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IN BRIEF

Probing the Role of Auxin in Wood Formation

Science Editor

kfaquharson{at}aspb.org

Auxins constitute an important class of phytohormone involved in many aspects of plant growth and development (reviewed in Teale et al., 2006). Although auxin is believed to play a pivotal role in wood formation, the cellular and molecular events that drive this process are poorly understood. Since an auxin concentration gradient coincides with the developmental gradient of secondary xylem cells, it has been proposed that auxin is a morphogen that directly regulates wood development (Uggla et al., 1996).

In this issue, Nilsson et al. (pages 843–855) examined the role of auxin in wood formation in the stems of hybrid aspen (Populus tremula x Populus tremuloides). Using microarray analysis, they identified 632 genes that responded to manipulated changes in auxin concentration. Several genes known to be auxin responsive (e.g., members of the AUX/IAA family) were correctly identified in their assay, and they further confirmed their findings by tracking the auxin responsiveness of five of the identified genes by RT-PCR. Closer analysis revealed that expression of most auxin-responsive genes had limited correlation with the auxin concentration (see figure ): even although maturing secondary xylem cells have lower levels of auxin than cells in the cambium, they expressed the auxin-responsive genes at higher levels. Therefore, the authors suggest that auxin-responsive genes may be more sensitive to changes in auxin concentration than to the absolute concentration of auxin.

View larger version (43K): [in this window] [in a new window] [as a PowerPoint slide]   Expression of auxin-responsive genes does not usually mirror auxin concentration. Auxin-responsive cDNA clones identified by microarray analysis were clustered according to their expression in developmental zones (A to E) across the hybrid aspen stem. Two such clusters are shown.

These results suggest that auxin plays an intricate role in wood formation instead of acting as a simple morphogen that directly governs this process. The authors propose that auxin regulates wood formation by modulating the expression of a few key regulators, which in turn control the gene expression required for normal wood formation. Other phytohormones, such as ethylene and giberellin, are also likely to be involved in this process.

Footnotes

www.plantcell.org/cgi/doi/10.1105/tpc.108.200412

REFERENCES

Nilsson, J., Karlberg, A., Antti, H., Lopez-Vernaza, M., Mellerowicz, E., Perrot-Rechenmann, C., Sandberg, G., and Bhalerao, R.P. (2008). Dissecting the molecular basis of the regulation of wood formation by auxin in hybrid aspen. Plant Cell 20: 843–855.[Abstract/Free Full Text]

Teale, W.D., Paponov, I.A., and Palme, K. (2006). Auxin in action: Signalling, transport and the control of plant growth and development. Nat. Rev. Mol. Cell Biol. 7: 847–859.[CrossRef][ISI][Medline]

Uggla, C., Moritz, T., Sanberg, G., and Sundberg, B. (1996). Auxin as a positional signal in pattern formation in plants. Proc. Natl. Acad. Sci. USA 93: 9282–9286.[Abstract/Free Full Text]

Related articles in Plant Cell:

Dissecting the Molecular Basis of the Regulation of Wood Formation by Auxin in Hybrid Aspen

Jeanette Nilsson, Anna Karlberg, Henrik Antti, Manuel Lopez-Vernaza, Ewa Mellerowicz, Catherine Perrot-Rechenmann, Göran Sandberg, and Rishikesh P. Bhalerao
Plant Cell 2008 20: 843-855. [Abstract] [Full Text]  

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