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Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits

Guinea grass ( Megathyrsus maximus ) is a common tropical forage crop valued for its high biomass yields, nutritional quality, and adaptability to diverse abiotic stresses. However, the genetic basis of its key agronomic traits remains poorly understood. In this study, we conducted genome-wide assoc...

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Autores principales: Lopez-Contreras, Lina Maria, Denning-James, Kate E., Carvajal Tapia, Juliana, Arango, Jacobo, Villegas, Daniel Mauricio, Jauregui, Rosa Noemi, Wenzl, Peter, De Vega, Jose J., Carvajal Yepes, Monica
Formato: Journal Article
Lenguaje:Inglés
Publicado: BioMed Central 2025
Materias:
breeding programmes
breeding lines
forage yield
rendimiento del forraje
genome-wide association studies
estudio de asociación del genoma completo
nitrogen metabolism
lignins
lignina
programa de crianza
metabolismo del nitrógeno
linea reproductora
Acceso en línea:https://hdl.handle.net/10568/179419
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author Lopez-Contreras, Lina Maria
Denning-James, Kate E.
Carvajal Tapia, Juliana
Arango, Jacobo
Villegas, Daniel Mauricio
Jauregui, Rosa Noemi
Wenzl, Peter
De Vega, Jose J.
Carvajal Yepes, Monica
author_browse Arango, Jacobo
Carvajal Tapia, Juliana
Carvajal Yepes, Monica
De Vega, Jose J.
Denning-James, Kate E.
Jauregui, Rosa Noemi
Lopez-Contreras, Lina Maria
Villegas, Daniel Mauricio
Wenzl, Peter
author_facet Lopez-Contreras, Lina Maria
Denning-James, Kate E.
Carvajal Tapia, Juliana
Arango, Jacobo
Villegas, Daniel Mauricio
Jauregui, Rosa Noemi
Wenzl, Peter
De Vega, Jose J.
Carvajal Yepes, Monica
author_sort Lopez-Contreras, Lina Maria
collection Repository of Agricultural Research Outputs (CGSpace)
description Guinea grass ( Megathyrsus maximus ) is a common tropical forage crop valued for its high biomass yields, nutritional quality, and adaptability to diverse abiotic stresses. However, the genetic basis of its key agronomic traits remains poorly understood. In this study, we conducted genome-wide association studies (GWAS) using whole genome sequencing (WGS) data from 124 diverse M. maximus genebank accessions, yielding a high-density single-nucleotide polymorphism (SNP) data set of 1,261,156 SNPs after mapping to a related reference genome. Population structure analysis revealed three major genetic subgroups within the collection. Using three complementary GWAS models (Bayesian-information and Linkage-disequilibrium Iteratively Incorporating Knowledge (BLINK), the Fixed and Random Model Circulating Polynomial Unification (FarmCPU), and the Multiple Loci Mixed Model (MLMM)), we identified 25 significant marker-trait associations (MTAs) spanning three major trait categories: (i) phenological and plant-architecture; (ii) nutritional and digestibility; and (iii) productivity and nitrogen-use traits, evaluated under wet-season, dry-season, and greenhouse conditions. Several MTAs were associated with genes related to plant growth and development, lignin biosynthesis, and nitrogen-cycling (including nitrogen uptake and biological nitrification inhibition). Notably, two SNPs were pleiotropic, with one associated with both nitrogen uptake and shoot biomass production, and another shared between crude protein and in vitro dry matter digestibility. Although a complete reference genome is not yet available for M. maximus, our results provide valuable information for future marker validation and breeding. This study highlights the potential of GWAS as a powerful tool for trait dissection and genetic improvement in tropical forage crops. The research represents a step forward in developing more resilient and productive M. maximus cultivars.
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publishDate 2025
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spelling CGSpace1794192026-01-07T02:16:30Z Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits Lopez-Contreras, Lina Maria Denning-James, Kate E. Carvajal Tapia, Juliana Arango, Jacobo Villegas, Daniel Mauricio Jauregui, Rosa Noemi Wenzl, Peter De Vega, Jose J. Carvajal Yepes, Monica breeding programmes breeding lines forage yield rendimiento del forraje genome-wide association studies estudio de asociación del genoma completo nitrogen metabolism lignins lignina programa de crianza metabolismo del nitrógeno linea reproductora Guinea grass ( Megathyrsus maximus ) is a common tropical forage crop valued for its high biomass yields, nutritional quality, and adaptability to diverse abiotic stresses. However, the genetic basis of its key agronomic traits remains poorly understood. In this study, we conducted genome-wide association studies (GWAS) using whole genome sequencing (WGS) data from 124 diverse M. maximus genebank accessions, yielding a high-density single-nucleotide polymorphism (SNP) data set of 1,261,156 SNPs after mapping to a related reference genome. Population structure analysis revealed three major genetic subgroups within the collection. Using three complementary GWAS models (Bayesian-information and Linkage-disequilibrium Iteratively Incorporating Knowledge (BLINK), the Fixed and Random Model Circulating Polynomial Unification (FarmCPU), and the Multiple Loci Mixed Model (MLMM)), we identified 25 significant marker-trait associations (MTAs) spanning three major trait categories: (i) phenological and plant-architecture; (ii) nutritional and digestibility; and (iii) productivity and nitrogen-use traits, evaluated under wet-season, dry-season, and greenhouse conditions. Several MTAs were associated with genes related to plant growth and development, lignin biosynthesis, and nitrogen-cycling (including nitrogen uptake and biological nitrification inhibition). Notably, two SNPs were pleiotropic, with one associated with both nitrogen uptake and shoot biomass production, and another shared between crude protein and in vitro dry matter digestibility. Although a complete reference genome is not yet available for M. maximus, our results provide valuable information for future marker validation and breeding. This study highlights the potential of GWAS as a powerful tool for trait dissection and genetic improvement in tropical forage crops. The research represents a step forward in developing more resilient and productive M. maximus cultivars. 2025-12-30 2026-01-06T09:50:04Z 2026-01-06T09:50:04Z Journal Article https://hdl.handle.net/10568/179419 en Open Access application/pdf BioMed Central Lopez-Contreras, L.M.; Denning-James, K.E.; Carvajal Tapia, J.; Arango, J.; Villegas, D.M.; Jauregui, R.N.; Wenzl, P.; De Vega, J.J.; Carvajal Yepes, M. (2025) Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits. BMC Plant Biology 25(1): ISSN: 1471-2229
spellingShingle breeding programmes
breeding lines
forage yield
rendimiento del forraje
genome-wide association studies
estudio de asociación del genoma completo
nitrogen metabolism
lignins
lignina
programa de crianza
metabolismo del nitrógeno
linea reproductora
Lopez-Contreras, Lina Maria
Denning-James, Kate E.
Carvajal Tapia, Juliana
Arango, Jacobo
Villegas, Daniel Mauricio
Jauregui, Rosa Noemi
Wenzl, Peter
De Vega, Jose J.
Carvajal Yepes, Monica
Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits
title Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits
title_full Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits
title_fullStr Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits
title_full_unstemmed Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits
title_short Genome-wide association study of a Guinea grass (Megathyrsus maximus) diversity panel reveals the genetic basis of agronomic and nutritional traits
title_sort genome wide association study of a guinea grass megathyrsus maximus diversity panel reveals the genetic basis of agronomic and nutritional traits
topic breeding programmes
breeding lines
forage yield
rendimiento del forraje
genome-wide association studies
estudio de asociación del genoma completo
nitrogen metabolism
lignins
lignina
programa de crianza
metabolismo del nitrógeno
linea reproductora
url https://hdl.handle.net/10568/179419
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