Glycosyl transferase GT2 genes mediate the biosynthesis of an unusual (1,3;1,4)-β-glucan exopolysaccharide in the bacterium Sarcina ventriculi.

IF 2.6 2区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Molecular Microbiology Pub Date : 2024-06-01 Epub Date: 2024-05-15 DOI:10.1111/mmi.15276
Edwin R Lampugnani, Kris Ford, Yin Ying Ho, Allison van de Meene, Jelle Lahnstein, Hwei-Ting Tan, Rachel A Burton, Geoffrey B Fincher, Thomas Shafee, Antony Bacic, Jochen Zimmer, Xiaohui Xing, Vincent Bulone, Monika S Doblin, Eric M Roberts
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引用次数: 0

Abstract

Linear, unbranched (1,3;1,4)-β-glucans (mixed-linkage glucans or MLGs) are commonly found in the cell walls of grasses, but have also been detected in basal land plants, algae, fungi and bacteria. Here we show that two family GT2 glycosyltransferases from the Gram-positive bacterium Sarcina ventriculi are capable of synthesizing MLGs. Immunotransmission electron microscopy demonstrates that MLG is secreted as an exopolysaccharide, where it may play a role in organizing individual cells into packets that are characteristic of Sarcina species. Heterologous expression of these two genes shows that they are capable of producing MLGs in planta, including an MLG that is chemically identical to the MLG secreted from S. ventriculi cells but which has regularly spaced (1,3)-β-linkages in a structure not reported previously for MLGs. The tandemly arranged, paralogous pair of genes are designated SvBmlgs1 and SvBmlgs2. The data indicate that MLG synthases have evolved different enzymic mechanisms for the incorporation of (1,3)-β- and (1,4)-β-glucosyl residues into a single polysaccharide chain. Amino acid variants associated with the evolutionary switch from (1,4)-β-glucan (cellulose) to MLG synthesis have been identified in the active site regions of the enzymes. The presence of MLG synthesis in bacteria could prove valuable for large-scale production of MLG for medical, food and beverage applications.

Abstract Image

糖基转移酶 GT2 基因介导了腹腔沙雷氏菌中一种不常见的 (1,3;1,4)-β 葡聚糖外多糖的生物合成。
线性、无支链(1,3;1,4)-β-葡聚糖(混合连接葡聚糖或 MLGs)通常存在于禾本科植物的细胞壁中,但在基生陆生植物、藻类、真菌和细菌中也有发现。在这里,我们发现革兰氏阳性细菌腹腔沙雷氏菌(Sarcina ventriculi)的两个 GT2 家族糖基转移酶能够合成 MLGs。免疫透射电子显微镜显示,MLG 作为一种外多糖被分泌出来,它可能在将单个细胞组织成沙棘菌特有的细胞包方面发挥作用。这两个基因的异源表达表明,它们能够在植物体内产生 MLG,其中包括一种化学性质与腹腔藻细胞分泌的 MLG 相同的 MLG,但它具有规律间隔的(1,3)-β-连接,这种结构是以前从未报道过的 MLG。这对串联排列的同源基因被命名为 SvBmlgs1 和 SvBmlgs2。这些数据表明,MLG 合成酶在将(1,3)-β- 和(1,4)-β-葡糖基残基结合到单个多糖链中方面已经进化出了不同的酶学机制。在酶的活性位点区域发现了与从 (1,4)-β- 葡聚糖(纤维素)合成到 MLG 合成的进化转换有关的氨基酸变体。细菌中存在的 MLG 合成可能被证明对大规模生产用于医疗、食品和饮料的 MLG 具有重要价值。
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来源期刊
Molecular Microbiology
Molecular Microbiology 生物-生化与分子生物学
CiteScore
7.20
自引率
5.60%
发文量
132
审稿时长
1.7 months
期刊介绍: Molecular Microbiology, the leading primary journal in the microbial sciences, publishes molecular studies of Bacteria, Archaea, eukaryotic microorganisms, and their viruses. Research papers should lead to a deeper understanding of the molecular principles underlying basic physiological processes or mechanisms. Appropriate topics include gene expression and regulation, pathogenicity and virulence, physiology and metabolism, synthesis of macromolecules (proteins, nucleic acids, lipids, polysaccharides, etc), cell biology and subcellular organization, membrane biogenesis and function, traffic and transport, cell-cell communication and signalling pathways, evolution and gene transfer. Articles focused on host responses (cellular or immunological) to pathogens or on microbial ecology should be directed to our sister journals Cellular Microbiology and Environmental Microbiology, respectively.
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