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Leaf physiology variations are modulated by natural variations that underlie stomatal morphology in <i>Populus</i>

Lianzheng Li, Zhuoying Jin, Rui Huang, Jiaxuan Zhou, Fangyuan Song, Liangchen Yao, Peng Li, Wenjie Lu, Liang Xiao, Mingyang Quan, Deqiang Zhang, Qingzhang Du

2022Plant Cell & Environment20 citationsDOI

Abstract

Abstract Stomata are essential for photosynthesis and abiotic stress tolerance. Here, we used multiomics approaches to dissect the genetic architecture and adaptive mechanisms that underlie stomatal morphology in Populus tomentosa juvenile natural population (303 accessions). We detected 46 candidate genes and 15 epistatic gene‐pairs, associated with 5 stomatal morphologies and 18 leaf development and photosynthesis traits, through genome‐wide association studies. Expression quantitative trait locus mapping revealed that stomata‐associated gene loci were significantly associated with the expression of leaf‐related genes; selective sweep analysis uncovered significant differentiation in the allele frequencies of genes that underlie stomatal variations. An allelic regulatory network operating under drought stress and adequate precipitation conditions, with three key regulators ( DUF538 , TRA2 and AbFH2 ) and eight interacting genes, was identified that might regulate leaf physiology via modulation of stomatal shape and density. Validation of candidate gene variations in drought‐tolerant and F 1 hybrid populations of P. tomentosa showed that the DUF538 , TRA2 and AbFH2 loci cause functional stabilisation of spatiotemporal regulatory, whose favourable alleles can be faithfully transmitted to offspring. This study provides insights concerning leaf physiology and stress tolerance via the regulation of stomatal determination in perennial plants.

Topics & Concepts

BiologyEpistasisGenetic architectureAbiotic componentAbiotic stressGeneDrought toleranceBotanyPerennial plantQuantitative trait locusPlant physiologyCandidate geneLocus (genetics)AlleleGeneticsEvolutionary biologyEcologyPlant Molecular Biology ResearchBioenergy crop production and managementPlant Water Relations and Carbon Dynamics
Leaf physiology variations are modulated by natural variations that underlie stomatal morphology in <i>Populus</i> | Litcius