Phenotypic diversity of Methylobacterium associated with rice landraces in North-East India

Phenotypic diversity of Methylobacterium associated with rice landraces in North-East India

The ecology and distribution of many bacteria is strongly associated with specific eukaryotic hosts. However, the impact of such host association on bacterial ecology and evolution is not well understood. Bacteria from the genus Methylobacterium consume plant-derived methanol, and are some of the mo...

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Bibliographic Details
Published in:PloS one Vol. 15; no. 2; p. e0228550
Main Authors: Sanjenbam, Pratibha, Buddidathi, Radhika, Venkatesan, Radhika, Shivaprasad, P V, Agashe, Deepa
Format: Journal Article
Language:English
Published: United States Public Library of Science 24-02-2020
Public Library of Science (PLoS)
Subjects:
Adaptation
Alcohol industry
Bacteria
Biology and Life Sciences
Carbon
Carbon - metabolism
Carbon sources
Colonization
Crops, Agricultural - metabolism
Crops, Agricultural - microbiology
Divergence
Ecology
Ecosystem
Ecosystems
Exudates
Exudation
Food crops
Genetic Variation
Glycerol
Host-Pathogen Interactions
Identity
India
Local communities
Metabolism
Methanol
Methylobacterium
Methylobacterium - classification
Methylobacterium - genetics
Methylobacterium - growth & development
Methylobacterium - metabolism
Microorganisms
Nature
Oryza - metabolism
Oryza - microbiology
Phenotype
Phenotypic variations
Phyllosphere
Phylogeny
Physical Sciences
Plant growth
Plant Leaves - metabolism
Plant Leaves - microbiology
Plants
Research and Analysis Methods
Rice
Strains (organisms)
Taxonomy
India
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Summary:The ecology and distribution of many bacteria is strongly associated with specific eukaryotic hosts. However, the impact of such host association on bacterial ecology and evolution is not well understood. Bacteria from the genus Methylobacterium consume plant-derived methanol, and are some of the most abundant and widespread plant-associated bacteria. In addition, many of these species impact plant fitness. To determine the ecology and distribution of Methylobacterium in nature, we sampled bacteria from 36 distinct rice landraces, traditionally grown in geographically isolated locations in North-East (NE) India. These landraces have been selected for diverse phenotypic traits by local communities, and we expected that the divergent selection on hosts may have also generated divergence in associated Methylobacterium strains. We determined the ability of 91 distinct rice-associated Methylobacterium isolates to use a panel of carbon sources, finding substantial variability in carbon use profiles. Consistent with our expectation, across spatial scales this phenotypic variation was largely explained by host landrace identity rather than geographical factors or bacterial taxonomy. However, variation in carbon utilisation was not correlated with sugar exudates on leaf surfaces, suggesting that bacterial carbon use profiles do not directly determine bacterial colonization across landraces. Finally, experiments showed that at least some rice landraces gain an early growth advantage from their specific phyllosphere-colonizing Methylobacterium strains. Together, our results suggest that landrace-specific host-microbial relationships may contribute to spatial structure in rice-associated Methylobacterium in a natural ecosystem. In turn, association with specific bacteria may provide new ways to preserve and understand diversity in one of the most important food crops of the world.
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Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0228550