Reducing Stomatal Density by Expression of a Synthetic EPF Increases Leaf Intrinsic Water Use Efficiency and Reduces Plant Water Use in a C4 Crop

Themes: Feedstock Production

Keywords: Phenotyping, Water Use Efficiency

Citation

Ferguson, J.N., Schmuker, P., Dmitrieva, A., Quach, T., Zhang, T., Ge, Z., Nersesian, N., Sato, S.J., Clemente, T.E., Leakey, A.D.B. July 22, 2024. “Data for Reducing Stomatal Density by Expression of a Synthetic Epidermal Patterning Factor Increases Leaf Intrinsic Water Use Efficiency and Reduces Plant Water Use in a C4 Crop.” University of Illinois Urbana-Champaign. DOI: 10.13012/B2IDB-4017279_V1.

Overview

Abaxial stomatal density of independent transgenic events of sorghum: (a) ubiquitously expressing the sorghum ortholog of EPIDERMAL PATTERNING FACTOR-1 (SbEPF1) and (b) ubiquitously expressing a fusion element synthesized from elements of the sorghum orthologs of EPIDERMAL PATTERNING FACTOR-2 (EPF2) and EPIDERMAL PATTERNING FACTOR-LIKE 9 (EPFL9) (SbEPFsyn). The events that displayed significantly different stomatal densities compared to the wild-type (WT), according to a post-hoc Tukey test following a one-way ANOVA, are denoted via red asterisks. The independent events of SbEPFsyn that were carried forward for further investigation are highlighted in bold and underlined (ZG602-5-12b and ZG600-6-13a).

Enhancing crop water use efficiency (WUE) is a key target trait for climatic resilience and expanding cultivation on marginal lands. Engineering lower stomatal density to reduce stomatal conductance (gs) has improved WUE in multiple C3 crop species. However, reducing gs in C3 species often reduces photosynthetic carbon gain. A different response is expected in C4 plants because they possess specialized anatomy and biochemistry which concentrates CO2 at the site of fixation. This modifies the photosynthesis (AN) relationship with intracellular CO2 concentration (ci) so that photosynthesis is CO2-saturated and reductions in gs are unlikely to limit AN. To test this hypothesis, genetic strategies were investigated to reduce stomatal density in the C4 crop sorghum. Constitutive expression of a synthetic epidermal patterning factor (EPF) transgenic allele in sorghum, led to reduced stomatal densities, reduced gs, reduced plant water use and avoidance of stress during a period of water deprivation. In addition, moderate reduction in stomatal density did not increase stomatal limitation to AN. However, these positive outcomes were associated with negative pleiotropic effects on reproductive development and photosynthetic capacity. Avoiding pleiotropy by targeting expression of the transgene to specific tissues could provide a pathway to improved agronomic outcomes.

Data

Illinois Data Bank – Optical tomography stomatal density, and phenotypic data

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