Litcius/Paper detail

Engineering quantitative stomatal trait variation and local adaptation potential by cis‐regulatory editing

Nicholas G. Karavolias, Dhruv Patel‐Tupper, Ana Gallegos Cruz, Lillian Litvak, Samantha E. Lieberman, Michelle Tjahjadi, Krishna Niyogi, Myeong‐Je Cho, Brian J. Staskawicz

2024Plant Biotechnology Journal11 citationsDOIOpen Access PDF

Abstract

Cis-regulatory element editing can generate quantitative trait variation that mitigates extreme phenotypes and harmful pleiotropy associated with coding sequence mutations. Here, we applied a multiplexed CRISPR/Cas9 approach, informed by bioinformatic datasets, to generate genotypic variation in the promoter of OsSTOMAGEN, a positive regulator of rice stomatal density. Engineered genotypic variation corresponded to broad and continuous variation in stomatal density, ranging from 70% to 120% of wild-type stomatal density. This panel of stomatal variants was leveraged in physiological assays to establish discrete relationships between stomatal morphological variation and stomatal conductance, carbon assimilation and intrinsic water use efficiency in steady-state and fluctuating light conditions. Additionally, promoter alleles were subjected to vegetative drought regimes to assay the effects of the edited alleles on developmental response to drought. Notably, the capacity for drought-responsive stomatal density reprogramming in stomagen and two cis-regulatory edited alleles was reduced. Collectively our data demonstrate that cis-regulatory element editing can generate near-isogenic trait variation that can be leveraged for establishing relationships between anatomy and physiology, providing a basis for optimizing traits across diverse environments.

Topics & Concepts

BiologyTraitQuantitative trait locusGeneticsStomatal conductanceGenePhenotypeAlleleComputational biologyEvolutionary biologyBotanyPhotosynthesisProgramming languageComputer scienceCRISPR and Genetic EngineeringRice Cultivation and Yield ImprovementPlant Molecular Biology Research