Dual Glycosyltransferases from Campylobacter concisus Diverge from the Canonical Campylobacter N-Linked Glycan Assembly Pathway.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochemistry Biochemistry Pub Date : 2024-09-17 Epub Date: 2024-08-28 DOI:10.1021/acs.biochem.4c00351
Christine A Arbour, Nemanja Vuksanovic, Karen N Allen, Barbara Imperiali
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Abstract

Species within the Campylobacter genus are recognized as emerging human pathogens. Common to all known members of the genus is the presence of an asparagine-linked glycosylation pathway encoded by the pgl operon. Campylobacter species are divided into two major groups, Group I and Group II. To date, most biochemical studies have focused on the Group I species including Campylobacter jejuni. We recently reported that the Group II Campylobacter concisus pathway deviates from that of Group I by the inclusion of a C-6″-oxidized GalNAc (GalNAcA) at the third position installed by PglJ. Herein, we investigate the diversification of the PglH enzymes that act subsequent to installation of GalNAcA. The majority of pgl operons from Group II species, including C. concisus, encode two GT-B fold glycosyltransferases (GTs), PglH1 and PglH2. As the functions of these GTs were not clear by simple comparison of their sequences to that of C. jejuni PglH, further analyses were required. We show that subsequent to the action of PglJ, PglH2 installs the next HexNAc followed by PglH1 adding a single sugar. These steps diverge from the C. jejuni pathway not only in the identity of the sugar donors (UDP-GlcNAc) but also in installing single sugars rather than acting processively. These biochemical studies were extended via bioinformatics to identify sequence signatures that provide predictive capabilities for unraveling the prokaryotic glycan landscape. Phylogenetic analysis showed early divergence between the C. jejuni PglH orthologs and C. concisus PglH1/PglH2 orthologs, leading to diversification of the final glycan.

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康氏弯曲杆菌的双糖基转移酶与典型弯曲杆菌 N-连接糖组装途径存在差异。
弯曲杆菌属中的物种被认为是新出现的人类病原体。该属所有已知成员的共同点是存在由 pgl 操作子编码的天冬酰胺连接糖基化途径。弯曲杆菌分为两大类,即第一类和第二类。迄今为止,大多数生化研究都集中在包括空肠弯曲杆菌在内的第一类弯曲杆菌上。最近,我们报道了第二类弯曲杆菌(Campylobacter concisus)的途径与第一类弯曲杆菌(Campylobacter concisus)的不同之处,即在 PglJ 安装的第三个位置加入了 C-6″-oxidized GalNAc(GalNAcA)。包括海螺在内的第二类物种的大多数 pgl 操作子编码两种 GT-B 折叠糖基转移酶(GTs),即 PglH1 和 PglH2。由于这些糖基转移酶的功能不能通过简单地将其序列与空肠肠杆菌 PglH 的序列进行比较而得到明确,因此需要进行进一步的分析。我们发现,在 PglJ 作用之后,PglH2 安装下一个 HexNAc,然后 PglH1 添加一个单糖。这些步骤不仅在糖供体(UDP-GlcNAc)的特性上与空肠丙酸杆菌的途径不同,而且在安装单糖而非过程性作用上也与空肠丙酸杆菌的途径不同。这些生化研究通过生物信息学进行了扩展,以确定序列特征,为揭示原核生物聚糖景观提供预测能力。系统发生学分析表明,空肠球菌 PglH 直向同源物和海参球菌 PglH1/PglH2 直向同源物之间存在早期分化,导致最终聚糖的多样化。
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来源期刊
Biochemistry Biochemistry
Biochemistry Biochemistry 生物-生化与分子生物学
CiteScore
5.50
自引率
3.40%
发文量
336
审稿时长
1-2 weeks
期刊介绍: Biochemistry provides an international forum for publishing exceptional, rigorous, high-impact research across all of biological chemistry. This broad scope includes studies on the chemical, physical, mechanistic, and/or structural basis of biological or cell function, and encompasses the fields of chemical biology, synthetic biology, disease biology, cell biology, nucleic acid biology, neuroscience, structural biology, and biophysics. In addition to traditional Research Articles, Biochemistry also publishes Communications, Viewpoints, and Perspectives, as well as From the Bench articles that report new methods of particular interest to the biological chemistry community.
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