Journal
PLANT PHYSIOLOGY
Volume 192, Issue 3, Pages 2394-2403Publisher
OXFORD UNIV PRESS INC
DOI: 10.1093/plphys/kiad194
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Root lodging in maize is influenced by complex regulatory networks and genes associated with lodging resistance do not completely overlap with those related to root system architecture. The failure of root anchorage is a major cause of crop yield loss, but factors other than root system architecture may also play a role.
Complex regulatory networks of physiological and biochemical pathways influence root lodging in maize, with limited overlap of genes associated with lodging resistance and root system architecture. Roots anchor plants in soil, and the failure of anchorage (i.e. root lodging) is a major cause of crop yield loss. Anchorage is often assumed to be driven by root system architecture (RSA). We made use of a natural experiment to measure the overlap between the genetic regulation of RSA and anchorage. After one of the most devastating derechos ever recorded in August 2020, we phenotyped root lodging in a maize (Zea mays) diversity panel consisting of 369 genotypes grown in 6 environments affected by the derecho. Genome-wide and transcriptome-wide association studies identified 118 candidate genes associated with root lodging. Thirty-four percent (40/118) of these were homologs of genes from Arabidopsis (Arabidopsis thaliana) that affect traits such as root morphology and lignin content, expected to affect root lodging. Finally, gene ontology enrichment analysis of the candidate genes and their predicted interaction partners at the transcriptional and translational levels revealed the complex regulatory networks of physiological and biochemical pathways underlying root lodging in maize. Limited overlap between genes associated with lodging resistance and RSA in this diversity panel suggests that anchorage depends in part on factors other than the gross characteristics of RSA.
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