利用凝集素芯片对副酸乳杆菌突变体进行糖型分析

Emi Suzuki, Masaki Serata, Tomoyuki Sako, Sumie Sato, Tohru Iino, Hiroaki Tateno, Jun Hirabayashi
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引用次数: 0

摘要

我们之前发现了白塔乳杆菌菌株(YIT 9029)细胞表面长链多糖(LCPS-1)生物合成的基因簇,该基因簇可调节 YIT 9029 的活性,诱导免疫细胞产生细胞因子;我们还发现凝集素芯片可用于区分细菌细胞表面多糖(PS)结构的特征。因此,我们分离了 YIT 9029 中 51 个参与细胞壁 PS 生物合成的基因的破坏性突变株。我们比较了它们与凝集素的结合情况以及与 YIT 9029 特异性单克隆抗体(MAb)的结合能力。与 MAb 结合有缺陷的突变体都在 cps1 基因簇中存在缺陷。一些突变体与 MAb 有部分结合,表明这些基因可能影响 LCPS-1 的合成和成熟。高级凝集素芯片分析了 YIT 9029 及其突变体的细胞表面糖基化特性。YIT 9029 与鼠李糖特异性凝集素 CSA 以及另外三种凝集素结合,包括一种 O 型糖结合蛋白(rDiscoidin II)和两种甘露糖结合蛋白(rOrysata 和 rBanana)。cps1C 基因的基因互补试验和碳水化合物抑制试验证实了凝集素结合的特异性。在比较 cps1A 至 cps1J 基因敲除突变体的结合曲线时,观察到了典型的特异性结合曲线模式,可以预测每个基因的功能有一些相似之处。总之,结合使用凝集素芯片和 YIT 9029 突变菌株库是鉴定与细胞表面糖蛋白相关的未知细菌基因功能的有力工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Glyco-phenotyping of mutants of Lacticaseibacillus paracasei by lectin microarray
We previously identified a gene cluster of Lacticaseibacillus paracasei strain Shirota (YIT 9029) for cell surface long-chain polysaccharides (LCPS-1) biosynthesis, which modulates YIT 9029 activity to induce cytokine production in immune cells, and showed that a lectin microarray can be useful for distinguishing the profile of bacterial cell-surface polysaccharide (PS) structures. Therefore, we isolated disruptive mutant strains of 51 genes predicted to be involved in cell wall PS biosynthesis in YIT 9029. Their binding profiles to lectins in conjunction with their binding abilities to YIT 9029-specific monoclonal antibody (MAb) were compared. The mutants defective in binding to the MAb all had defects within the cps1 gene cluster. Some mutants partially bound to MAb, indicating that these genes may influence the synthesis and maturation of LCPS-1. Advanced lectin microarray analyzed the cell surface glycosylation properties of YIT 9029 and its mutants. YIT 9029 bound to a rhamnose-specific lectin CSA, and three additional lectins including an O-glycan binder (rDiscoidin II) and two mannose binders (rOrysata and rBanana). Lectin binding specificity was confirmed by a gene complementation assay for the cps1C gene and a carbohydrate inhibition assay. When the binding profiles of individual cps1A through cps1J knockout mutants were compared, typical and specific binding profiles patterns were observed, in which some similarities in the functions of each gene could be predicted. In conclusion, the combined use of lectin microarray and a YIT 9029 mutant strain library is a powerful tool for identifying unknown bacterial gene functions related to cell surface glycome.
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