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STRUBBELIG defines a receptor kinase-mediated signaling pathway regulating organ development in Arabidopsis. | LitMetric
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STRUBBELIG defines a receptor kinase-mediated signaling pathway regulating organ development in Arabidopsis.

David Chevalier Martine Batoux Lynette Fulton Karen Pfister Ram Kishor Yadav Maja Schellenberg Kay Schneitz

Proc Natl Acad Sci U S A

Institute of Plant Biology, University of Zurich, Zollikerstrasse 107, CH-8008 Zurich, Switzerland.

Published: June 2005

AI Article Synopsis

  • An important aspect of organ development in plants is understanding how cell behavior is coordinated to ensure proper size and shape, with the Arabidopsis gene STRUBBELIG (SUB) playing a key role in this process.
  • SUB encodes a receptor-like kinase that affects organ formation, influencing cell morphology, division orientation, and proliferation, as indicated by its mutant phenotype.
  • Analysis reveals that although the SUB kinase domain is crucial for its function, it appears to lack typical enzymatic activity, suggesting that SUB may signal through an unconventional mechanism.

Article Abstract

An open question remains as to what coordinates cell behavior during organogenesis, permitting organs to reach their appropriate size and shape. The Arabidopsis gene STRUBBELIG (SUB) defines a receptor-mediated signaling pathway in plants. SUB encodes a putative leucine-rich repeat transmembrane receptor-like kinase. The mutant sub phenotype suggests that SUB affects the formation and shape of several organs by influencing cell morphogenesis, the orientation of the division plane, and cell proliferation. Mutational analysis suggests that the kinase domain is important for SUB function. Biochemical assays using bacterially expressed fusion proteins indicate that the SUB kinase domain lacks enzymatic phosphotransfer activity. Furthermore, transgenes encoding WT and different mutant variants of SUB were tested for their ability to rescue the mutant sub phenotype. These genetic data also indicate that SUB carries a catalytically inactive kinase domain. The SUB receptor-like kinase may therefore signal in an atypical fashion.

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 Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1157047PMC
http://dx.doi.org/10.1073/pnas.0503526102DOI Listing

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