Abstract
Plant roots show an impressive degree of plasticity in adapting their branching patterns to ever-changing growth conditions. An important mechanism underlying this adaptation ability is the interaction between hormonal and developmental signals. Here, we analyze the interaction of jasmonate with auxin to regulate lateral root (LR) formation through characterization of an Arabidopsis thaliana mutant, jasmonate-induced defective lateral root1 (jdl1/asa1-1). We demonstrate that, whereas exogenous jasmonate promotes LR formation in wild-type plants, it represses LR formation in jdl1/asa1-1. JDL1 encodes the auxin biosynthetic gene ANTHRANILATE SYNTHASE alpha1 (ASA1), which is required for jasmonate-induced auxin biosynthesis. Jasmonate elevates local auxin accumulation in the basal meristem of wild-type roots but reduces local auxin accumulation in the basal meristem of mutant roots, suggesting that, in addition to activating ASA1-dependent auxin biosynthesis, jasmonate also affects auxin transport. Indeed, jasmonate modifies the expression of auxin transport genes in an ASA1-dependent manner. We further provide evidence showing that the action mechanism of jasmonate to regulate LR formation through ASA1 differs from that of ethylene. Our results highlight the importance of ASA1 in jasmonate-induced auxin biosynthesis and reveal a role for jasmonate in the attenuation of auxin transport in the root and the fine-tuning of local auxin distribution in the root basal meristem.
Highlights
Root systems of higher plants mainly consist of an embryonic primary root and postembryonically developed lateral roots (LRs)
We propose that jasmonate both controls ANTHRANILATE SYNTHASE a1 (ASA1)-dependent auxin biosynthesis and attenuates PIN-dependent auxin transport, providing a fine-tuned regulation of local auxin accumulation in the root basal meristem that is essential for LR formation
We report here that jasmonate plays a role in regulating LR formation in Arabidopsis
Summary
Root systems of higher plants mainly consist of an embryonic primary root and postembryonically developed lateral roots (LRs). It has long been recognized that application of jasmonate inhibits root growth (Ueda and Kato, 1980) This action has been employed as the basis for the most prominent genetic assay to identify jasmonaterelated mutants in Arabidopsis (Staswick et al, 1992; Turner et al, 2002; Wasternack, 2007), which have significantly advanced our understanding of the molecular mechanisms of the jasmonate signaling pathway (Creelman and Mullet, 1997; Turner et al, 2002; Browse, 2005; Wasternack, 2007; Howe and Jander, 2008; Kazan and Manners, 2008). We propose that jasmonate both controls ASA1-dependent auxin biosynthesis and attenuates PIN-dependent auxin transport, providing a fine-tuned regulation of local auxin accumulation in the root basal meristem that is essential for LR formation
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