4.8 Article

Transcription Factors Evolve Faster Than Their Structural Gene Targets in the Flavonoid Pigment Pathway

期刊

MOLECULAR BIOLOGY AND EVOLUTION
卷 39, 期 3, 页码 -

出版社

OXFORD UNIV PRESS
DOI: 10.1093/molbev/msac044

关键词

anthocyanins; flower color; molecular evolution; MYB; phylogenomics; Petunieae; Solanaceae; transcription factors

资金

  1. National Science Foundation [ACI-1532235, ACI-1532236]
  2. University of Colorado Boulder
  3. Colorado State University
  4. NSF [DEB 1553114]
  5. Gatsby Charitable Foundation

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The relationship between gene function and substitution rates is crucial for understanding molecular evolution. Our study on the flavonoid pigment pathway in the Petunieae clade of the Solanaceae family reveals that transcription factors evolve faster, with MYB genes exhibiting the highest evolutionary rates. Despite weak correlations with changes in coding regions, there is a strong relationship between floral pigmentation shifts and the presence/absence patterns of MYB transcripts.
Dissecting the relationship between gene function and substitution rates is key to understanding genome-wide patterns of molecular evolution. Biochemical pathways provide powerful systems for investigating this relationship because the functional role of each gene is often well characterized. Here, we investigate the evolution of the flavonoid pigment pathway in the colorful Petunieae clade of the tomato family (Solanaceae). This pathway is broadly conserved in plants, both in terms of its structural elements and its MYB, basic helix-loop-helix, and WD40 transcriptional regulators, and its function has been extensively studied, particularly in model species of petunia. We built a phylotranscriptomic data set for 69 species of Petunieae to infer patterns of molecular evolution across pathway genes and across lineages. We found that transcription factors exhibit faster rates of molecular evolution (dN/dS) than their targets, with the highly specialized MYB genes evolving fastest. Using the largest comparative data set to date, we recovered little support for the hypothesis that upstream enzymes evolve slower than those occupying more downstream positions, although expression levels do predict molecular evolutionary rates. Although shifts in floral pigmentation were only weakly related to changes affecting coding regions, we found a strong relationship with the presence/absence patterns of MYB transcripts. Intensely pigmented species express all three main MYB anthocyanin activators in petals, whereas pale or white species express few or none. Our findings reinforce the notion that pathway regulators have a dynamic history, involving higher rates of molecular evolution than structural components, along with frequent changes in expression during color transitions.

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