School of Biological Sciences, University of Canterbury, Private Bag 4800, Christchurch, 8140, New Zealand.
Biomolecular Interaction Centre, University of Canterbury, Private Bag 4800, Christchurch, 8140, New Zealand.
New Phytol. 2018 Jun;218(4):1327-1333. doi: 10.1111/nph.15054. Epub 2018 Mar 5.
Contents Summary 1327 I. Introduction 1327 II. Individuality and the relevance of scales for the investigation of bacteria 1328 III. Bacterial aggregation and community patterning at the single-cell resolution 1329 IV. What are the effects on the plant host? 1330 V. Future directions and current questions 1331 Acknowledgements 1332 ORCID 1332 References 1332 SUMMARY: Leaf surfaces are home to diverse bacterial communities. Within these communities, every individual cell perceives its unique environment and responds accordingly. In this insight article, the perspective of the bacterial individual is assumed in an attempt to describe how the spatially heterogeneous leaf surface determines the fate of bacteria. To investigate behaviour at scales relevant to bacteria, single-cell approaches are essential. Single-cell studies provide important lessons about how current 'omics' approaches fail to give an accurate picture of the behaviour of bacterial populations in heterogeneous environments. Upcoming techniques will soon allow us to combine the power of single-cell and omics approaches.
内容摘要 1327 I. 引言 1327 II. 个体性以及用于细菌研究的量表的相关性 1328 III. 单细胞分辨率下的细菌聚集和群落模式 1329 IV. 对植物宿主有什么影响? 1330 V. 未来方向和当前问题 1331 致谢 1332 ORCID 1332 参考文献 1332 摘要:叶片表面是多样细菌群落的家园。在这些群落中,每个细胞个体都感知到其独特的环境,并做出相应的反应。在这篇观点文章中,我们从细菌个体的角度出发,试图描述空间异质性的叶片表面如何决定细菌的命运。为了研究与细菌相关的尺度上的行为,单细胞方法是必不可少的。单细胞研究为我们提供了重要的经验教训,即当前的“组学”方法无法准确描绘在异质环境中细菌群体的行为。即将出现的技术将很快使我们能够结合单细胞和组学方法的优势。
