适应植物的大肠杆菌表现出更强的生菜定殖能力、对氧化应激的抗性和趋化反应。

Plant-adapted Escherichia coli show increased lettuce colonizing ability, resistance to oxidative stress and chemotactic response.

作者信息

Dublan Maria de los Angeles, Ortiz-Marquez Juan Cesar Federico, Lett Lina, Curatti Leonardo

机构信息

Instituto de Investigaciones en Biodiversidad y Biotecnología, Consejo Nacional de Investigaciones Científicas y Técnicas, Mar del Plata, Buenos Aires, Argentina; Fundación para Investigaciones Biológicas Aplicadas, Mar del Plata, Buenos Aires, Argentina; Laboratorio Integrado de Microbiología Agrícola y de Alimentos, Facultad de Agronomía, Universidad Nacional del Centro de la Provincia de Buenos Aires, Azul, Buenos Aires, Argentina.

出版信息

PLoS One. 2014 Oct 14;9(10):e110416. doi: 10.1371/journal.pone.0110416. eCollection 2014.

DOI:10.1371/journal.pone.0110416

PMID:25313845

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4196987/

Abstract

BACKGROUND

Escherichia coli is a widespread gut commensal and often a versatile pathogen of public health concern. E. coli are also frequently found in different environments and/or alternative secondary hosts, such as plant tissues. The lifestyle of E. coli in plants is poorly understood and has potential implications for food safety.

METHODS/PRINCIPAL FINDINGS: This work shows that a human commensal strain of E. coli K12 readily colonizes lettuce seedlings and produces large microcolony-like cell aggregates in leaves, especially in young leaves, in proximity to the vascular tissue. Our observations strongly suggest that those cell aggregates arise from multiplication of single bacterial cells that reach those spots. We showed that E. coli isolated from colonized leaves progressively colonize lettuce seedlings to higher titers, suggesting a fast adaptation process. E. coli cells isolated from leaves presented a dramatic rise in tolerance to oxidative stress and became more chemotactic responsive towards lettuce leaf extracts. Mutant strains impaired in their chemotactic response were less efficient lettuce colonizers than the chemotactic isogenic strain. However, acclimation to oxidative stress and/or minimal medium alone failed to prime E. coli cells for enhanced lettuce colonization efficiency.

CONCLUSION/SIGNIFICANCE: These findings help to understand the physiological adaptation during the alternative lifestyle of E. coli in/on plant tissues.

摘要

背景

大肠杆菌是一种广泛存在的肠道共生菌，也是一种常常引发公共卫生关注的多能病原体。大肠杆菌还经常在不同环境和/或替代二级宿主（如植物组织）中被发现。人们对大肠杆菌在植物中的生活方式了解甚少，且其对食品安全具有潜在影响。

方法/主要发现：这项研究表明，一株人源共生大肠杆菌K12菌株能够轻易地在生菜幼苗上定殖，并在叶片中，尤其是靠近维管组织的幼叶中形成大量类似微菌落的细胞聚集体。我们的观察结果强烈表明，这些细胞聚集体源自到达这些部位的单个细菌细胞的增殖。我们发现，从定殖叶片中分离出的大肠杆菌能逐渐在生菜幼苗上定殖至更高滴度，这表明存在一个快速适应过程。从叶片中分离出的大肠杆菌细胞对氧化应激的耐受性显著提高，并且对生菜叶提取物的趋化反应更强。趋化反应受损的突变菌株在生菜定殖方面不如趋化同基因菌株有效。然而，单独适应氧化应激和/或基本培养基并不能使大肠杆菌细胞具备更高的生菜定殖效率。

结论/意义：这些发现有助于理解大肠杆菌在植物组织内/上的替代生活方式中的生理适应过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0584/4196987/84f5dbc62f8c/pone.0110416.g001.jpg

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适应植物的大肠杆菌表现出更强的生菜定殖能力、对氧化应激的抗性和趋化反应。

Plant-adapted Escherichia coli show increased lettuce colonizing ability, resistance to oxidative stress and chemotactic response.

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机构信息

出版信息

BACKGROUND

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