A Dirigent Protein Complex Directs Lignin Polymerization and Assembly of the Root Diffusion Barrier

Overview

Journal Science

Specialty Science

Date 2023 Oct 26

PMID 37883539

Authors

Yi-Qun Gao

Jin-Quan Huang

Guilhem Reyt

Tao Song

Ashley Love

David Tiemessen

Pei-Ying Xue

Wen-Kai Wu

Michael W George

Xiao-Ya Chen

Dai-Yin Chao

Gabriel Castrillo

David E Salt

Affiliations

Soon will be listed here.

Abstract

Functionally similar to the tight junctions present in animal guts, plant roots have evolved a lignified Casparian strip as an extracellular diffusion barrier in the endodermis to seal the root apoplast and maintain nutrient homeostasis. How this diffusion barrier is structured has been partially defined, but its lignin polymerization and assembly steps remain elusive. Here, we characterize a family of dirigent proteins (DPs) essential for both the localized polymerization of lignin required for Casparian strip biogenesis in the cell wall and for attachment of the strip to the plasma membrane to seal the apoplast. We reveal a Casparian strip lignification mechanism that requires cooperation between DPs and the Schengen pathway. Furthermore, we demonstrate that DPs directly mediate lignin polymerization as part of this mechanism.

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