Coupled enhancer and coding sequence evolution of a homeobox gene shaped leaf diversity

Coupled enhancer and coding sequence evolution of a homeobox gene shaped leaf diversity

Here we investigate mechanisms underlying the diversification of biological forms using crucifer leaf shape as an example. We show that evolution of an enhancer element in the homeobox gene REDUCED COMPLEXITY (RCO) altered leaf shape by changing gene expression from the distal leaf blade to its base...

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Veröffentlicht in:Genes & development 2016-11, Vol.30 (21), p.2370-2375
Hauptverfasser: Vuolo, Francesco, Mentink, Remco A, Hajheidari, Mohsen, Bailey, C Donovan, Filatov, Dmitry A, Tsiantis, Miltos
Format: Artikel
Sprache:eng
Schlagworte:
Arabidopsis - anatomy & histology
Arabidopsis - genetics
Arabidopsis - physiology
Cardamine - anatomy & histology
Cardamine - classification
Cardamine - genetics
Enhancer Elements, Genetic - genetics
Evolution, Molecular
Gene Expression Profiling
Genes, Plant - genetics
Plant Leaves - anatomy & histology
Plant Leaves - genetics
Research Communication
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Zusammenfassung:Here we investigate mechanisms underlying the diversification of biological forms using crucifer leaf shape as an example. We show that evolution of an enhancer element in the homeobox gene REDUCED COMPLEXITY (RCO) altered leaf shape by changing gene expression from the distal leaf blade to its base. A single amino acid substitution evolved together with this regulatory change, which reduced RCO protein stability, preventing pleiotropic effects caused by its altered gene expression. We detected hallmarks of positive selection in these evolved regulatory and coding sequence variants and showed that modulating RCO activity can improve plant physiological performance. Therefore, interplay between enhancer and coding sequence evolution created a potentially adaptive path for morphological evolution.
ISSN:0890-9369
1549-5477
DOI:10.1101/gad.290684.116