Plants as animals are associated with a cortege of microbes influencing their health, fitness and evolution. Scientists refer to all living organisms as holobionts, complex genetic units that coevolve simultaneously. This is what has been recently proposed as the hologenome theory. This exciting theory has important implications on animal and plant health; however, it still needs consistent proof to be validated. Indeed, holobionts are still poorly studied in their natural habitats where coevolution processes occur. Compared to animals, wild plant populations are an excellent model to explore the hologenome theory. These sessile holobionts have coevolved with their microbiota for decades, and natural selection and adaptive processes acting on wild plants are likely to regulate the plant-microbe interactions. Here, we conducted a microbiota survey, plant genome sequencing and genome-environmental analysis (GEA) of 26 natural populations of the plant species Brassica rapa. We collected plants over two seasons in Italy and France and analysed the root and rhizosphere microbiota. When conducting GEA, we evidenced neat peaks of association correlating with both fungal and bacterial microbiota. Surprisingly, we found 13 common genes between fungal and bacterial diversity descriptors that we referred to under the name of holobiont generalist genes (HGGs).

Maillet L., Norest M., Kautsky A., Geraci A., Oddo E., Troia A., et al. (2025). Plant Genetic Bases Associated With Microbiota Descriptors Shed Light Into a Novel Holobiont Generalist Genes Theory. ENVIRONMENTAL MICROBIOLOGY, 27(5) [10.1111/1462-2920.70108].

Plant Genetic Bases Associated With Microbiota Descriptors Shed Light Into a Novel Holobiont Generalist Genes Theory

Geraci A.;Oddo E.;Troia A.;Schicchi R.;
2025-05-01

Abstract

Plants as animals are associated with a cortege of microbes influencing their health, fitness and evolution. Scientists refer to all living organisms as holobionts, complex genetic units that coevolve simultaneously. This is what has been recently proposed as the hologenome theory. This exciting theory has important implications on animal and plant health; however, it still needs consistent proof to be validated. Indeed, holobionts are still poorly studied in their natural habitats where coevolution processes occur. Compared to animals, wild plant populations are an excellent model to explore the hologenome theory. These sessile holobionts have coevolved with their microbiota for decades, and natural selection and adaptive processes acting on wild plants are likely to regulate the plant-microbe interactions. Here, we conducted a microbiota survey, plant genome sequencing and genome-environmental analysis (GEA) of 26 natural populations of the plant species Brassica rapa. We collected plants over two seasons in Italy and France and analysed the root and rhizosphere microbiota. When conducting GEA, we evidenced neat peaks of association correlating with both fungal and bacterial microbiota. Surprisingly, we found 13 common genes between fungal and bacterial diversity descriptors that we referred to under the name of holobiont generalist genes (HGGs).
mag-2025
Settore BIOS-01/A - Botanica generale
Settore BIOS-01/B - Botanica sistematica
Settore BIOS-01/C - Botanica ambientale e applicata
Settore BIOS-02/A - Fisiologia vegetale
Maillet L., Norest M., Kautsky A., Geraci A., Oddo E., Troia A., et al. (2025). Plant Genetic Bases Associated With Microbiota Descriptors Shed Light Into a Novel Holobiont Generalist Genes Theory. ENVIRONMENTAL MICROBIOLOGY, 27(5) [10.1111/1462-2920.70108].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/682035
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