Genome size and GC content evolution of Festuca: ancestral expansion and subsequent reduction

Background and Aims: Plant evolution is well known to be frequently associated withremarkable changes in genome size and composition; however,the knowledge of long-term evolutionary dynamics of these processesstill remains very limited. Here a study is made of the finedynamics of quantitative genome evolution in Festuca (fescue),the largest genus in Poaceae (grasses). Methods: Using flow cytometry (PI, DAPI), measurements were made of DNAcontent (2C-value), monoploid genome size (Cx-value), averagechromosome size (C/n-value) and cytosine + guanine (GC) contentof 101 Festuca taxa and 14 of their close relatives. The resultswere compared with the existing phylogeny based on ITS and trnL-Fsequences. Key Results: The divergence of the fescue lineage from related Poeae waspredated by about a 2-fold monoploid genome and chromosome sizeenlargement, and apparent GC content enrichment. The backwardreduction of these parameters, running parallel in both mainevolutionary lineages of fine-leaved and broad-leaved fescues,appears to diverge among the existing species groups. The mostdramatic reductions are associated with the most recently andrapidly evolving groups which, in combination with recent intraspecificgenome size variability, indicate that the reduction processis probably ongoing and evolutionarily young. This dynamicsmay be a consequence of GC-rich retrotransposon proliferationand removal. Polyploids derived from parents with a large genomesize and high GC content (mostly allopolyploids) had smallerCx- and C/n-values and only slightly deviated from parentalGC content, whereas polyploids derived from parents with smallgenome and low GC content (mostly autopolyploids) generallyhad a markedly increased GC content and slightly higher Cx-and C/n-values. Conclusions: The present study indicates the high potential of general quantitativecharacters of the genome for understanding the long-term processesof genome evolution, testing evolutionary hypotheses and theirusefulness for large-scale genomic projects. Taken together,the results suggest that there is an evolutionary advantagefor small genomes in Festuca.