l-tyrosine modulates biofilm formation of Bacillus cereus ATCC 14579

IF 2.5 4区 生物学 Q3 MICROBIOLOGY
Linda Huijboom , Marcel Tempelaars , Mingzhen Fan , Yourong Zhu , Sjef Boeren , Erik van der Linden , Tjakko Abee
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引用次数: 2

Abstract

Bacillus cereus is a food-borne pathogen capable of producing biofilms. Following analysis of biofilm formation by B. cereus ATCC 14579 transposon mutants in defined medium (DM), a deletion mutant of bc2939bc2939) was constructed that showed decreased crystal violet biofilm staining and biofilm cell counts. In addition, Δbc2939 also produced smaller colony biofilms with lower cell counts and loss of wrinkly morphology. The bc2939 gene encodes for Prephenate dehydrogenase, which converts Prephenate to 4-Hydroxy-phenylpyruvate (4-HPPA) in the l-tyrosine branch of the Shikimate pathway. While growth of the mutant and WT in DM was similar, addition of l-tyrosine was required to restore WT-like (colony) biofilm formation. Comparative proteomics showed reduced expression of Tyrosine-protein kinase/phosphatase regulators and extracellular polysaccharide cluster 1 (EPS1) proteins, aerobic electron transfer chain cytochrome aa3/d quinol oxidases, and iso-chorismate synthase involved in menaquinone synthesis in DM grown mutant biofilm cells, while multiple oxidative stress-related catalases and superoxide dismutases were upregulated. Performance in shaking cultures showed a 100-fold lower concentration of menaquinone-7 and reduction in cell counts of DM grown Δbc2939 indicating increased oxygen sensitivity. Combining all results, points to an important role of Tyrosine-modulated EPS1 production and menaquinone-dependent aerobic respiration in B. cereus ATCC 14579 (colony) biofilm formation.

l-酪氨酸调节蜡样芽孢杆菌ATCC 14579的生物膜形成
蜡样芽孢杆菌是一种能够产生生物膜的食源性病原体。在分析蜡样芽孢杆菌ATCC 14579转座子突变体在特定培养基(DM)中形成生物膜后,构建了bc2939的缺失突变体(Δbc2939),其显示结晶紫生物膜染色和生物膜细胞计数降低。此外,Δbc2939还产生较小的菌落生物膜,细胞计数较低,褶皱形态丧失。bc2939基因编码Prephenate脱氢酶,该脱氢酶在Shikimate途径的l-酪氨酸分支中将Prephenate转化为4-羟基-苯基丙酮酸盐(4-HPPA)。虽然突变体和WT在DM中的生长相似,但需要添加l-酪氨酸来恢复WT样(菌落)生物膜的形成。比较蛋白质组学显示,在DM生长的突变生物膜细胞中,酪氨酸蛋白激酶/磷酸酶调节因子和细胞外多糖簇1(EPS1)蛋白、有氧电子转移链细胞色素aa3/d醌氧化酶和参与甲萘醌合成的异氯合酶的表达减少,同时多种氧化应激相关的催化酶和超氧化物歧化酶被上调。摇动培养物中的表现显示,甲喹酮-7的浓度降低了100倍,DM生长的Δbc2939的细胞计数减少,表明氧敏感性增加。综合所有结果,表明酪氨酸调节的EPS1产生和萘醌依赖性有氧呼吸在蜡样芽孢杆菌ATCC 14579(菌落)生物膜形成中起着重要作用。
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来源期刊
Research in microbiology
Research in microbiology 生物-微生物学
CiteScore
4.10
自引率
3.80%
发文量
54
审稿时长
16 days
期刊介绍: Research in Microbiology is the direct descendant of the original Pasteur periodical entitled Annales de l''Institut Pasteur, created in 1887 by Emile Duclaux under the patronage of Louis Pasteur. The Editorial Committee included Chamberland, Grancher, Nocard, Roux and Straus, and the first issue began with Louis Pasteur''s "Lettre sur la Rage" which clearly defines the spirit of the journal:"You have informed me, my dear Duclaux, that you intend to start a monthly collection of articles entitled "Annales de l''Institut Pasteur". You will be rendering a service that will be appreciated by the ever increasing number of young scientists who are attracted to microbiological studies. In your Annales, our laboratory research will of course occupy a central position, but the work from outside groups that you intend to publish will be a source of competitive stimulation for all of us."That first volume included 53 articles as well as critical reviews and book reviews. From that time on, the Annales appeared regularly every month, without interruption, even during the two world wars. Although the journal has undergone many changes over the past 100 years (in the title, the format, the language) reflecting the evolution in scientific publishing, it has consistently maintained the Pasteur tradition by publishing original reports on all aspects of microbiology.
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