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Temporal and spatial auxin responsive networks in maize primary roots

Maxwell R. McReynolds, Linkan Dash, Christian Montes, Melissa A. Draves, Michelle G. Lang, Justin W. Walley, Dior R. Kelley

2022Quantitative Plant Biology17 citationsDOIOpen Access PDF

Abstract

Auxin is a key regulator of root morphogenesis across angiosperms. To better understand auxin-regulated networks underlying maize root development, we have characterized auxin-responsive transcription across two time points (30 and 120 min) and four regions of the primary root: the meristematic zone, elongation zone, cortex and stele. Hundreds of auxin-regulated genes involved in diverse biological processes were quantified in these different root regions. In general, most auxin-regulated genes are region unique and are predominantly observed in differentiated tissues compared with the root meristem. Auxin gene regulatory networks were reconstructed with these data to identify key transcription factors that may underlie auxin responses in maize roots. Additionally, Auxin-Response Factor subnetworks were generated to identify target genes that exhibit tissue or temporal specificity in response to auxin. These networks describe novel molecular connections underlying maize root development and provide a foundation for functional genomic studies in a key crop.

Topics & Concepts

AuxinMeristemBiologySteleTranscription factorLateral rootMorphogenesisArabidopsisCell biologyBotanyGeneRegulatorGeneticsMutantPlant Molecular Biology ResearchPlant Reproductive BiologyPlant nutrient uptake and metabolism
Temporal and spatial auxin responsive networks in maize primary roots | Litcius