The Greater Phenotypic Homeostasis of the Allopolyploid Coffea arabica Improved the Transcriptional Homeostasis Over that of Both Diploid Parents.

Polyploidy impacts the diversity of plant species, giving rise to novel phenotypes and leading to ecological diversification. In order to observe adaptive and evolutionary capacities of polyploids, we compared the growth, primary metabolism and transcriptomic expression level in the leaves of the newly formed allotetraploid Coffea arabica species compared with its two diploid parental species (Coffea eugenioides and Coffea canephora), exposed to four thermal regimes (TRs; 18-14, 23-19, 28-24 and 33-29°C). The growth rate of the allopolyploid C.

Homeologous gene expression in response to growing temperature in a recent Allopolyploid (Coffea arabica L.).

Allopolyploidy is considered as a major factor contributing to speciation, diversification, and plant ecological adaptation. In particular, the expression of duplicate genes (homeologs) can be altered leading to functional plasticity and to phenotypic novelty. This study investigated the influence of growing temperatures on homeologous gene expression in Coffea arabica L.