds of
phytopathogenic fungi. What’s more, some of these compounds
exhibited good insecticidal activity to Plutella xylostella and Culex pipiens pallens.
Four new polycyclic polyprenylated acylphloroglucinol type metabolites, hypercohones D–G (1–4), along with four known analogues (5–8), were isolated from the aerial parts of Hypericum cohaerens. The structures of these isolates were elucidated by extensive spectroscopic methods. The inhibitory activities of these isolates against five human cancer cell lines in vitro were also tested.Graphical AbstractElectronic supplementary materialThe online version of this article (doi:10.1007/s13659-014-0007-5) contains supplementary material, which is available to authorized users.
Presently, chemical agents remain the main antimildew agents for bamboo, which has a certain negative impact on the environment and human health. Therefore, it is urgent to develop new environment-friendly antimildew agents for bamboo. Here, citral, an environment-friendly natural antibacterial agent, was used as an antimildew agent for bamboo. The orthogonal test was used to explore the effects of citral concentration, impregnation pressure, and pressurization time on the drug loading capacity of treated bamboo strips. The effect of antimildew-treated bamboo strips on bamboo mold was also discussed. Furthermore, the Fourier transform infrared spectroscopy and ultraviolet spectrophotometer were used to investigate the distribution of citral in bamboo strips. Results showed that the optimum technological parameters of citral mildew-proof treatment of bamboo were as follows: citral concentration: 0.795 mg/ml, impregnation pressure: 0.3 MPa, and pressurization time: 90 min. Also, citral was easy to volatilize, which decreased the citral content of bamboo strips after vacuum drying and showed the trend of a lower surface layer and a higher inner layer. The concentration of citral therefore had a significant effect on the drug loading of the antimildew-treated bamboo strips. Thus, it was difficult to achieve effective prevention and control of bamboo mold when bamboo strips were impregnated with a lower concentration of citral solution. When the concentration of citral reached 200 mg/ml, the prevention and antimold efficiency of antimildew bamboo strips reached over 100%. This study will provide references for the development and application of environment-friendly natural antibacterial agents in the field of bamboo mildew prevention.
Based
on the widespread use of hydrogen bonds in drug
design, a series of aldisine derivatives containing oxime, oxime ether,
and hydrazone moieties were designed and synthesized, and their antiviral,
larvicidal, and fungicidal activities were evaluated for the first
time. The bioassay results showed that most of these derivatives were
active against tobacco mosaic virus (TMV). Hydrazone derivative 12 showed in vivo inactivation, curative,
and protection activities of 52 ± 4, 49 ± 1, and 52 ±
3% at 500 mg/L, which are comparable to that of the commercial antiviral
drug ningnanmycin (57 ± 3, 56 ± 2, and 59 ± 1%, respectively)
at the same dose. The antiviral mechanism study showed that compound 12 could cause 20S CP (coating protein) disk fusion and disintegration,
thus affecting the assembly of virus particles. The result of molecular
docking indicated that there were obvious hydrogen bonds between compound 12 and TMV CP. Most derivatives were active against larvae
of lepidopteran pests, such as Mythimna separata, Pyrausta nubilalis, and Plutella xylostella. Some compounds also exhibited
larvicidal activities against Culex pipiens; among them compounds 9 and 13 exhibited
larvicidal activities of 0.81 and 1.54 mg/L (LC50), respectively.
Moreover, most of the derivatives showed broad-spectrum fungicidal
activities against 14 kinds of phytopathogenic fungi at 50 mg/L.
The aim of this study was to overcome drawbacks of the inhomogeneous dispersion and facile agglomeration of nano-ZnO/poly(N-isopropylacrylamide) composite hydrogels (nano-ZnO/PNIPAm composite hydrogels) during synthesis and improve the anti-mold property of the nano-ZnO/PNIPAm composite hydrogels. Here, nano-ZnO/PNIPAm composite hydrogels were prepared by the radical polymerization method. Fourier transform infrared (FTIR) spectroscopy, transmission electron microscopy (TEM), differential scanning calorimeter (DSC), and dynamic light scattering (DLS) were used to characterize the effects of different dispersants on the particle sizes, dispersions, and phase transition characteristics of the nano-ZnO/PNIPAm composite hydrogels. The anti-mold properties of nano-ZnO/PNIPAm composite hydrogels were studied. Results revealed that the nano-ZnO/PNIPAm composite hydrogel prepared by the addition of nano-ZnO dispersion liquid exhibited the smallest particle size, the most homogeneous dispersion, and the highest stability. The addition of the dispersant did not change the phase transition characteristics of nano-ZnO/PNIPAm, and the nano-ZnO/PNIPAm composite hydrogels (Pf) exhibited good anti-mold properties to the bamboo mold.
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