Elucidation of Spartina Dimethylsulfoniopropionate Synthesis Genes Enables Engineering of Stress Tolerant Plants

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Oct 9

PMID 39384757

Authors

Rocky D Payet

Lorelei J Bilham

Shah Md Tamim Kabir

Serena Monaco

Ash R Norcott

Mellieha G E Allen

Xiao-Yu Zhu

Anthony J Davy

Charles A Brearley

Jonathan D Todd

J Benjamin Miller

Affiliations

Soon will be listed here.

Abstract

The organosulfur compound dimethylsulfoniopropionate (DMSP) has key roles in stress protection, global carbon and sulfur cycling, chemotaxis, and is a major source of climate-active gases. Saltmarshes are global hotspots for DMSP cycling due to Spartina cordgrasses that produce exceptionally high concentrations of DMSP. Here, in Spartina anglica, we identify the plant genes that underpin high-level DMSP synthesis: methionine S-methyltransferase (MMT), S-methylmethionine decarboxylase (SDC) and DMSP-amine oxidase (DOX). Homologs of these enzymes are common in plants, but differences in expression and catalytic efficiency explain why S. anglica accumulates such high DMSP concentrations and other plants only accumulate low concentrations. Furthermore, DMSP accumulation in S. anglica is consistent with DMSP having a role in oxidative and osmotic stress protection. Importantly, administration of DMSP by root uptake or over-expression of Spartina DMSP synthesis genes confers plant tolerance to salinity and drought offering a route for future bioengineering for sustainable crop production.

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