Abstract

Positive selection and relaxation of purifying constraints after duplication events have driven the functional diversification of gene families involved in development. One example of this occurred within the plant MADS-box genes. The evolution of the orchid flower was driven by duplication events followed by sub- and neo-functionalization of class B DEF-like MADS-box genes, which are present at three to four copies in the orchid genome. In contrast, the orchid PI/ GLO-like class B MADS-box genes have been reported thus far as single-copy loci, with the only exception of Habenaria radiata. We isolated a novel PI/ GLO-like gene ( OrcPI2) in Orchis italica, which is different than the previously characterized OrcPI locus. The presence of two functional paralogs of PI/ GLO-like genes in orchids is detectable only within the tribe Orchidinae. Evolutionary analyses revealed an apparent relaxation of purifying selection acting on the two PI/ GLO-like paralogs of the Orchidinae when compared to the single-copy PI/ GLO-like genes found in other orchid species. Furthermore, by measuring d N/d S ( ω) ratios, we show that a high percentage of sites between the two PI/ GLO-like paralogs have different evolutionary pressures. Interestingly, the apparent relaxation of selective constraints on the two PI/ GLO-like paralogs is due to strong purifying selection at synonymous sites rather than to a high value of nonsynonymous substitution rate. This peculiar evolutionary pattern might be related to molecular processes such as mRNA folding and/or translational efficiency control. These processes could potentially be involved in or predate the functional diversification of the two PI/ GLO-like paralogs within Orchidinae.

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