β-1,3-Glucanases

Abstract

Plasmodesmata (Pd), coaxial membranous channels that connect adjacent plant cells, are not static, but show a dynamic nature and can be opened or closed. These controlled changes in Pd conductivity regulate plant symplasmic permeability and play a role both in development and defense processes. One of the mechanisms shown to produce these changes is the deposition and hydrolysis of callose by β-1-3-synthase and glucanase, respectively. Recently we have identified the first β-1,3-glucanase Arabidopsis enzyme that is associated to the macromolecular Pd complex, termed AtBG_pap. When fused to GFP, this previously identified GPI-anchored protein localizes to the ER and the plasma membrane where it appears in a punctuate pattern that co-localizes with callose present around Pd. In T-DNA insertion mutants that do not transcribe AtBG_pap, GFP cell-to-cell movement between epidermal cells is reduced and callose levels around Pd are elevated. In this addenda we review the plant developmental processes of symplasmi...