Abstract

Many plant species have one or more types of acylation of cell wall polymers. Grasses (Poaceae family) are unique with abundant acylation of specific cell wall polymers by hydroxycinnamates. The most common hydroxycinnamates found in a wide range of grasses are ferulates (trans-4-hydroxy-3-methoxycinnamate) and p-coumarates (trans-4-hydroxycinnamate). These two hydroxycinnamates are synthesized by the phenylpropanoid pathway. Though structurally related, they seem to have different functional roles within the cell wall. Ferulates have been shown to have a critical role in cross-linking cell wall components; forming links between structural polysaccharides and links between structural polysaccharides and lignin. They are incorporated into the cell wall by distinctly different mechanisms. Ferulic acid is incorporated into cell walls as ester linked substituents on arabinoxylans. The exact role p-coumarates play in plant cell walls is unknown, but it has been shown that p-coumaric acid is ester-linked to monolignols and shuttled out to the wall to become incorporated into newly forming lignin polymers. Both processes require the activity of specific hydroxycinnamoyl transferases utilizing CoA derivatives to drive the transferase reactions.

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