期刊
PLANT CELL AND ENVIRONMENT
卷 37, 期 12, 页码 2795-2813出版社
WILEY
DOI: 10.1111/pce.12362
关键词
cytosolic Ca2+; gene expression; magnesium (Mg) nutrition; reactive oxygen species (ROS); RNA sequencing; root system
资金
- State Key Development Program for Basic Research of China [2009CB119003]
- National Key Project on Science and Technology of China [2012BAC17B02]
- Chinese Ministry of Agriculture [201103004]
Root hairs are reported to be plastic in response to nutrient supply, but relatively little is known about their development in response to magnesium (Mg) availability. Here, we showed that development of root hairs of Arabidopsis decreased progressively with increasing Mg supply, which was related to the initiation of new trichoblast files and likelihood of trichoblasts to form hairs. Tip-focused reactive oxygen species (ROS) and cytosolic Ca2+ concentrations [(Ca2+)c] during elongation of root hairs were enhanced under low Mg but decreased under high Mg. Under low Mg, application of diphenylene iodonium (DPI) or BAPTA [1,2-bis(o-aminophenoxy)ethane-N,N,N,N-tetraacetic acid] blocked the enhanced development of root hairs and the opposite was true when the plants under high Mg were treated with phenazine methosulphate (PMS), methyl viologen (MV) or CaCl2. Furthermore, Mg availability did not alter root hair growth in rhd2-1 mutant that contains lower levels of ROS and cytosolic [Ca2+]c. Transcriptome data and qPCR results revealed a greater fraction of morphogenetic H-genes, and cell wall organization genes were up-regulated by low Mg but down-regulated by high Mg. Our data suggest a profound effect of Mg supply on the development of root hairs in Arabidopsis, through the characterized Ca2+ and ROS signals that modulate the elongation of root hairs and the expression of root-hair morphogenetic genes. Root hairs are reported to be plastic in response to nutrient supply, but relatively little is known about their development in response to magnesium (Mg) availability. This study demonstrated a profound effect of Mg supply on the development of root hairs in Arabidopsis, through the characterized Ca2+ and ROS signals that modulate the elongation of root hairs and the expression of root-hair morphogenetic genes. It opens up the opportunity of understanding on how plant root development in response to Mg availability and provides an alternative route of identifying genes responsible for sensing and signaling Mg nutrient limitations or excess.
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