Growth enhancement of transgenic poplar plants by overexpression of Arabidopsis thaliana endo-1,4-0-glucanase (cel1)

Poplar (Populus tremula) plants which had been transformed with Arabidopsis thaliana cell cDNA and successfully over-expressed the gene, exhibited significant phenotypic alterations which included taller plants, larger leaves, increased stem diameter, wood volume index, dry weight and a higher percentage of cellulose and hemicellulose, compared to the wild-type plants. Transgenic A. thaliana plants over-expressing A. thaliana cell exhibited similar levels of cell mRNA in the elongation zone of the flowering stem and higher levels in mature leaves when compared with wild-type plants. CEL1 protein levels in the elongation zone of the flowering stem of transgenic plants were similar or slightly higher compared to that of the wild-type plants, whereas mature leaves of transgenic plants contained a higher level of CEL1. These data indicate that in elongating zone of Arabidopsis, CEL1 level is tightly regulated. In contrast to transgenic poplar over-expressing the A. thaliana cell, no phenotypic difference was found between A. thaliana transgenic and wild-type plants.