RESUMEN
UDP-glucose dehydrogenase (UGDH) catalyzes the oxidation of UDP-glucose (UDP-Glc) to UDP-glucuronate (UDP-GlcA), a key sugar nucleotide involved in the biosynthesis of plant cell wall polysaccharides. A full-length cDNA fragment coding for UGDH was cloned from the cambial region of 6-month-old E. grandis saplings by RT-PCR. The 1443-bp-ORF encodes a protein of 480 amino acids with a predicted molecular weight of 53 kDa. The recombinant protein expressed in Escherichia coli catalyzed the conversion of UDP-Glc to UDP-GlcA, confirming that the cloned cDNA encodes UGDH. The deduced amino acid sequence of the cDNA showed a high degree of identity with UGDH from several plant species. The Southern blot assay indicated that more than one copy of UGDH is present in Eucalyptus. These results were also confirmed by the proteomic analysis of the cambial region of 3- and 22-year-old E. grandis trees by 2-DE and LC-MS/MS, showing that at least two isoforms are present. The cloned gene is mainly expressed in roots, stem and bark of 6-month-old saplings, with a lower expression in leaves. High expression levels were also observed in the cambial region of 3- and 22-year-old trees. The results described in this paper provide a further view of the hemicellulose biosynthesis during wood formation in E. grandis.
RESUMEN
A method for genetic transformation of germinating seeds and seedlings of Eucalyptus grandis × E. urophyllais described using the sonication-assisted Agrobacterium-mediated transformation (SAAT) system. Seeds germinated for 2 d, and 15-d-old seedlings, sonicated for 30 s, had the highest percentage of ß-glucuronidase (GUS) transient expression (21.7 and 37.4%, respectively). Pre-sonication greatly enhanced the efficiency of transformation. The differential transformation of tissues was also investigated, with seeds imbibed for 2 d having over 90% of the blue sectors localised in cotyledons and in the intersection of the hypocotyls and roots, whereas in 5-d-old seedlings, 70% of GUS activity was detected in cotyledons. However, 15-17-d-old seedlings had around 60% of transformed sectors localised in the first pair of leaves. The efficiency of the method was also assessed using a chimeric construct containing the Lhcb1*2 gene of the 28 kDa chlorophyll a/b binding pea protein from the LHCII antenna. Four stable transformants were confirmed by genomic blotting.