Genetic transformation of Eucalyptus globulus using the vascular-specific EgCCR as an alternative to the constitutive CaMV35S promoter

Strong constitutive promoters, such as CaMV35S, are widely used for plant transformation, but undesirable phenotypic changes have been reported when used to drive biotic stress tolerance and/or for modifying lignin content. The promoter of the eucalyptus cinnamoyl CoA reductase (CCR), a key enzyme of the lignin biosynthetic pathway, was shown to be preferentially expressed in vascular tissues both in herbaceous and woody transgenic plants but not eucalyptus. In this work, we transformed Eucalyptus globulus with the EgCCR promoter governing both β-glucuronidase (GUS) and GFP activity patterns. No statistical differences were found between the survival rate and percentage of GUS positive shoots between eucalyptus transformed with either the constitutive CaMV35S or with the EgCCR promoter. The EgCCR transformed plantlets exhibited high GUS expression levels associated with the vascular tissues opening the possibility of targeting vascular-associated traits such as lignin content or vascular pathogen resistance in adult elite plants of eucalyptus while avoiding the undesirable pleiotropic effects caused by strong constitutive promoters.