Genetic transformation of blue grama grass with the rolA gene from Agrobacterium rhizogenes: regeneration of transgenic plants involves a "hairy embryo" stage

Until recently, information about the effects of transforming plants with the rolA gene of Agrobacterium rhizogenes has been restricted mainly to dicots in which a severely wrinkled phenotype, reduced internode distances, and abnormal reproductive development were commonly observed. In this work, we analyzed the effects associated with the expression of this gene in a new genetic context: the forage grass genome. Transgenic P(35S)aEuro cent rolA plants of blue grama grass (Bouteloua gracilis) were obtained by a biolistic approach employing embryogenic chlorophyllic cells as the target material. Four independent transgenic lines with regeneration capacity were recovered, which showed stable integration of this transgene as demonstrated by polymerase chain reaction and Southern blot hybridization. Growth of the rolA-transformed lines under greenhouse conditions provided evidence for a new biotechnological application for the rolA gene in plants, namely, the improvement of biomass production in forage grasses. Additionally, we described here a new phenotypic marker (referred to here as the "hairy embryo" syndrome) that can be instrumental for the early identification of transformation events when transforming grasses with this gene.