AI Article Synopsis
- Phenotypic plasticity refers to how a single genotype can produce different traits (phenotypes) depending on environmental factors, which is important for predicting plant characteristics in varying conditions.
- This study focused on sorghum lines, examining how flowering time and plant height vary across 14 different environments, ultimately creating an environmental index to connect these conditions and inform genetic analysis.
- Genome-wide association studies (GWAS) identified new genetic regions involved in these traits, leading to successful predictions of plant performance, which can aid in breeding efforts for future environmental challenges.
Article Abstract
Phenotypic plasticity is the property of a genotype to produce different phenotypes under different environmental conditions. Understanding genetic and environmental factors behind phenotypic plasticity helps answer some longstanding biology questions and improve phenotype prediction. In this study, we investigated the phenotypic plasticity of flowering time and plant height with a set of diverse sorghum lines evaluated across 14 natural field environments. An environmental index was identified to quantitatively connect the environments. Reaction norms were then obtained with the identified indices for genetic dissection of phenotypic plasticity and performance prediction. Genome-wide association studies (GWAS) detected different sets of loci for reaction-norm parameters (intercept and slope), including 10 new genomic regions in addition to known maturity (Ma1) and dwarfing genes (Dw1, Dw2, Dw3, Dw4 and qHT7.1). Cross-validations under multiple scenarios showed promising results in predicting diverse germplasm in dynamic environments. Additional experiments conducted at four new environments, including one from a site outside of the geographical region of the initial environments, further validated the predictions. Our findings indicate that identifying the environmental index enriches our understanding of gene-environmental interplay underlying phenotypic plasticity, and that genomic prediction with the environmental dimension facilitates prediction-guided breeding for future environments.
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| http://dx.doi.org/10.1111/pce.15213 | DOI Listing |
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