黑曲霉接触酪醇后的总转录组反应

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-20 DOI:10.1016/j.funbio.2024.01.003
Ágnes Jakab , Kinga Csillag , Károly Antal , Imre Boczonádi , Renátó Kovács , István Pócsi , Tamás Emri
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引用次数: 0

摘要

虽然酪醇是念珠菌的一种法定人数感应分子,但它在超生理浓度下具有抗真菌活性。在此,我们研究了酪醇对黑曲霉生理和全基因组转录的影响,以深入了解该化合物抗真菌活性的背景。酪醇浓度为35毫摩尔时,可有效减少分生孢子的萌发和在各种碳源上的生长。对葡萄糖的生长抑制是杀真菌性的,而不是杀真菌性的,伴随着与有丝分裂细胞周期、糖酵解、硝酸盐和硫酸盐同化、甲壳素生物合成等有关的 2199 个基因的下调,以及与脂质分解、氨基酸降解和乳糖利用等有关的 2250 个基因的上调。酪醇处理还上调了编码谷胱甘肽-S-转移酶(GSTs)的基因,提高了特定的GST活性和细胞中的谷胱甘肽(GSH)含量,这表明裸头蚁能以依赖GSH的方式解毒酪醇,尽管这一过程很微弱。酪醇不会诱发该物种的氧化应激,但会上调 "对营养水平的反应"、"氮利用的调节"、"碳代谢产物激活转录 "和 "自噬 "基因。酪醇可能扰乱了细胞新陈代谢的调节和协调,导致养分利用受损,从而导致生长下降。
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Total transcriptome response for tyrosol exposure in Aspergillus nidulans

Although tyrosol is a quorum-sensing molecule of Candida species, it has antifungal activity at supraphysiological concentrations. Here, we studied the effect of tyrosol on the physiology and genome-wide transcription of Aspergillus nidulans to gain insight into the background of the antifungal activity of this compound. Tyrosol efficiently reduced germination of conidia and the growth on various carbon sources at a concentration of 35 mM. The growth inhibition was fungistatic rather than fungicide on glucose and was accompanied with downregulation of 2199 genes related to e.g. mitotic cell cycle, glycolysis, nitrate and sulphate assimilation, chitin biosynthesis, and upregulation of 2250 genes involved in e.g. lipid catabolism, amino acid degradation and lactose utilization. Tyrosol treatment also upregulated genes encoding glutathione-S-transferases (GSTs), increased specific GST activities and the glutathione (GSH) content of the cells, suggesting that A. nidulans can detoxify tyrosol in a GSH-dependent manner even though this process was weak. Tyrosol did not induce oxidative stress in this species, but upregulated “response to nutrient levels”, “regulation of nitrogen utilization”, “carbon catabolite activation of transcription” and “autophagy” genes. Tyrosol may have disturbed the regulation and orchestration of cellular metabolism, leading to impaired use of nutrients, which resulted in growth reduction.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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