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Transcriptomic network analyses shed light on the regulation of cuticle development in maize leaves

Pengfei Qiao, Richard Bourgault, Marc Mohammadi, Susanne Matschi, Glenn Philippe, Laurie G. Smith, Michael A. Gore, Isabel Molina, Michael J. Scanlon

2020Proceedings of the National Academy of Sciences46 citationsDOIOpen Access PDF

Abstract

Plant cuticles are composed of wax and cutin and evolved in the land plants as a hydrophobic boundary that reduces water loss from the plant epidermis. The expanding maize adult leaf displays a dynamic, proximodistal gradient of cuticle development, from the leaf base to the tip. Laser microdissection RNA Sequencing (LM-RNAseq) was performed along this proximodistal gradient, and complementary network analyses identified potential regulators of cuticle biosynthesis and deposition. A weighted gene coexpression network (WGCN) analysis suggested a previously undescribed function for PHYTOCHROME-mediated light signaling during the regulation of cuticular wax deposition. Genetic analyses reveal that phyB1 phyB2 double mutants of maize exhibit abnormal cuticle composition, supporting the predictions of our coexpression analysis. Reverse genetic analyses also show that phy mutants of the moss Physcomitrella patens exhibit abnormal cuticle composition, suggesting an ancestral role for PHYTOCHROME-mediated, light-stimulated regulation of cuticle development during plant evolution.

Topics & Concepts

CutinCuticle (hair)BiologyPhyscomitrella patensLaser capture microdissectionEpidermis (zoology)Cell biologyMutantPlant cuticleBotanyArabidopsisMossWaxGeneBiochemistryAnatomyGene expressionPlant Surface Properties and TreatmentsInsect and Arachnid Ecology and BehaviorPostharvest Quality and Shelf Life Management
Transcriptomic network analyses shed light on the regulation of cuticle development in maize leaves | Litcius