Abstract
INFLORESCENCE DEFICIENT IN ABSCISSION (IDA) is a signaling peptide that regulates cell separation in Arabidopsis including floral organ abscission and lateral root emergence. IDA is highly conserved in dicotyledonous flowering plant genomes. IDA-like sequences were also found in the genomic sequences of root-knot nematodes, Meloidogyne spp., which are globally deleterious pathogens of agriculturally important plants, but the role of these genes is unknown. Exogenous treatment of the Arabidopsis ida mutant with synthetic peptide identical to the M. incognita IDA-like 1 (MiIDL1) protein sequence minus its N-terminal signal peptide recovered both the abscission and root architecture defects. Constitutive expression of the full-length MiIDL1 open reading frame in the ida mutant substantially recovered the delayed floral organ abscission phenotype whereas transformants expressing a construct missing the MiIDL1 signal peptide retained the delayed abscission phenotype. Importantly, wild-type Arabidopsis plants harboring an MiIDL1-RNAi construct and infected with nematodes had approximately 40% fewer galls per root than control plants. Thus, the MiIDL1 gene produces a functional IDA mimic that appears to play a role in successful gall development on Arabidopsis roots.
Highlights
Abscission is the process by which organs are shed from the parent plant (Roberts et al, 2002; Estornell et al, 2013)
We have demonstrated that the root-knot nematode M. incognita IDA-like 1 (MiIDL1) gene product can function as an IDA signal
The reversal of the ida mutant phenotype by MiIDL1 indicates that the MiIDL1 gene produces a protein that presumably can bind to the HAE/HAESA-like 2 (HSL2) receptors to propagate the signaling events necessary to complement the mutant phenotype
Summary
Abscission is the process by which organs (leaves, flowers, fruit, petals, stems, etc.) are shed from the parent plant (Roberts et al, 2002; Estornell et al, 2013). An innate part of abscission is cell separation, which is essential for additional developmental processes including organogenesis, emergence of lateral roots, pollen tube elongation through the pistil, seed germination, and pod and anther dehiscence (Roberts et al, 2002). In 2003, Butenko et al (2003) described an Arabidosis thaliana mutant inflorescence deficient in abscission (ida) that does not abscise (drop) its floral organs. The IDA gene encodes a small protein of 77 amino acids that includes an N-terminal signal peptide for secretion into the apoplast. IDA is a member of a small gene family in Arabidopsis
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