C‐Type LECTIN receptor‐like kinase 1 and ACTIN DEPOLYMERIZING FACTOR 3 are key components of plasmodesmata callose modulation

Plasmodesmata (PDs) are intercellular organelles carrying multiple membranous nanochannels that allow the trafficking of cellular signalling molecules. The channel regulation of PDs occurs dynamically and is required in various developmental and physiological processes. It is well known that callose is a critical component in regulating PD permeability or symplasmic connectivity, but the understanding of the signalling pathways and mechanisms of its regulation is limited. Here, we used the reverse genetic approach to investigate the role of C‐type lectin receptor‐like kinase 1 (CLRLK1) in the aspect of PD callose‐modulated symplasmic continuity. Here, we found that loss‐of‐function mutations in CLRLK1 resulted in excessive PD callose deposits and reduced symplasmic continuity, resulting in an accelerated gravitropic response. The protein interactome study also found that CLRLK1 interacted with actin depolymerizing factor 3 (ADF3) in vitro and in plants. Moreover, mutations in ADF3 result in elevated PD callose deposits and faster gravitropic response. Our results indicate that CLRLK1 and ADF3 negatively regulate PD callose accumulation, contributing to fine‐tuning symplasmic opening apertures. Overall, our studies identified two key components involved in the deposits of PD callose and provided new insights into how symplasmic connectivity is maintained by the control of PD callose homoeostasis. Summary statement In the current research article, we have identified a novel C‐TYPE LECTIN RECEPTOR‐LIKE KINASE 1 (CLRLK1) in Arabidopsis, which modulates symplasmic connectivity and gravitropic response via plasmodesmata callose regulation. And this modulation might recruit an actin‐depolymerizing factor 3 (ADF3) function.