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RESEARCH PRODUCT

Serine in plants: biosynthesis, metabolism, and functions

Roc RosJesús Muñoz-bertomeuStephan Krueger

subject

GametophyteEmbryoPlant ScienceMetabolismPlantsBiologyPlant RootsSerinechemistry.chemical_compoundBiosynthesischemistryBiochemistryAmino acid homeostasisGene Expression Regulation PlantStress PhysiologicalSeedsSerinePhosphorylationPhosphorylationPhotosynthesisGlycolysisFunction (biology)Plant Proteins

description

Serine (Ser) has a fundamental role in metabolism and signaling in living organisms. In plants, the existence of different pathways of Ser biosynthesis has complicated our understanding of this amino acid homeostasis. The photorespiratory glycolate pathway has been considered to be of major importance, whereas the nonphotorespiratory phosphorylated pathway has been relatively neglected. Recent advances indicate that the phosphorylated pathway has an important function in plant metabolism and development. Plants deficient in this pathway display developmental defects in embryos, male gametophytes, and roots. We propose that the phosphorylated pathway is more important than was initially thought because it is the only Ser source for specific cell types involved in developmental events. Here, we discuss its importance as a link between metabolism and development in plants.

yearjournalcountryeditionlanguage
2014-02-27Trends in Plant Science
https://doi.org/10.1016/j.tplants.2014.06.003