Control of Arabidopsis meristem development by thioredoxin-dependent regulation of intercellular transport

Cell-to-cell transport in plants occurs through cytoplasmic channels called “plasmodesmata” and is regulated by developmental and environmental factors. Callose deposition modulates plasmodesmal transport in vivo, but little is known about the mechanisms that regulate this process. Here we report a genetic approach to identify mutants affecting plasmodesmal transport. We isolated 5 mutants, named ( ), affected in GFP unloading from the phloem into the meristem. mutants were seedling lethal and carried lesions in an -type thioredoxin that is expressed in non-green plastids of meristems and organ primordia. Callose and hydrogen peroxide accumulated in mutants, and WT plants subjected to oxidative conditions phenocopied the trafficking defects. Ectopic expression of GAT1 in mature leaves increased plasmodesmal permeability and led to a delay in senescence and flowering time. We propose a role for the GAT1 thioredoxin in the redox regulation of callose deposition and symplastic permeability that is essential for meristem maintenance in .

Duke Scholars

Author Adrianna Katrina San Roman Molecular Genetics and Microbiology