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1. The evidence for anthocyanins in the betalain-pigmented genus Hylocereus is weak

   https://doi.org/10.1186/s12864-022-08947-1  

   Pucker, Boas ; Brockington, Samuel F. ( December 2022 , BMC Genomics)

   Abstract Here we respond to Zhou (BMC Genomics 21:734, 2020) “Combined Transcriptome and Metabolome analysis of Pitaya fruit unveiled the mechanisms underlying peel and pulp color formation” published in BMC Genomics. Given the evolutionary conserved anthocyanin biosynthesis pathway in betalain-pigmented species, we are open to the idea that species with both anthocyanins and betalains might exist. However, in absence of LC-MS/MS spectra, apparent lack of biological replicates, and no comparison to authentic standards, the findings of Zhou (BMC Genomics 21:734, 2020) are not a strong basis to propose the presence of anthocyanins in betalain-pigmented pitaya. In addition, our re-analysis of the datasets indicates the misidentification of important genes and the omission of key flavonoid and anthocyanin synthesis genes ANS and DFR. Finally, our re-analysis of the RNA-Seq dataset reveals no correlation between anthocyanin biosynthesis gene expression and pigment status. 

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2. Multiple mechanisms explain loss of anthocyanins from betalain‐pigmented Caryophyllales, including repeated wholesale loss of a key anthocyanidin synthesis enzyme

   https://doi.org/10.1111/nph.19341  

   Pucker, Boas ; Walker‐Hale, Nathanael ; Dzurlic, Jasmina ; Yim, Won C. ; Cushman, John C. ; Crum, Alexandra ; Yang, Ya ; Brockington, Samuel F. ( January 2024 , New Phytologist)

   In this study, we investigate the genetic mechanisms responsible for the loss of anthocyanins in betalain‐pigmented Caryophyllales, considering our hypothesis of multiple transitions to betalain pigmentation.

   Utilizing transcriptomic and genomic datasets across 357 species and 31 families, we scrutinize 18 flavonoid pathway genes and six regulatory genes spanning four transitions to betalain pigmentation. We examined evidence for hypotheses of wholesale gene loss, modified gene function, altered gene expression, and degeneration of the MBW (MYB‐bHLH‐WD40) trasnscription factor complex, within betalain‐pigmented lineages.

   Our analyses reveal that most flavonoid synthesis genes remain conserved in betalain‐pigmented lineages, with the notable exception ofTT19orthologs, essential for the final step in anthocyanidin synthesis, which appear to have been repeatedly and entirely lost. Additional late‐stage flavonoid pathway genes upstream ofTT19also manifest strikingly reduced expression in betalain‐pigmented species. Additionally, we find repeated loss and alteration in the MBW transcription complex essential for canonical anthocyanin synthesis.

   Consequently, the loss and exclusion of anthocyanins in betalain‐pigmented species appear to be orchestrated through several mechanisms: loss of a key enzyme, downregulation of synthesis genes, and degeneration of regulatory complexes. These changes have occurred iteratively in Caryophyllales, often coinciding with evolutionary transitions to betalain pigmentation.

    

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3. Two MYB activators of anthocyanin biosynthesis exhibit specialized activities in petiole and fruit of diploid strawberry

   https://doi.org/10.1093/jxb/erac507  

   Luo, Xi ; Plunkert, Madison ; Teng, Zi ; Mackenzie, Kathryn ; Guo, Lei ; Luo, Yaguang ; Hytönen, Timo ; Liu, Zhongchi ( December 2022 , Journal of Experimental Botany)

   Abstract The R2R3-MYB transcription factor FveMYB10 is a major regulator of anthocyanin pigmentation in the red strawberry fruits. fvemyb10 loss-of-function mutants form yellow fruits but still accumulate purple-colored anthocyanins in the petioles, suggesting that anthocyanin biosynthesis is under distinct regulation in fruits and petioles. We identified a green petioles (gp)-1 mutant from chemical mutagenesis in the diploid wild strawberry Fragaria vesca that lacks anthocyanins in petioles. Using mapping-by-sequencing and transient functional assays, we confirmed that the causative mutation resides in a FveMYB10-Like (MYB10L) gene and that FveMYB10 and FveMYB10L function independently in the fruit and petiole respectively. In addition to their tissue-specific regulation, FveMYB10 and FveMYB10L respond differently to changes in light quality, produce distinct anthocyanin compositions, and preferentially activate different downstream anthocyanin biosynthesis genes in their respective tissues. This work identifies a new regulator of anthocyanin synthesis and demonstrates that two paralogous MYB genes with specialized functions enable tissue-specific regulation of anthocyanin biosynthesis in fruit and petiole tissues. 

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4. Evolution of l ‐ DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales

   https://doi.org/10.1111/nph.16089  

   Sheehan, Hester ; Feng, Tao ; Walker‐Hale, Nathanael ; Lopez‐Nieves, Samuel ; Pucker, Boas ; Guo, Rui ; Yim, Won C. ; Badgami, Roshani ; Timoneda, Alfonso ; Zhao, Lijun ; et al ( September 2019 , New Phytologist)

   The evolution ofl‐DOPA4,5‐dioxygenase activity, encoded by the geneDODA, was a key step in the origin of betalain biosynthesis in Caryophyllales. We previously proposed thatl‐DOPA4,5‐dioxygenase activity evolved via a single Caryophyllales‐specific neofunctionalisation event within theDODAgene lineage. However, this neofunctionalisation event has not been confirmed and theDODAgene lineage exhibits numerous gene duplication events, whose evolutionary significance is unclear.

   To address this, we functionally characterised 23 distinctDODAproteins forl‐DOPA4,5‐dioxygenase activity, from four betalain‐pigmented and five anthocyanin‐pigmented species, representing key evolutionary transitions across Caryophyllales. By mapping these functional data to an updatedDODAphylogeny, we then explored the evolution ofl‐DOPA4,5‐dioxygenase activity.

   We find that lowl‐DOPA4,5‐dioxygenase activity is distributed across theDODAgene lineage. In this context, repeated gene duplication events within theDODAgene lineage give rise to polyphyletic occurrences of elevatedl‐DOPA4,5‐dioxygenase activity, accompanied by convergent shifts in key functional residues and distinct genomic patterns of micro‐synteny.

   In the context of an updated organismal phylogeny and newly inferred pigment reconstructions, we argue that repeated convergent acquisition of elevatedl‐DOPA4,5‐dioxygenase activity is consistent with recurrent specialisation to betalain synthesis in Caryophyllales.

    

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

   https://doi.org/10.1093/molbev/msac044  

   Wheeler, Lucas C ; Walker, Joseph F ; Ng, Julienne ; Deanna, Rocío ; Dunbar-Wallis, Amy ; Backes, Alice ; Pezzi, Pedro H ; Palchetti, M Virginia ; Robertson, Holly M ; Monaghan, Andrew ; et al ( March 2022 , Molecular Biology and Evolution)

   Townsend, Jeffrey (Ed.)

   Abstract 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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