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Editorial: Phenylpropanoid Systems Biology and Biotechnology

Igor Cesarino, Aymerick Eudes, Breeanna R. Urbanowicz, Meng Xie

2022Frontiers in Plant Science12 citationsDOIOpen Access PDF

Abstract

Phenylpropanoids are specialized metabolites involved in several aspects of plant growth and development and in the responses of plants to environmental stimuli. These compounds are synthesized from key intermediates of the shikimate pathway, which are structurally modified by the combined activities of lyases, transferases, ligases, reductases and oxygenases, resulting in the organ-and developmental-specific synthesis and accumulation of diverse metabolites The phenylpropanoid pathway provides the building blocks for lignin, suberin, and condensed tannins that play a role in structural support and mechanical strength. Lignin is a major contributor to feedstock recalcitrance and negatively affects the conversion of plant biomass into downstream products in biorefineries Further, this pathway is key for the production of anthocyanins for organ pigmentation, flavonols and flavones for UV protection, various flavonoids and isoflavonoids for plant-microbe interactions, and antimicrobial phytoalexins for protection against pathogens (Deng and Lu, 2017). In addition to their biological functions in planta, phenylpropanoids are economically important metabolites. They constitute important components in the human diet, acting as nutraceutical compounds with antioxidant, chemopreventive, antimitotic, neuroprotective, cardioprotective, and anti-inflammatory activities. Several phenylpropanoids are considered high-value biochemicals employed in the production of fragrances, pharmaceuticals and biopolymers (Lin and Eudes, 2020).

Topics & Concepts

BiologyPhenylpropanoidSynthetic biologyBiotechnologyComputational biologySystems biologyGeneticsGeneBiosynthesisPlant Gene Expression AnalysisPlant biochemistry and biosynthesisBiochemical and biochemical processes
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