Characterization of galactose catabolic pathways in Streptococcus agalactiae and identification of a major galactose: phosphotransferase importer.

IF 2.7 3区 生物学 Q3 MICROBIOLOGY
Journal of Bacteriology Pub Date : 2024-10-24 Epub Date: 2024-09-19 DOI:10.1128/jb.00155-24
Aurelia Hiron, Morgane Melet, Capucine Guerry, Ilona Dubois, Vanessa Rong, Philippe Gilot
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Abstract

We identified and characterized genomic regions of Streptococcus agalactiae that are involved in the Leloir and the tagatose-6-phosphate pathways for D-galactose catabolism. The accumulation of mutations in genes coding the Leloir pathway and the absence of these genes in a significant proportion of the strains suggest that this pathway may no longer be necessary for S. agalactiae and is heading toward extinction. In contrast, a genomic region containing genes coding for intermediates of the tagatose-6-phosphate pathway, a Gat family PTS transporter, and a DeoR/GlpR family regulator is present in the vast majority of strains. By deleting genes that code for intermediates of each of these two pathways in three selected strains, we demonstrated that the tagatose-6-phosphate pathway is their sole route for galactose catabolism. Furthermore, we showed that the Gat family PTS transporter acts as the primary importer of galactose in S. agalactiae. Finally, we proved that the DeoR/GlpR family regulator is a repressor of the tagatose-6-phosphate pathway and that galactose triggers the induction of this biochemical mechanism.IMPORTANCES. agalactiae, a significant pathogen for both humans and animals, encounters galactose and galactosylated components within its various ecological niches. We highlighted the capability of this bacterium to metabolize D-galactose and showed the role of the tagatose-6-phosphate pathway and of a PTS importer in this biochemical process. Since S. agalactiae relies on carbohydrate fermentation for energy production, its ability to uptake and metabolize D-galactose could enhance its persistence and its competitiveness within the microbiome.

无乳链球菌中半乳糖分解途径的特征以及主要半乳糖:磷酸转移酶输入器的鉴定。
我们鉴定并描述了无乳链球菌基因组中参与 D-半乳糖分解代谢的 Leloir 和 tagatose-6-phosphate 途径的区域。Leloir 途径编码基因突变的累积以及相当一部分菌株中这些基因的缺失表明,这种途径可能不再是无乳链球菌所必需的,并正在走向消亡。与此相反,绝大多数菌株的基因组区域都含有编码 6-磷酸标签糖途径中间体、Gat 家族 PTS 转运体和 DeoR/GlpR 家族调节器的基因。通过删除三个选定菌株中编码这两条途径中间体的基因,我们证明了6-磷酸标签糖途径是它们分解半乳糖的唯一途径。此外,我们还发现 Gat 家族的 PTS 转运体是 S. agalactiae 中半乳糖的主要输入体。最后,我们证明 DeoR/GlpR 家族调控因子是标签糖-6-磷酸途径的抑制因子,而半乳糖会诱导这一生化机制的产生。我们强调了这种细菌代谢 D-半乳糖的能力,并展示了标签糖-6-磷酸途径和 PTS 导入器在这一生化过程中的作用。由于 S. agalactiae 依靠碳水化合物发酵来产生能量,因此其吸收和代谢 D-半乳糖的能力可增强其在微生物群中的持久性和竞争力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Bacteriology
Journal of Bacteriology 生物-微生物学
CiteScore
6.10
自引率
9.40%
发文量
324
审稿时长
1.3 months
期刊介绍: The Journal of Bacteriology (JB) publishes research articles that probe fundamental processes in bacteria, archaea and their viruses, and the molecular mechanisms by which they interact with each other and with their hosts and their environments.
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