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Biochemical insights into proline metabolism and its contribution to the endurant cell wall structure under metal stress

Yu-Juan Lin, Ben-Tao Yao, Qin Zhang, Yuxi Feng, Lei Xiang

2024Ecotoxicology and Environmental Safety23 citationsDOIOpen Access PDF

Abstract

The cell wall serves as the primary barrier against the entry of heavy metal ions into cells. However, excessive accumulation of heavy metals within plants can lead to alterations in the spatial structure and physical properties of the cell wall, thereby affecting the capacity of plants to capture heavy metals. Proline (Pro) is involved in the synthesis of the cell wall, modulating the stability and integrity of its structure. Extensins, core proteins that maintain the cell wall structure, are proline/hydroxyproline-rich glycoproteins that contain the characteristic sequence Ser-[Pro] 3–5 . They act as intermediates in the regulation of biological processes such as cell wall synthesis, assembly, and signal transduction, typically forming a network structure of cell wall proteins through cross-linking with pectin. This network is essential for the self-assembly expansion of the plant cell wall and plays an indispensable role in cell wall stress signal transduction through its interaction with intracellular signalling molecules. However, the mechanisms by which Pro affects the synthesis of cell wall structural proteins, cell wall assembly, and the sensing of cell wall stress under heavy metal stress remain unclear. This review, from the perspectives of biochemistry and molecular biology, comprehensively elaborates on the impact of Pro and Pro-rich proteins on the structure and function of the cell wall. These findings emphasize the mechanism by which Pro enhances the ability of the cell wall to capture heavy metals, providing new research ideas for the use of genetic engineering to manipulate cell wall synthesis and repair, thereby reducing the phytotoxicity of heavy metals. • This review highlights proline's enhancement of cell wall binding to heavy metals. • We reveal proline's protective effects on cell wall structure under metal stress. • Our analysis identifies proline-rich proteins as stabilizers of cell wall integrity. • The review explores proline's influence on cell wall synthesis and assembly mechanisms. • We provide novel insights into proline-mediated cell wall stress signal transduction.

Topics & Concepts

Cell wallProlineHydroxyprolineBiophysicsCellBiochemistryHeavy metalsGlycoproteinCell biologyChemistryMetalCell structureBiologyAmino acidEnvironmental chemistryOrganic chemistryPolysaccharides and Plant Cell WallsAluminum toxicity and tolerance in plants and animalsPlant Stress Responses and Tolerance
Biochemical insights into proline metabolism and its contribution to the endurant cell wall structure under metal stress | Litcius