Cellular and Molecular Sciences, James Hutton Institute, Dundee, DD2 5DA, UK.
Cellular and Molecular Sciences, James Hutton Institute, Dundee, DD2 5DA, UK.; Strathclyde Institute for Pharmacy and Biomedical Sciences, University of Strathclyde, Glasgow, G4 0RE, UK.
Genomics. 2020 Nov;112(6):4242-4253. doi: 10.1016/j.ygeno.2020.07.021. Epub 2020 Jul 12.
Shiga-toxigenic Escherichia coli (STEC) is often transmitted into food via fresh produce plants, where it can cause disease. To identify early interaction factors for STEC on spinach, a high-throughput positive-selection system was used. A bacterial artificial chromosome (BAC) clone library for isolate Sakai was screened in four successive rounds of short-term (2 h) interaction with spinach roots, and enriched loci identified by microarray. A Bayesian hierarchical model produced 115 CDS credible candidates, comprising seven contiguous genomic regions. Of the two candidate regions selected for functional assessment, the pO157 plasmid-encoded type two secretion system (T2SS) promoted interactions, while a chaperone-usher fimbrial gene cluster (loc6) did not. The T2SS promoted bacterial binding to spinach and appeared to involve the EtpD secretin protein. Furthermore, the T2SS genes, etpD and etpC, were expressed at a plant-relevant temperature of 18 °C, and etpD was expressed in planta by E. coli Sakai on spinach plants.
产志贺毒素大肠杆菌(STEC)通常通过新鲜农产品植物传播到食物中,在那里它会引起疾病。为了在菠菜上鉴定 STEC 的早期相互作用因子,使用了高通量正选择系统。对分离株 Sakai 的细菌人工染色体 (BAC) 克隆文库进行了四次连续的短期(2 小时)与菠菜根相互作用的筛选,并通过微阵列富集鉴定了丰富的基因座。贝叶斯层次模型产生了 115 个 CDS 可信候选者,包括七个连续的基因组区域。在选择用于功能评估的两个候选区域中,pO157 质粒编码的 II 型分泌系统(T2SS)促进了相互作用,而伴侣 - 菌毛基因簇(loc6)则没有。T2SS 促进了细菌与菠菜的结合,似乎涉及 EtpD 分泌蛋白。此外,T2SS 基因 etpD 和 etpC 在与植物相关的 18°C 温度下表达,并且 E. coli Sakai 在菠菜植物上表达了 etpD。
