Jennifer Jones, C. Murphy, R. Sleator, E. P. Culligan
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引用次数: 0
摘要
背景:与人类微生物组的其他部分相比,尿液微生物组在健康和疾病中的作用仍是一个研究不足的领域。强化培养技术和下一代测序技术已发现尿生物群是一个尚未开发的潜在新型抗菌素来源。本研究旨在筛选尿液微生物组中编码细菌素生产的基因。研究方法使用细菌素挖掘工具 BAGEL4 和次生代谢物筛选工具 antiSMASH7 对 181 个细菌尿生物群分离物的基因组进行硅学筛选,以确定是否存在细菌素基因簇。结果:从这些分离物中初步确定了 263 个感兴趣的区域,进行了人工标注,并对潜在的细菌素基因簇进行了评估。结果发现 32 个分离物含有 80 个潜在的细菌素基因簇,其中 72% 被鉴定为 II 类细菌素,13.75% 为 III 类细菌素,8.75% 为 I 类细菌素,5% 为未分类细菌素。结论总共发现了 53 种新型变体,包括尼生素、加沙星菌素、琥珀菌素和大肠杆菌素。
An exploratory in silico analysis of bacteriocin gene clusters in the urobiome
Background: The role of the urobiome in health and disease remains an understudied area compared to the rest of the human microbiome. Enhanced culturing techniques and next-generation sequencing technologies have identified the urobiome as an untapped source of potentially novel antimicrobials. The aim of this study was to screen the urobiome for genes encoding bacteriocin production.
Methods: The genomes of 181 bacterial urobiome isolates were screened in silico for the presence of bacteriocin gene clusters using the bacteriocin mining tool BAGEL4 and secondary metabolite screening tool antiSMASH7.
Results: From these isolates, an initial 263 areas of interest were identified, manually annotated, and evaluated for potential bacteriocin gene clusters. This resulted in 32 isolates containing 80 potential bacteriocin gene clusters, of which 72% were identified as class II, 13.75% as class III, 8.75% as class I, and 5% as unclassified bacteriocins.
Conclusion: Overall, 53 novel variants were discovered, including nisin, gassericin, ubericin, and colicins.
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