Background and aims
Recent studies suggest that root border cells function in defense of the root by an extracellular DNA-based trapping mechanism similar to that described in mammalian white blood cells. Genes controlling the specialized properties of border cells as they detach from the root tip therefore are of interest.
Methods
mRNA differential display was used to identify Brd13, a sequence expressed in border cells but not other root tissues. RNase protection and mRNA Northern blot analyses, and reporter gene expression under the control of the Brd13 promoter in transgenic hairy roots were used to confirm localized expression. Phenotype analysis of transgenic hairy roots expressing Brd13 antisense mRNA was carried out.
Results
Brd13 was expressed constitutively in border cells but not in leaves, stems, or roots without border cells. The predicted protein shares sequence similarity with flavin-binding proteins. Transgenic hairy roots expressing Brd13 antisense mRNA exhibited abnormal growth and morphology.
Conclusions
We report here that altered expression of a putative flavin-binding protein in border cells resulted in altered root development. Flavin-binding proteins play key roles in development, defense, and local auxin biosynthesis. The Brd13 gene and its promoter may be useful in creating defined changes in root development and defense.