The inhibitory effect of tavaborole on the invasion of Botrytis cinerea in grapes and tomatoes, as well
as the potential mechanism involved, was discovered in this study.
Our findings showed that tavaborole inhibited Botrytis
cinerea spore germination and mycelial expansion in
vitro and that the control efficiency in vivo on fruit decay was dose-dependent,
which was effective in reducing disease severity and maintaining the
organoleptic quality of the fruit, such as reducing weight loss and
retaining fruit hardness and titratable acid contents during storage.
Furthermore, the precise mechanism of action was investigated further.
Propidium iodide staining revealed that Botrytis cinerea treated with tavaborole lost membrane integrity. For further validation,
cytoplasmic malondialdehyde accumulation and leakage of cytoplasmic
constituents were determined. Notably, the inhibitory effect was also
dependent on inhibiting the activities of aminoacyl-tRNA synthetases
involved in the aminoacyl-tRNA biosynthesis pathway in Botrytis cinerea. The above findings concluded that
tavaborole was effective against Botrytis cinerea infection in postharvest fruit, and a related mechanism was also
discussed, which may provide references for the drug repurposing of
tavaborole as a postharvest fungicide.
This study evaluated the relationships between parity and the age at menopause and menopausal syndrome among Chinese women in Gansu. A total of 7236 women aged 40 to 55 years met study eligibility criteria. The modified Kupperman Menopausal Index scale was used to assess the severity of menopausal syndrome. Cox regression was applied to estimate hazard ratio and 95% confidence interval, and logistic regression was performed to calculate odds ratio and confidence interval. The mean age at menopause was 47.91 ± 3.31 years. There is no relationship between parity and age at menopause. Women with nulliparity or multiparity seemed to have higher risks of moderate and severe menopausal syndrome. The potential beneficial effects of 1 or 2 births on menopausal syndrome were also observed by applying the multivariable logistic regression analysis, particularly in urogenital symptoms. Women with nulliparity and multiparity appeared to be at the higher risks of menopause syndrome.
BACKGROUND: The resistance of traditional chemical fungicides to plant pathogenic fungi and the threats to the safety of humans and the environment highlight an urgent need to find safe and efficient alternatives to chemical fungicides. Owing to the wide spectrum of antifungal activities, low persistence and nontoxicity to mammals and aquatic life, essential oils have considerable potential as low-risk pesticides. In this study, the essential oil and the main components of Angelica sinensis (Oliv.) Diels (Danggui) were extracted, analyzed by GC-MS, and evaluated for their antifungal activities against six plant pathogenic fungi.RESULTS: 3-butylidenephthalide (3-BPH) showed the best antifungal activity against Fusarium graminearum with an EC 50 value of 14.35 ∼g mL −1 . The antifungal mechanistic studies revealed that 3-BPH induced the generation of endogenous ROS to cause lipid peroxidation of the cell membrane and inhibited the biosynthesis of ergosterol, thereby causing the cell membrane damaged to exert its fungicidal activity. Significantly, 3-BPH could reduce deoxynivalenol production compared to the control.CONCLUSION: This study demonstrated the potent fungicidal activity of natural phthalide compound 3-BPH and highlighted its potential as an alternative agent to control F. graminearum.
In
this work, a series of derivatives with disulfide bonds containing
pyridine, pyrimidine, thiophene, thiazole, benzothiazole, and quinoline
were designed and synthesized based on the various biological activities
of allicin disulfide bond functional groups. The antimicrobial activities
of the target compounds were determined, and the structure–activity
relationships were discussed. Among them, compound S8 demonstrated the most potent antifungal activity in vitro against Monilinia fructicola (M. fructicola), with an EC50 value of 5.92 μg/mL. Furthermore,
an in vivo bioassay revealed that compound S8 exhibited
equivalent curative and higher protective effects as the positive
drug thiophanate methyl at a concentration of 200 μg/mL. The
preliminary mechanism experiments showed that compound S8 could inhibit the growth of M. fructicola’ s hyphae in a time- and concentration-dependent manner,
and compound S8 could induce the shrinkage of hyphae,
disrupt the integrity of the plasma membrane, and cause the damage
and leakage of cell contents. More than that, compound S5 also demonstrated an excellent antibacterial effect on Xanthomonas oryzae (X. oryzae), with a MIC90 value of 1.56 μg/mL, which was superior
to the positive control, thiodiazole copper.
Phytopathogenic bacteria are a major cause of crop mortality and yield reduction, especially in field cultivation. The lack of effective chemistry agri-bactericides is responsible for challenging field prevention and treatment, prompting the development of long-lasting solutions to prevent, reduce, or manage some of the most devastating plant diseases facing modern agriculture today and in the future. Therefore, there is an urgent need to find lead drugs preventing and treating phytopathogenic bacterial infection. Drug repurposing, a strategy used to identify novel uses for existing approved drugs outside of their original indication, takes less time and investment than Traditional R&D Strategies in the process of drug development. Based on this method, we conduct a screen of 700 chemically diverse and potentially safe drugs against
Xanthomonas oryzae
PV
. oryzae
ACCC 11602 (
Xoo
),
Xanthomonas axonopodis
PV
. citri
(
Xac
), and
Pectobacterium atrosepticum ACCC
19901 (
Pa
). Furthermore, the structure-activity relationship and structural similarity analysis of active drugs classify potent agri-bactericides into 8 lead series: salicylanilides, cationic nitrogen-containing drugs, azole antifungals,
N
-containing group, hydroxyquinolines, piperazine, kinase inhibitor and miscellaneous groups. MIC values were evaluated as antibacterial activities in this study. Identifying highly active lead compounds from the screening of approved drugs and comparison with the currently applied plant pathogenic bactericide to validate the bactericidal activity of the best candidates and assess if selected molecules or scaffolds lead to develop new antibacterial agents in the future. In conclusion, this study provides a possibility for the development of potent and highly selective agri-bactericides leads.
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