Keeping the shoot above water – submergence triggers antithetical growth responses in stems and petioles of watercress ( Nasturtium officinale )

Autor:	Müller, Jana T, van Veen, Hans, Bartylla, Malte M, Akman, Melis, Pedersen, Ole, Sun, Pulu, Schuurink, Robert C, Takeuchi, Jun, Todoroki, Yasushi, Weig, Alfons R, Sasidharan, Rashmi, Mustroph, Angelika, Plant Ecophysiology, Sub Plant Ecophysiology
Přispěvatelé:	Van Veen lab, Plant Physiology (SILS, FNWI), Plant Ecophysiology, Sub Plant Ecophysiology
Rok vydání:	2021
Předmět:	0106 biological sciences 0301 basic medicine Nasturtium Physiology elongation Plant Science 01 natural sciences Petiole (botany) 03 medical and health sciences chemistry.chemical_compound food watercress Botany ethylene Rumex Gibberellic acid Abscisic acid submergence Oryza sativa biology hypoxia Nasturtium officinale food and beverages Water Brassicaceae Oryza biology.organism_classification food.food Gibberellins 030104 developmental biology chemistry antithetical growth Shoot abscisic acid (ABA) Elongation gibberellic acid 010606 plant biology & botany Abscisic Acid
Zdroj:	New Phytologist. Wiley New Phytologist, 229(1), 140. Blackwell Publishing Ltd New Phytologist, 229(1), 140-155. Wiley-Blackwell Müller, J T, van Veen, H, Bartylla, M M, Akman, M, Pedersen, O, Sun, P, Schuurink, R C, Takeuchi, J, Todoroki, Y, Weig, A R, Sasidharan, R & Mustroph, A 2021, ' Keeping the shoot above water – submergence triggers antithetical growth responses in stems and petioles of watercress ( Nasturtium officinale ) ', New Phytologist, vol. 229, no. 1, pp. 140-155 . https://doi.org/10.1111/nph.16350
ISSN:	1469-8137 0028-646X
Popis:	The molecular mechanisms controlling underwater elongation are based extensively on studies on internode elongation in the monocot rice (Oryza sativa) and petiole elongation in Rumex rosette species. Here, we characterize underwater growth in the dicot Nasturtium officinale (watercress), a wild species of the Brassicaceae family, in which submergence enhances stem elongation and suppresses petiole growth.- We used a genome-wide transcriptome analysis to identify the molecular mechanisms underlying the observed antithetical growth responses. Though submergence caused a substantial reconfiguration of the petiole and stem transcriptome, only little qualitative differences were observed between both tissues. A core submergence response included hormonal regulation and metabolic readjustment for energy conservation, whereas tissue-specific responses were associated with defense, photosynthesis, and cell wall polysaccharides.- Transcriptomic and physiological characterization suggested that the established ethylene, abscisic acid (ABA), and GA growth regulatory module for underwater elongation could not fully explain underwater growth in watercress.- Petiole growth suppression is likely attributed to a cell cycle arrest. Underwater stem elongation is driven by an early decline in ABA and is not primarily mediated by ethylene or GA. An enhanced stem elongation observed in the night period was not linked to hypoxia and suggests an involvement of circadian regulation.
Databáze:	OpenAIRE
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