AI Article Synopsis
- The study explores how two-component genetic systems in plants evolve and diversify, focusing on self-incompatibility (SI) in the Brassicaceae family.
- The researchers used ancestral protein reconstruction to show that two alleles have diverged asymmetrically, with one retaining its original recognition and the other developing a new, distinct specificity.
- The findings indicate that qualitative changes in receptor-ligand interactions contribute significantly to evolutionary novelty in this complex genetic system.
Article Abstract
How two-component genetic systems accumulate evolutionary novelty and diversify in the course of evolution is a fundamental problem in evolutionary systems biology. In the Brassicaceae, self-incompatibility (SI) is a spectacular example of a diversified allelic series in which numerous highly diverged receptor-ligand combinations are segregating in natural populations. However, the evolutionary mechanisms by which new SI specificities arise have remained elusive. Using in planta ancestral protein reconstruction, we demonstrate that two allelic variants segregating as distinct receptor-ligand combinations diverged through an asymmetrical process whereby one variant has retained the same recognition specificity as their (now extinct) putative ancestor, while the other has functionally diverged and now represents a novel specificity no longer recognized by the ancestor. Examination of the structural determinants of the shift in binding specificity suggests that qualitative rather than quantitative changes of the interaction are an important source of evolutionary novelty in this highly diversified receptor-ligand system.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6908432 | PMC |
| http://dx.doi.org/10.7554/eLife.50253 | DOI Listing |
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