一种评估都柏林基因组多样性的回顾性和区域性方法。

A retrospective and regional approach assessing the genomic diversity of Dublin.

作者信息

De Sousa Violante Madeleine, Podeur Gaëtan, Michel Valérie, Guillier Laurent, Radomski Nicolas, Lailler Renaud, Le Hello Simon, Weill François-Xavier, Mistou Michel-Yves, Mallet Ludovic

机构信息

Actalia, 419 route des champs laitiers, CS 50030, 74801 La Roche sur Foron, France.

ANSES, 14 Rue Pierre et Marie Curie, 94700 Maisons-Alfort, France.

出版信息

NAR Genom Bioinform. 2022 Jul 9;4(3):lqac047. doi: 10.1093/nargab/lqac047. eCollection 2022 Sep.

DOI:10.1093/nargab/lqac047

PMID:35821882

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9270687/

Abstract

From a historically rare serotype, subsp. Dublin slowly became one of the most prevalent in cattle and raw milk cheese in some regions of France. We present a retrospective genomic analysis of 480 . Dublin isolates to address the context, evolutionary dynamics, local diversity and the genesis processes of regional . Dublin outbreaks events between 2015 and 2017. Samples were clustered and assessed for correlation against metadata including isolation date, isolation matrices, geographical origin and epidemiological hypotheses. Significant findings can be drawn from this work. We found that the geographical distance was a major factor explaining genetic groups in the early stages of the cheese production processes (animals, farms) while down-the-line transformation steps were more likely to host genomic diversity. This supports the hypothesis of a generalised local persistence of strains from animal to finished products, with occasional migration. We also observed that the bacterial surveillance is representative of diversity, while targeted investigations without genomics evidence often included unrelated isolates. Combining both approaches in phylogeography methods allows a better representation of the dynamics, of outbreaks.

摘要

都柏林亚种最初是一种历史上罕见的血清型，后来在法国一些地区的牛和生牛奶奶酪中逐渐成为最普遍的血清型之一。我们对480株都柏林分离株进行了回顾性基因组分析，以探讨2015年至2017年间都柏林地区疫情的背景、进化动态、局部多样性和起源过程。样本被聚类，并根据包括分离日期、分离基质、地理来源和流行病学假设在内的元数据评估相关性。这项工作有一些重要发现。我们发现，地理距离是解释奶酪生产过程早期阶段（动物、农场）基因群组的主要因素，而后续的加工步骤则更有可能存在基因组多样性。这支持了菌株从动物到成品普遍存在局部持久性并偶尔迁移的假设。我们还观察到，细菌监测能够代表多样性，而没有基因组学证据的针对性调查往往包含不相关的分离株。在系统地理学方法中结合这两种方法，可以更好地呈现疫情的动态。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3465/9270687/0486a6378858/lqac047fig1.jpg

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一种评估都柏林基因组多样性的回顾性和区域性方法。

A retrospective and regional approach assessing the genomic diversity of Dublin.

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