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CORRECTIONS

CORRECTIONS

Abdulrazzak N., Pollet B., Ehlting J., Larsen K., Asnaghi C., Ronseau S., Proux C., Erhardt M., Seltzer V., Renou J.-P., Ullmann P., Pauly M., Lapierre C., and Werck-Reichhart D. A coumaroyl-ester-3-hydroxylase Insertion Mutant Reveals the Existence of Nonredundant meta-Hydroxylation Pathways and Essential Roles for Phenolic Precursors in Cell Expansion and Plant Growth.

In the title of this article, "coumaroyl-ester-3'-hydroxylase" was incorrectly printed as "coumaroyl-ester-3-hydroxylase." Also, an incorrect manipulation in Figure 1 resulted in some double bonds missing in the published version. The corrected version of Figure 1 appears below.

View larger version (20K): [in this window] [in a new window] [as a PowerPoint slide]   Figure 1. The phenylpropanoid pathway and modification occurring as a result of CYP98A3 suppression. The pathways activated in the cyp98A3 mutants are shown in red. The pathways inactivated are shown in gray. The monolignol DCG has been described as a growth regulator (Binns et al., 1987; Tamagnone et al., 1998). Aromatic amino acids, including Phe, are synthesized in the plastids via the so-called shikimate pathway (Herrmann and Weaver, 1999). The mode of transport of shikimate and Phe from the plastids to the cytoplasm is not yet described. 4CL, 4-Hydroxy cinnamoyl-CoA ligase.

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