Floral inhibition in red fescue (Festuca rubra L.) through expression of a heterologous flowering repressor from Lolium

Extension of the vegetative growth phase through delay of flowering is an important goal in today's breeding programs of both forage and turf grasses. In forage grasses, the stem and inflorescence production comprise a significant reduction in the digestibility, nutritional value and productivity of the crop, and in turf grasses the stems that start to emerge during the growth season suppress the formation of new shoots and affect the quality, density and persistence of the sward. We have tested the potential of the strong floral repressor LpTFL1 from perennial ryegrass (Lolium perenne L.) to manipulate the transition to flowering in red fescue (Festuca rubra L.), a cool-season turf grass. Expression of LpTFL1 from the constitutive maize ubiquitin promoter represses flowering in red fescue, and the flowering repression phenotype correlates well with the level of LpTFL expression. Transgenic lines showing low to intermediate expression of LpTFL1 flowered approximately two weeks later than the controls, and transgenic lines showing very high LpTFL1 expression levels still remained non-flowering after exposure to natural vernalization conditions (Danish winter) in two successive years. There were no other phenotypic effects associated with the LpTFL transgene expression during vegetative growth. However, there was a tendency towards an LpTFL1-mediated reduction in stem length among the flowering lines. Expression of a truncated LpTFL, caused by transgene rearrangements during the transformation, lead to increased flowering and stem production and a decrease in panicle size. This is to our knowledge the first report on full inhibition of floral development in a commercially important grass species.