Litcius/Paper detail

Modeling the influence of phenotypic plasticity on maize hybrid performance

Ran Fu, Xiangfeng Wang

2023Plant Communications27 citationsDOIOpen Access PDF

Abstract

Phenotypic plasticity, the ability of an individual to alter its phenotype in response to changes in the environment, has been proposed as a target for breeding crop varieties with high environmental fitness. Here, we used phenotypic and genotypic data from multiple maize (Zea mays L.) populations to mathematically model phenotypic plasticity in response to the environment (PPRE) in inbred and hybrid lines. PPRE can be simply described by a linear model in which the two main parameters, intercept a and slope b, reflect two classes of genes responsive to endogenous (class A) and exogenous (class B) signals that coordinate plant development. Together, class A and class B genes contribute to the phenotypic plasticity of an individual in response to the environment. We also made connections between phenotypic plasticity and hybrid performance or general combining ability (GCA) of yield using 30 F1 hybrid populations generated by crossing the same maternal line with 30 paternal lines from different maize heterotic groups. We show that the parameters a and b from two given parental lines must be concordant to reach an ideal GCA of F1 yield. We hypothesize that coordinated regulation of the two classes of genes in the F1 hybrid genome is the basis for high GCA. Based on this theory, we built a series of predictive models to evaluate GCA in silico between parental lines of different heterotic groups.

Topics & Concepts

BiologyIn silicoPhenotypePhenotypic plasticityInbred strainGeneticsHybridPlasticityGeneHeterosisEvolutionary biologyComputational biologyAgronomyPhysicsThermodynamicsGenetic Mapping and Diversity in Plants and AnimalsGenetics and Plant BreedingGenetic and phenotypic traits in livestock