Two-way microscale interactions between immigrant bacteria and plant leaf microbiota as revealed by live imaging

Shifra Steinberg; Maor Grinberg; Michael Beitelman; Julianna Peixoto; Tomer Orevi; Nadav Kashtan

doi:10.1038/s41396-020-00767-z

Two-way microscale interactions between immigrant bacteria and plant leaf microbiota as revealed by live imaging

Shifra Steinberg, Maor Grinberg, Michael Beitelman, Julianna Peixoto, Tomer Orevi, Nadav Kashtan^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The phyllosphere – the aerial parts of plants – is an important microbial habitat that is home to diverse microbial communities. The spatial organization of bacterial cells on leaf surfaces is non-random, and correlates with leaf microscopic features. Yet, the role of microscale interactions between bacterial cells therein is not well understood. Here, we ask how interactions between immigrant bacteria and resident microbiota affect the spatial organization of the combined community. By means of live imaging in a simplified in vitro system, we studied the spatial organization, at the micrometer scale, of the biocontrol agent Pseudomonas fluorescens A506 and the plant pathogen P. syringae B728a when introduced to pear and bean leaf microbiota (the corresponding native plants of these strains). We found significant co-localization of immigrant and resident microbial cells at distances of a few micrometers, for both strains. Interestingly, this co-localization was in part due to preferential attachment of microbiota cells near newly formed P. fluorescens aggregates. Our results indicate that two-way immigrant bacteria – resident microbiota interactions affect the microscale spatial organization of leaf microbiota, and possibly that of other surface-related microbial communities.

Original language	American English
Pages (from-to)	409-420
Number of pages	12
Journal	ISME Journal
Volume	15
Issue number	2
DOIs	https://doi.org/10.1038/s41396-020-00767-z
State	Published - Feb 2021
Externally published	Yes

Bibliographical note

Funding Information:
Acknowledgements We thank Y. Hadar for valuable comments on the manuscript. We thank S. Lindow for kindly providing bacterial strains, and R. Feuchtwanger from Gan Hasadeh and N. Shachar for providing fresh leaves for this study. JP acknowledges the Lady Davis Trust for a postdoctoral fellowship. MB acknowledges the Rudin MSc scholarship. This work was supported by a research grant to NK from the James S. McDonnell Foundation (Studying Complex Systems Scholar Award, Grant #220020475) and from the Israel Science Foundation (ISF #1396/19).

Publisher Copyright:
© 2020, The Author(s), under exclusive licence to International Society for Microbial Ecology.

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title = "Two-way microscale interactions between immigrant bacteria and plant leaf microbiota as revealed by live imaging",

abstract = "The phyllosphere – the aerial parts of plants – is an important microbial habitat that is home to diverse microbial communities. The spatial organization of bacterial cells on leaf surfaces is non-random, and correlates with leaf microscopic features. Yet, the role of microscale interactions between bacterial cells therein is not well understood. Here, we ask how interactions between immigrant bacteria and resident microbiota affect the spatial organization of the combined community. By means of live imaging in a simplified in vitro system, we studied the spatial organization, at the micrometer scale, of the biocontrol agent Pseudomonas fluorescens A506 and the plant pathogen P. syringae B728a when introduced to pear and bean leaf microbiota (the corresponding native plants of these strains). We found significant co-localization of immigrant and resident microbial cells at distances of a few micrometers, for both strains. Interestingly, this co-localization was in part due to preferential attachment of microbiota cells near newly formed P. fluorescens aggregates. Our results indicate that two-way immigrant bacteria – resident microbiota interactions affect the microscale spatial organization of leaf microbiota, and possibly that of other surface-related microbial communities.",

author = "Shifra Steinberg and Maor Grinberg and Michael Beitelman and Julianna Peixoto and Tomer Orevi and Nadav Kashtan",

note = "Funding Information: Acknowledgements We thank Y. Hadar for valuable comments on the manuscript. We thank S. Lindow for kindly providing bacterial strains, and R. Feuchtwanger from Gan Hasadeh and N. Shachar for providing fresh leaves for this study. JP acknowledges the Lady Davis Trust for a postdoctoral fellowship. MB acknowledges the Rudin MSc scholarship. This work was supported by a research grant to NK from the James S. McDonnell Foundation (Studying Complex Systems Scholar Award, Grant #220020475) and from the Israel Science Foundation (ISF #1396/19). Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to International Society for Microbial Ecology.",

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N1 - Funding Information: Acknowledgements We thank Y. Hadar for valuable comments on the manuscript. We thank S. Lindow for kindly providing bacterial strains, and R. Feuchtwanger from Gan Hasadeh and N. Shachar for providing fresh leaves for this study. JP acknowledges the Lady Davis Trust for a postdoctoral fellowship. MB acknowledges the Rudin MSc scholarship. This work was supported by a research grant to NK from the James S. McDonnell Foundation (Studying Complex Systems Scholar Award, Grant #220020475) and from the Israel Science Foundation (ISF #1396/19). Publisher Copyright: © 2020, The Author(s), under exclusive licence to International Society for Microbial Ecology.

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N2 - The phyllosphere – the aerial parts of plants – is an important microbial habitat that is home to diverse microbial communities. The spatial organization of bacterial cells on leaf surfaces is non-random, and correlates with leaf microscopic features. Yet, the role of microscale interactions between bacterial cells therein is not well understood. Here, we ask how interactions between immigrant bacteria and resident microbiota affect the spatial organization of the combined community. By means of live imaging in a simplified in vitro system, we studied the spatial organization, at the micrometer scale, of the biocontrol agent Pseudomonas fluorescens A506 and the plant pathogen P. syringae B728a when introduced to pear and bean leaf microbiota (the corresponding native plants of these strains). We found significant co-localization of immigrant and resident microbial cells at distances of a few micrometers, for both strains. Interestingly, this co-localization was in part due to preferential attachment of microbiota cells near newly formed P. fluorescens aggregates. Our results indicate that two-way immigrant bacteria – resident microbiota interactions affect the microscale spatial organization of leaf microbiota, and possibly that of other surface-related microbial communities.

AB - The phyllosphere – the aerial parts of plants – is an important microbial habitat that is home to diverse microbial communities. The spatial organization of bacterial cells on leaf surfaces is non-random, and correlates with leaf microscopic features. Yet, the role of microscale interactions between bacterial cells therein is not well understood. Here, we ask how interactions between immigrant bacteria and resident microbiota affect the spatial organization of the combined community. By means of live imaging in a simplified in vitro system, we studied the spatial organization, at the micrometer scale, of the biocontrol agent Pseudomonas fluorescens A506 and the plant pathogen P. syringae B728a when introduced to pear and bean leaf microbiota (the corresponding native plants of these strains). We found significant co-localization of immigrant and resident microbial cells at distances of a few micrometers, for both strains. Interestingly, this co-localization was in part due to preferential attachment of microbiota cells near newly formed P. fluorescens aggregates. Our results indicate that two-way immigrant bacteria – resident microbiota interactions affect the microscale spatial organization of leaf microbiota, and possibly that of other surface-related microbial communities.

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Two-way microscale interactions between immigrant bacteria and plant leaf microbiota as revealed by live imaging

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