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991.
《Cryobiology》2019
We have looked at the effects of the cryoprotectant M22 upon viability in the model organism C. elegans. M22 is a well-known vitrification solution which has been successfully used in the laboratory to preserve organs destined for transplantation. M22 reduces survival of C. elegans in a concentration-dependent manner. M22 at concentrations of 10% (v/v) or higher inhibits progeny production and development. A few mutants in the ILS (insulin-like signaling) pathway of C. elegans are more resistant to the toxic effect of M22 compared to wild-type worms. Afatinib, an anti-cancer drug, protects against M22 toxicity. Afatinib by itself does not increase longevity. 相似文献
992.
The overexpression of P-glycoprotein plays an important role in the process of multidrug resistance (MDR). P-gp inhibitors are one of the effective strategies to reverse tumor MDR. Novel P-gp inhibitors with phthalazinone scaffolds were designed, synthesized and evaluated. Compound 26 was found to be the most promising for further study. Compound 26 possessed high potency (EC50 = 46.2 ± 3.5 nM) and low cytotoxicity.26 possessed high MDR reversal activity towards doxorubicin-resistant K56/A02 cells. Reversal fold (RF) value reach to 44.26. 26 also increased accumulation of doxorubicin (DOX or ADM) or other MDR-related anticancer drugs with different structures. In conclusion, compound 26 deserves more research for its good features as P-gp inhibitor. 相似文献
993.
《Revista Brasileira de Entomologia》2019,63(4):283-289
Plant indirect induced defenses against herbivores are characterized by the production of plant volatiles that to attract natural enemies. The objective of this study was to evaluate whether the attack of the two-spotted spider mite Tetranychus urticae or the multiple herbivory of T. urticae together with the fall armyworm Spodoptera frugiperda are able to elicit indirect induced defense in conventional and Bt maize plants. The experiment was carried out in the laboratory using Y-tube olfactometer, evaluating the predatory mite Neoseiulus californicus olfactory preference for plant volatiles. The treatments involved: Clean Conventional Plant; Conventional Plant Infested with T. urticae; Clean Bt Plant; Bt Plant Infested with T. urticae; Conventional Plant Infested with T. urticae + fall armyworm; Bt Plant Infested with T. urticae + fall armyworm. For the chemical analyzes the Trace GC Ultra gas chromatograph was used, paired with the Polaris Q mass spectrometer, GCMS system. Neoseiulus californicus was also unable to distinguish between volatiles from both conventional and Bt infested maize plants. Moreover, there was no discrimination of the predator mite between plants under single and multiple infestations, both in conventional and Bt maize. When comparing conventional and Bt plants, both with multiple infestation, the predator mite N. californicus had no preference among these sources of odors. However, there was observed chemical changes of the volatiles among the groups of plants studied. Thus, it is suggested that the groups of plants under study have chemical modifications, but they are not able to attract N. californicus. In addition, Bt plants response was similar to conventional plants on attracting N. californicus. 相似文献
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Almuth Hammerbacher Teresa A. Coutinho Jonathan Gershenzon 《Plant, cell & environment》2019,42(10):2827-2843
Plants emit a large variety of volatile organic compounds during infection by pathogenic microbes, including terpenes, aromatics, nitrogen‐containing compounds, and fatty acid derivatives, as well as the volatile plant hormones, methyl jasmonate, and methyl salicylate. Given the general antimicrobial activity of plant volatiles and the timing of emission following infection, these compounds have often been assumed to function in defence against pathogens without much solid evidence. In this review, we critically evaluate current knowledge on the toxicity of volatiles to fungi, bacteria, and viruses and their role in plant resistance as well as how they act to induce systemic resistance in uninfected parts of the plant and in neighbouring plants. We also discuss how microbes can detoxify plant volatiles and exploit them as nutrients, attractants for insect vectors, and inducers of volatile emissions, which stimulate immune responses that make plants more susceptible to infection. Although much more is known about plant volatile–herbivore interactions, knowledge of volatile–microbe interactions is growing and it may eventually be possible to harness plant volatiles to reduce disease in agriculture and forestry. Future research in this field can be facilitated by making use of the analytical and molecular tools generated by the prolific research on plant–herbivore interactions. 相似文献
996.
【背景】沙门菌的多重耐药现象日渐严重,对其耐药机理的研究尤为迫切,双组分系统与细菌耐药性密切相关。【目的】构建鼠伤寒沙门菌baeSR基因缺失株及回补株,探究双组分系统BaeSR对鼠伤寒沙门菌耐药性的影响。【方法】以鼠伤寒沙门菌体外诱导耐药株CR为研究对象,通过自杀质粒p LP12介导的同源重组方法,以氯霉素抗性标记和阿拉伯糖诱导的致死基因vmt进行正、反向双重筛选,获得基因缺失株CRΔbaeSR,并将重组表达质粒pBAD-baeSR转化于CRΔbaeSR构建回补株CR CΔbaeSR。采用微量肉汤稀释法测定11种常见代表药物对野生株、缺失株及回补株的最小抑菌浓度(Minimum inhibitory concentration,MIC),并测定3株菌的生长曲线、运动性及生物膜形成能力。【结果】与野生株相比,环丙沙星(CIP)、恩诺沙星(ENR)、沙拉沙星(SAR)、头孢噻呋(CEF)、庆大霉素(GEN)、阿米卡星(AMK)、安普霉素(APR)对缺失株的MIC值有所下降;缺失株的生长速率稍显缓慢,且最终浓度也相对较低,但并无统计学上的显著差异(P0.05);缺失株的运动性(P0.05)及生物膜形成能力(P0.01)均显著下降。【结论】鼠伤寒沙门菌baeSR基因缺失后,可通过影响其运动性及生物膜形成能力而对抗生素的敏感性产生影响。 相似文献
997.
【背景】随着越来越多超级细菌出现和抗生素资源的渐渐枯竭,细菌耐药机制研究愈加重要。【目的】探讨大肠杆菌内源半胱氨酸推动Fenton反应,调控胞内的活性氧水平,从而影响细菌耐药性这一代谢途径。【方法】在贫硫的培养条件下,通过控制外源胱氨酸和抗生素浓度,研究了胱氨酸/半胱氨酸对大肠杆菌耐药性的影响。【结果】较低水平的半胱氨酸使大肠杆菌对抗生素的耐药性增强,RNA-Seq的结果证明了胱氨酸内流对Fur、CysB和SOS的调控作用。LC-MS对外流硫醇的分析显示,细胞会快速将过量内流的半胱氨酸泵出胞外。在抗生素一定浓度范围内,半胱氨酸外排泵AlaE表现出良好的细胞保护作用。【结论】大肠杆菌对不同作用机理抗生素硫酸庆大霉素、氨苄青霉素和诺氟沙星的耐药性均受内源半胱氨酸水平的影响。本文通过研究半胱氨酸调控活性氧代谢对大肠杆菌耐药性的影响,为探讨细菌耐药性机制提供新的理论依据。 相似文献
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