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United States Department of Agriculture

Agricultural Research Service

Research Project: FUNCTIONAL GENOMICS OF PLANT ARCHITECTURE

Location: Plant Gene Expression Center Albany_CA

Title: The Roles of Different CLE Domains in Arabidopsis CLE Polypeptide Activity and Functional Specificity

Authors
item Meng, Ling -
item Ruth, Kenneth -
item FLETCHER, JENNIFER
item Feldman, Lewis -

Submitted to: Molecular Plant
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: April 13, 2010
Publication Date: May 21, 2010
Repository URL: http://mplant.oxfordjournals.org/cgi/content/abstract/ssq021v1?maxtoshow=&hits=150&RESULTFORMAT=1&author1=Fletcher%2C+Jennifer+C&andorexacttitle=and&andorexacttitleabs=and&andorexactfulltext=and&searchid=1&FIRSTINDEX=0&sortspec=relevance&fdate=4/1/2010&resourcetype=HWCIT
Citation: Meng, L., Ruth, K.C., Fletcher, J.C., Feldman, L. 2010. The Roles of Different CLE Domains in Arabidopsis CLE Polypeptide Activity and Functional Specificity. Molecular Plant. Published online doi:10.1093/mp/ssq021.

Interpretive Summary: This article reports the study of the relationship between CLE protein structure and function in Arabidopsis. CLE proteins form a family of more than 40 putative small signaling molecules that play key roles in intercellular communication during plant development. We show that the 14 amino acid CLE domain is likely responsible for much of the difference between the functions of various CLE proteins. Yet we additionally demonstrate that the signal peptide and variable domain sequences can also contribute to specialized CLE protein activity. Our findings provide a more complete understanding of CLE protein function by identifying sequences outside the CLE motif that may be important for protein targeting and processing.

Technical Abstract: The CLE (CLVATA3/ESR-related) family of plant polypeptide signaling molecules shares a conserved 14-amino-acid (aa) motif, designated the CLE motif, which recent studies suggest is sufficient for CLE function in vitro. In this study, we report that Arabidopsis CLE proteins can function in a tissue-specific manner and confirm some CLE factors can act through different receptors. Using domain swapping, we show for the first time that the CLE motif likely determines much of the functional tissue-specificity of the proteins in planta. However, we also provide evidence in support of the new view that sequences outside the CLE motif (14 aa) contribute to CLE function and functional specificity in vivo. Additionally, we report that deletion of the putative signal peptide from different CLE proteins completely inactivates CLE function in vivo, whereas exchanging the CLE signal peptides with a conventional signal peptide from a rice glycine-rich cell wall protein also influences CLE function. We thus propose that the CLE motif itself determines its functional tissue-specificity by dictating the direct recognition and interaction of each CLE peptide with its optimal receptor(s), whereas the receptor(s) may be available in a tissue-specific manner. On the other hand, the sequences outside the CLE motif may influence CLE function by affecting the processing of CLE peptides, resulting in a change in the availability and/or abundance of CLE peptides in specific tissues and/or cells.

Last Modified: 9/10/2014
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