Bacterial bioluminescence is an important regulator of multitrophic interactions in the soil

Arthur Muller; Patricia Morales-Montero; Anja Boss; Alexandre Hiltmann; Carlos Castaneda-Alvarez; Aashaq H Bhat; Carla C M Arce; Gaetan Glauser; Susan A Joyce; David J Clarke; Ricardo A R Machado

doi:10.1016/j.celrep.2024.114817

Bacterial bioluminescence is an important regulator of multitrophic interactions in the soil

Arthur Muller
, Patricia Morales-Montero
, Anja Boss
, Alexandre Hiltmann
, Carlos Castaneda-Alvarez
, Aashaq H Bhat
, Carla C M Arce
, Gaetan Glauser
, Susan A Joyce
, David J Clarke
, Ricardo A R Machado

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

Abstract

Enormous efforts have been made to understand the functions of bioluminescence; however, its relevance in soil ecosystems has barely been investigated. In addition, our understanding of the biological relevance of bioluminescence is hampered by the scarcity of tools to genetically manipulate this trait. Using the symbionts of entomopathogenic nematodes, Photorhabdus bacteria, we show that bioluminescence plays important regulatory roles in multitrophic interactions in the soil. Through genetic modifications and exploiting natural variability, we provide direct evidence for the multifunctional nature of bioluminescence. It regulates abiotic and biotic stress resistance, impacts other trophic levels, including nematodes, insects, and plants, and contributes to symbiosis. Our study contributes to understanding the factors that have driven the evolution and maintenance of this trait in belowground ecosystems.

Original language	English
Article number	114817
Pages (from-to)	114817
Number of pages	25
Journal	Cell Reports
Volume	43
Issue number	10
DOIs	https://doi.org/10.1016/j.celrep.2024.114817
Publication status	Published - 22 Oct 2024

Keywords

Soil Microbiology
Animals
Photorhabdus/genetics
Symbiosis/physiology
Luminescence
Soil
Nematoda/physiology
chemical and molecular ecology
CP: Microbiology
CP: Plants
entomopathogenic nematodes
Photorhabdus bacteria
plants
root herbivores
scavenger insects

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10.1016/j.celrep.2024.114817

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title = "Bacterial bioluminescence is an important regulator of multitrophic interactions in the soil",

abstract = "Enormous efforts have been made to understand the functions of bioluminescence; however, its relevance in soil ecosystems has barely been investigated. In addition, our understanding of the biological relevance of bioluminescence is hampered by the scarcity of tools to genetically manipulate this trait. Using the symbionts of entomopathogenic nematodes, Photorhabdus bacteria, we show that bioluminescence plays important regulatory roles in multitrophic interactions in the soil. Through genetic modifications and exploiting natural variability, we provide direct evidence for the multifunctional nature of bioluminescence. It regulates abiotic and biotic stress resistance, impacts other trophic levels, including nematodes, insects, and plants, and contributes to symbiosis. Our study contributes to understanding the factors that have driven the evolution and maintenance of this trait in belowground ecosystems.",

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author = "Arthur Muller and Patricia Morales-Montero and Anja Boss and Alexandre Hiltmann and Carlos Castaneda-Alvarez and Bhat, \{Aashaq H\} and Arce, \{Carla C M\} and Gaetan Glauser and Joyce, \{Susan A\} and Clarke, \{David J\} and Machado, \{Ricardo A R\}",

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doi = "10.1016/j.celrep.2024.114817",

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AU - Morales-Montero, Patricia

AU - Boss, Anja

AU - Hiltmann, Alexandre

AU - Castaneda-Alvarez, Carlos

AU - Bhat, Aashaq H

AU - Arce, Carla C M

AU - Glauser, Gaetan

AU - Joyce, Susan A

AU - Clarke, David J

AU - Machado, Ricardo A R

PY - 2024/10/22

Y1 - 2024/10/22

N2 - Enormous efforts have been made to understand the functions of bioluminescence; however, its relevance in soil ecosystems has barely been investigated. In addition, our understanding of the biological relevance of bioluminescence is hampered by the scarcity of tools to genetically manipulate this trait. Using the symbionts of entomopathogenic nematodes, Photorhabdus bacteria, we show that bioluminescence plays important regulatory roles in multitrophic interactions in the soil. Through genetic modifications and exploiting natural variability, we provide direct evidence for the multifunctional nature of bioluminescence. It regulates abiotic and biotic stress resistance, impacts other trophic levels, including nematodes, insects, and plants, and contributes to symbiosis. Our study contributes to understanding the factors that have driven the evolution and maintenance of this trait in belowground ecosystems.

AB - Enormous efforts have been made to understand the functions of bioluminescence; however, its relevance in soil ecosystems has barely been investigated. In addition, our understanding of the biological relevance of bioluminescence is hampered by the scarcity of tools to genetically manipulate this trait. Using the symbionts of entomopathogenic nematodes, Photorhabdus bacteria, we show that bioluminescence plays important regulatory roles in multitrophic interactions in the soil. Through genetic modifications and exploiting natural variability, we provide direct evidence for the multifunctional nature of bioluminescence. It regulates abiotic and biotic stress resistance, impacts other trophic levels, including nematodes, insects, and plants, and contributes to symbiosis. Our study contributes to understanding the factors that have driven the evolution and maintenance of this trait in belowground ecosystems.

KW - Soil Microbiology

KW - Animals

KW - Photorhabdus/genetics

KW - Symbiosis/physiology

KW - Luminescence

KW - Soil

KW - Nematoda/physiology

KW - chemical and molecular ecology

KW - CP: Microbiology

KW - CP: Plants

KW - entomopathogenic nematodes

KW - Photorhabdus bacteria

KW - plants

KW - root herbivores

KW - scavenger insects

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Bacterial bioluminescence is an important regulator of multitrophic interactions in the soil

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Keywords

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