Development of a nuclear transformation system with a codon-optimized selection marker and reporter genes in Pyropia yezoensis (Rhodophyta)

Genetic transformation systems using reporter genes in whole plants have a wide variety of applications for molecular biological study including the visualization of expression patterns of particular genes and intracellular biological phenomena as well as the identification of novel genes. In this study, we assessed co-expression of each three codon-optimized reporter genes and a selectable marker in the nuclear transformation system of whole Pyropia yezoensis, a red marine alga. With the use of an endogenous promoter, both the codon-optimized hygromycin resistance gene and ß-glucuronidase gene (PyGUS) were co-expressed in P. yezoensis cells. A high level of GUS activity was observed in 60 % of the individuals in hygromycin-resistant lines. A histochemical GUS assay revealed that the PyGUS reporter gene was stably introduced and expressed throughout the algae's life cycle. In addition, two live cell reporters, humanized cyan fluorescent protein from Anemonia majano and luciferase from Gaussia princeps, were successfully expressed in whole P. yezoensis. The development of this transformation system involving three types of reporter genes provides opportunities for monitoring temporal changes in gene expression and for genetic screening in red marine algae.