Microbiome homeostasis on rice leaves is regulated by a precursor molecule of lignin biosynthesis
Microbiome homeostasis on rice leaves is regulated by a precursor molecule of lignin biosynthesis
In terrestrial ecosystems, plant leaves provide the largest biological habitat for highly diverse microbial communities, known as the phyllosphere microbiota. However, the underlying mechanisms of host-driven assembly of these ubiquitous communities remain largely elusive. Here, we conduct a large-scale and in-depth assessment of the rice phyllosphere microbiome aimed at identifying specific host-microbe links. A genome-wide association study reveals a strong association between the plant genotype and members of four bacterial orders, Pseudomonadales, Burkholderiales, Enterobacterales and Xanthomonadales. Some of the associations are specific to a distinct host genomic locus, pathway or even gene. The compound 4-hydroxycinnamic acid (4-HCA) is identified as the main driver for enrichment of bacteria belonging to Pseudomonadales. 4-HCA can be synthesized by the host plant’s OsPAL02 from the phenylpropanoid biosynthesis pathway. A knockout mutant of OsPAL02 results in reduced Pseudomonadales abundance, dysbiosis of the phyllosphere microbiota and consequently higher susceptibility of rice plants to disease. Our study provides a direct link between a specific plant metabolite and rice phyllosphere homeostasis opening possibilities for new breeding strategies.
Su, Pin
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Kang, Houxiang
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Peng, Qianze
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Wicaksono, Wisnu adi
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Berg, Gabriele
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Liu, Zhuoxin
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Ma, Jiejia
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Zhang, Deyong
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Cernava, Tomislav
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Liu, Yong
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Su, Pin
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Kang, Houxiang
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Peng, Qianze
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Wicaksono, Wisnu adi
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Berg, Gabriele
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Liu, Zhuoxin
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Ma, Jiejia
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Zhang, Deyong
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Cernava, Tomislav
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Liu, Yong
75adc6f8-aa83-484e-9e87-6c8442e344fa
Su, Pin, Kang, Houxiang, Peng, Qianze, Wicaksono, Wisnu adi, Berg, Gabriele, Liu, Zhuoxin, Ma, Jiejia, Zhang, Deyong, Cernava, Tomislav and Liu, Yong
(2024)
Microbiome homeostasis on rice leaves is regulated by a precursor molecule of lignin biosynthesis.
Nature Communications, 15 (1), [23].
(doi:10.1038/s41467-023-44335-3).
Abstract
In terrestrial ecosystems, plant leaves provide the largest biological habitat for highly diverse microbial communities, known as the phyllosphere microbiota. However, the underlying mechanisms of host-driven assembly of these ubiquitous communities remain largely elusive. Here, we conduct a large-scale and in-depth assessment of the rice phyllosphere microbiome aimed at identifying specific host-microbe links. A genome-wide association study reveals a strong association between the plant genotype and members of four bacterial orders, Pseudomonadales, Burkholderiales, Enterobacterales and Xanthomonadales. Some of the associations are specific to a distinct host genomic locus, pathway or even gene. The compound 4-hydroxycinnamic acid (4-HCA) is identified as the main driver for enrichment of bacteria belonging to Pseudomonadales. 4-HCA can be synthesized by the host plant’s OsPAL02 from the phenylpropanoid biosynthesis pathway. A knockout mutant of OsPAL02 results in reduced Pseudomonadales abundance, dysbiosis of the phyllosphere microbiota and consequently higher susceptibility of rice plants to disease. Our study provides a direct link between a specific plant metabolite and rice phyllosphere homeostasis opening possibilities for new breeding strategies.
Text
s41467-023-44335-3
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Accepted/In Press date: 8 December 2023
e-pub ahead of print date: 2 January 2024
Identifiers
Local EPrints ID: 489828
URI: http://eprints.soton.ac.uk/id/eprint/489828
ISSN: 2041-1723
PURE UUID: d7499633-6939-4e1b-bf20-2ca65b8fc810
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Date deposited: 02 May 2024 16:54
Last modified: 04 May 2024 02:05
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Contributors
Author:
Pin Su
Author:
Houxiang Kang
Author:
Qianze Peng
Author:
Wisnu adi Wicaksono
Author:
Gabriele Berg
Author:
Zhuoxin Liu
Author:
Jiejia Ma
Author:
Deyong Zhang
Author:
Tomislav Cernava
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