Stem cell fate in hypoxic root apical meristems is influenced by phytoglobin expression

Abstract Root survival to flooding-induced hypoxic stress is dependent upon maintaining the functionality of the root apical meristem quiescent center (QC), a process that is governed by the basipetal flow of auxin leading to the formation of an auxin maximum, which is needed for the establishment o...

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Bibliographic Details
Published in:Journal of experimental botany 2020-02, Vol.71 (4), p.1350-1362
Main Authors: Mira, Mohammed M, El-Khateeb, Eman A, Gaafar, Reda M, Igamberdiev, Abir U, Hill, Robert D, Stasolla, Claudio
Format: Article
Language:English
Subjects:
Arabidopsis Proteins - metabolism
Gene Expression Regulation, Plant
Hypoxia
Indoleacetic Acids
Meristem - genetics
Meristem - metabolism
Plant Roots - metabolism
Stem Cells - metabolism
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Summary:Abstract Root survival to flooding-induced hypoxic stress is dependent upon maintaining the functionality of the root apical meristem quiescent center (QC), a process that is governed by the basipetal flow of auxin leading to the formation of an auxin maximum, which is needed for the establishment of a highly oxidized environment specifying the QC niche. Perturbations in auxin flow and distribution along the root profile occurring during hypoxia can shift the redox state of the QC towards a more reduced environment, leading to the activation of the QC, degradation of the meristem, and root abortion. The maize phytoglobin gene ZmPgb1.1 is involved in minimizing these damaging effects during hypoxia in processes that result in sustaining the PIN-mediated auxin maximum and an oxidized environment in the QC. The oxidized environment is accomplished by maintaining the activity of redox enzymes oxidizing ascorbate and glutathione. These events, compromised in QCs suppressing ZmPgb1.1, ensure the functionality of the QC and root meristems under conditions of low oxygen, resulting in stable root performance. Overexpression of phytoglobin retains stem cell fate specification and function in hypoxic root apical meristems
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erz410