In odd-looking mutant, clues about how maize plants control stem cell number

Public release date: 11-Sep-2013 [ | E-mail | Share ]

Contact: Peter Tarr tarr@cshl.edu 516-367-8455 Cold Spring Harbor Laboratory

Cold Spring Harbor, NY -- In plants, the growth of organs such as roots, leaves and flowers depends upon the activity of meristems. These reservoir-like compartments hold stem cells, which have the ability to develop into various different cell types.

At Cold Spring Harbor Laboratory (CSHL), Professor David Jackson studies naturally occurring mutations in plants to obtain insights about how plants regulate their growth. This work has powerful implications for efforts to increase the yield of basic food crops like maize (or corn, as it is called in North America).

Today, in a paper appearing online in Nature, Jackson and colleagues present first evidence of a functional interaction between an important class of signaling molecule called a G protein, which binds receptors, and an unexpected class of cell-surface receptors.

Working backward from an odd-looking maize mutant called COMPACT PLANT2 (CT2) that develops abnormally enlarged ears a phenomenon called fasciation Jackson, Peter Bommert, Ph.D., and others found this gene to encode a G protein called G. Further experiments indicated an unexpected interaction between G and a cell-surface receptor that is a part of the CLAVATA signaling pathway, known to control stem cell activation.

The "beginning" and "end" of the CLAVATA signaling pathway were known: receptors at the cell surface are activated by a small, secreted ligand to regulate a transcription factor called WUSCHEL inside the nucleus. The Jackson lab's new research begins to fill in the gaps between these points.

Contrary to prior assumptions based on examples in mammals and yeast, the new research suggests that in plants, G, which acts as a signaling switch, can be activated by a G protein-coupled receptor (GPCR) that belongs to a class of cell-surface receptors that pass the cell membrane only a single time.

"The idea that G interacts with a single-pass trans membrane receptor called FEA2 is at odds with the dogma that in yeast and mammals, G interacts with GPCRs of the type that pass through the membrane seven times 7TM receptors. Further research should indicate whether this is true not only in maize but generally in plants," Jackson says.

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In odd-looking mutant, clues about how maize plants control stem cell number