Above and belowground phenotypic response to exogenous auxin across Arabidopsis thaliana mutants and natural accessions varies from seedling to reproductive maturity
Patrick Sydow, Courtney J. Murren

TL;DR
This study shows how exogenous auxin affects root and plant development in Arabidopsis mutants and natural accessions at different life stages.
Contribution
The study reveals how auxin-related gene variation and alternative polyadenylation influence plant traits across developmental stages.
Findings
Exogenous auxin decreased seedling biomass but increased lateral root density.
At reproductive maturity, auxin increased aboveground mass and root length.
Mutants with genes having many APA sites showed reduced early seedling biomass when exposed to auxin.
Abstract
Plant hormones influence phenology, development, and function of above and belowground plant structures. In seedlings, auxin influences the initiation and development of lateral roots and root systems. How auxin-related genes influence root initiation at early life stages has been investigated from numerous perspectives. There is a gap in our understanding of how these genes influence root size through the life cycle and in mature plants. Across development, the influence of a particular gene on plant phenotypes is partly regulated by the addition of a poly-A tail to mRNA transcripts via alternative polyadenylation (APA). Auxin related genes have documented variation in APA, with auxin itself contributing to APA site switches. Studies of the influence of exogenous auxin on natural plant accessions and mutants of auxin pathway gene families exhibiting variation in APA are required for a…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant nutrient uptake and metabolism · Plant Stress Responses and Tolerance
