wall); and (3) are living at maturity and potentially capable of cell division. Parenchyma cells function in metabolic activities (e.g., respiration, photosynthesis, transport, storage) and in wound healing and regeneration, being capable of transforming into a meristem to form new roots or ...
(2) trichome branching and petal morphogenesis, (3) defense/stress response, (4) glucosinolates/camalexin, (5) suberin, (6) root development, (7) phenylpropanoid/lignin, (8) flower meristem identity, (10) abiotic stress response, flower morphogenesis, and stilbene biosynthesis...