Tapetal cell fate, lineage and proliferation in the Arabidopsis anther

Feng X, Dickinson HG. 2010. Tapetal cell fate, lineage and proliferation in the Arabidopsis anther. Development. 137(14), 2409–2416.

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Author
Feng, XiaoqiISTA ; Dickinson, Hugh G.
Department
Abstract
The four microsporangia of the flowering plant anther develop from archesporial cells in the L2 of the primordium. Within each microsporangium, developing microsporocytes are surrounded by concentric monolayers of tapetal, middle layer and endothecial cells. How this intricate array of tissues, each containing relatively few cells, is established in an organ possessing no formal meristems is poorly understood. We describe here the pivotal role of the LRR receptor kinase EXCESS MICROSPOROCYTES 1 (EMS1) in forming the monolayer of tapetal nurse cells in Arabidopsis. Unusually for plants, tapetal cells are specified very early in development, and are subsequently stimulated to proliferate by a receptor-like kinase (RLK) complex that includes EMS1. Mutations in members of this EMS1 signalling complex and its putative ligand result in male-sterile plants in which tapetal initials fail to proliferate. Surprisingly, these cells continue to develop, isolated at the locular periphery. Mutant and wild-type microsporangia expand at similar rates and the ‘tapetal’ space at the periphery of mutant locules becomes occupied by microsporocytes. However, induction of late expression of EMS1 in the few tapetal initials in ems1 plants results in their proliferation to generate a functional tapetum, and this proliferation suppresses microsporocyte number. Our experiments also show that integrity of the tapetal monolayer is crucial for the maintenance of the polarity of divisions within it. This unexpected autonomy of the tapetal ‘lineage’ is discussed in the context of tissue development in complex plant organs, where constancy in size, shape and cell number is crucial.
Publishing Year
Date Published
2010-07-15
Journal Title
Development
Publisher
The Company of Biologists
Acknowledgement
We thank the following for providing mutant lines and reagents: Hong Ma, De Ye, Sacco De Vries, and Rod Scott for providing the pA9::Barnase lines and information on A9 expression patterns. Carla Galinha and Paolo Piazza gave valuable help with in situ hybridisation and qRT-PCR, respectively, and we acknowledge Qing Zhang, Helen Prescott and Matthew Dicks for providing excellent technical assistance. We are indebted to Miltos Tsiantis and Angela Hay for helpful discussion, and the research was funded by Oxford University through a Clarendon Scholarship to X.F., with additional financial support from Magdalen College (Oxford).
Volume
137
Issue
14
Page
2409-2416
IST-REx-ID

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Feng X, Dickinson HG. Tapetal cell fate, lineage and proliferation in the Arabidopsis anther. Development. 2010;137(14):2409-2416. doi:10.1242/dev.049320
Feng, X., & Dickinson, H. G. (2010). Tapetal cell fate, lineage and proliferation in the Arabidopsis anther. Development. The Company of Biologists. https://doi.org/10.1242/dev.049320
Feng, Xiaoqi, and Hugh G. Dickinson. “Tapetal Cell Fate, Lineage and Proliferation in the Arabidopsis Anther.” Development. The Company of Biologists, 2010. https://doi.org/10.1242/dev.049320.
X. Feng and H. G. Dickinson, “Tapetal cell fate, lineage and proliferation in the Arabidopsis anther,” Development, vol. 137, no. 14. The Company of Biologists, pp. 2409–2416, 2010.
Feng X, Dickinson HG. 2010. Tapetal cell fate, lineage and proliferation in the Arabidopsis anther. Development. 137(14), 2409–2416.
Feng, Xiaoqi, and Hugh G. Dickinson. “Tapetal Cell Fate, Lineage and Proliferation in the Arabidopsis Anther.” Development, vol. 137, no. 14, The Company of Biologists, 2010, pp. 2409–16, doi:10.1242/dev.049320.

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PMID: 20570940
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