Adaptive gene loss in the common bean pan-genome during range expansion and domestication

Gaia Cortinovis; Leonardo Vincenzi; Robyn Anderson; Giovanni Marturano; Jacob Ian Marsh; Philipp Emanuel Bayer; Lorenzo Rocchetti; Giulia Frascarelli; Giovanna Lanzavecchia; Alice Pieri; Andrea Benazzo; Elisa Bellucci; Valerio Di Vittori; Laura Nanni; Juan José Ferreira Fernández; Marzia Rossato; Orlando Mario Aguilar; Peter Laurent Morrell; Monica Rodriguez; Tania Gioia; Kerstin Neumann; Juan Camilo Alvarez Diaz; Ariane Gratias; Christophe Klopp; Elena Bitocchi; Valérie Geffroy; Massimo Delledonne; David Edwards; Roberto Papa

doi:10.1038/s41467-024-51032-2

Adaptive gene loss in the common bean pan-genome during range expansion and domestication

Gaia Cortinovis, Leonardo Vincenzi, Robyn Anderson, Giovanni Marturano, Jacob Ian Marsh, Philipp Emanuel Bayer, Lorenzo Rocchetti, Giulia Frascarelli, Giovanna Lanzavecchia, Alice Pieri, Andrea Benazzo, Elisa Bellucci, Valerio Di Vittori, Laura Nanni, Juan José Ferreira Fernández, Marzia Rossato, Orlando Mario Aguilar, Peter Laurent Morrell, Monica Rodriguez, Tania GioiaKerstin Neumann, Juan Camilo Alvarez Diaz, Ariane Gratias, Christophe Klopp, Elena Bitocchi, Valérie Geffroy, Massimo Delledonne, David Edwards, Roberto Papa

Agronomy and Plant Genetics

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

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Abstract

The common bean (Phaseolus vulgaris L.) is a crucial legume crop and an ideal evolutionary model to study adaptive diversity in wild and domesticated populations. Here, we present a common bean pan-genome based on five high-quality genomes and whole-genome reads representing 339 genotypes. It reveals ~234 Mb of additional sequences containing 6,905 protein-coding genes missing from the reference, constituting 49% of all presence/absence variants (PAVs). More non-synonymous mutations are found in PAVs than core genes, probably reflecting the lower effective population size of PAVs and fitness advantages due to the purging effect of gene loss. Our results suggest pan-genome shrinkage occurred during wild range expansion. Selection signatures provide evidence that partial or complete gene loss was a key adaptive genetic change in common bean populations with major implications for plant adaptation. The pan-genome is a valuable resource for food legume research and breeding for climate change mitigation and sustainable agriculture.

Original language	English (US)
Article number	6698
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-51032-2
State	Published - Dec 2024

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© The Author(s) 2024.

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Cortinovis, G., Vincenzi, L., Anderson, R., Marturano, G., Marsh, J. I., Bayer, P. E., Rocchetti, L., Frascarelli, G., Lanzavecchia, G., Pieri, A., Benazzo, A., Bellucci, E., Di Vittori, V., Nanni, L., Ferreira Fernández, J. J., Rossato, M., Aguilar, O. M., Morrell, P. L., Rodriguez, M., ... Papa, R. (2024). Adaptive gene loss in the common bean pan-genome during range expansion and domestication. Nature communications, 15(1), Article 6698. https://doi.org/10.1038/s41467-024-51032-2

Cortinovis, G, Vincenzi, L, Anderson, R, Marturano, G, Marsh, JI, Bayer, PE, Rocchetti, L, Frascarelli, G, Lanzavecchia, G, Pieri, A, Benazzo, A, Bellucci, E, Di Vittori, V, Nanni, L, Ferreira Fernández, JJ, Rossato, M, Aguilar, OM, Morrell, PL, Rodriguez, M, Gioia, T, Neumann, K, Alvarez Diaz, JC, Gratias, A, Klopp, C, Bitocchi, E, Geffroy, V, Delledonne, M, Edwards, D & Papa, R 2024, 'Adaptive gene loss in the common bean pan-genome during range expansion and domestication', Nature communications, vol. 15, no. 1, 6698. https://doi.org/10.1038/s41467-024-51032-2

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abstract = "The common bean (Phaseolus vulgaris L.) is a crucial legume crop and an ideal evolutionary model to study adaptive diversity in wild and domesticated populations. Here, we present a common bean pan-genome based on five high-quality genomes and whole-genome reads representing 339 genotypes. It reveals ~234 Mb of additional sequences containing 6,905 protein-coding genes missing from the reference, constituting 49% of all presence/absence variants (PAVs). More non-synonymous mutations are found in PAVs than core genes, probably reflecting the lower effective population size of PAVs and fitness advantages due to the purging effect of gene loss. Our results suggest pan-genome shrinkage occurred during wild range expansion. Selection signatures provide evidence that partial or complete gene loss was a key adaptive genetic change in common bean populations with major implications for plant adaptation. The pan-genome is a valuable resource for food legume research and breeding for climate change mitigation and sustainable agriculture.",

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AU - Bayer, Philipp Emanuel

AU - Rocchetti, Lorenzo

AU - Frascarelli, Giulia

AU - Lanzavecchia, Giovanna

AU - Pieri, Alice

AU - Benazzo, Andrea

AU - Bellucci, Elisa

AU - Di Vittori, Valerio

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AU - Ferreira Fernández, Juan José

AU - Rossato, Marzia

AU - Aguilar, Orlando Mario

AU - Morrell, Peter Laurent

AU - Rodriguez, Monica

AU - Gioia, Tania

AU - Neumann, Kerstin

AU - Alvarez Diaz, Juan Camilo

AU - Gratias, Ariane

AU - Klopp, Christophe

AU - Bitocchi, Elena

AU - Geffroy, Valérie

AU - Delledonne, Massimo

AU - Edwards, David

AU - Papa, Roberto

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N2 - The common bean (Phaseolus vulgaris L.) is a crucial legume crop and an ideal evolutionary model to study adaptive diversity in wild and domesticated populations. Here, we present a common bean pan-genome based on five high-quality genomes and whole-genome reads representing 339 genotypes. It reveals ~234 Mb of additional sequences containing 6,905 protein-coding genes missing from the reference, constituting 49% of all presence/absence variants (PAVs). More non-synonymous mutations are found in PAVs than core genes, probably reflecting the lower effective population size of PAVs and fitness advantages due to the purging effect of gene loss. Our results suggest pan-genome shrinkage occurred during wild range expansion. Selection signatures provide evidence that partial or complete gene loss was a key adaptive genetic change in common bean populations with major implications for plant adaptation. The pan-genome is a valuable resource for food legume research and breeding for climate change mitigation and sustainable agriculture.

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Adaptive gene loss in the common bean pan-genome during range expansion and domestication

Abstract

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UN SDGs

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