Phosphomannose isomerase, pmi, as a selectable marker gene for durum wheat transformation

Abstract

Transgene technology provides a powerful tool for developing traits that are otherwise difficult to achieve through conventional methods. The development of transgenic plants requires the use of selectable marker genes, as the efficiency of plant transformation is less than optimal for many important species, especially for monocots such as durum wheat ( Triticum turgidum var. durum). Many concerns have been expressed about the persistence of currently used marker genes in plants used for field cultivation. To sustain further progress in this area, alternative efficient selection methods are desirable. A recent development is the use of selective genes that give transformed cells a metabolic advantage (positive selection) compared to untransformed cells, which are slowly starved with a concomitant reduction in growth and viability. This selection strategy is in contrast to traditional negative selections during which the transgenic cells are able to survive on a selective medium whereas the non-transgenic cells are actively killed by the selective agent. We compared the ‘selection efficiency’ of a commonly used negative selection method that employs the Streptomyces hygroscopicus bar gene to confer resistance to the herbicide bialaphos, to a positive selection employing the Escherichia coli phosphomannose isomerase ( pmi) gene as the selectable gene and mannose as the selective agent. Calli derived from immature embryos of the durum wheat cultivar Svevo were bombarded separately with bar and pmi genes using a biolistic system. The integration and expression of the two genes in the T 0 generation were confirmed by PCR analysis with specific primers for each gene and the chlorophenol red assay, respectively. The selection efficiency, calculated as the number of expressing plants divided by the number of total regenerants, was higher when pmi was used as the selectable marker gene (90.1%) than when bar was used (26.4%). Thus, an efficient selection method for durum wheat transformation was established that obviates the use of herbicide résistance genes.