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

The evolution of l‐DOPA 4,5‐dioxygenase activity, encoded by the gene DODA, was a key step in the origin of betalain biosynthesis in Caryophyllales. We previously proposed that l‐DOPA 4,5‐dioxygenase activity evolved via a single Caryophyllales‐specific neofunctionalisation event within the DODA gen...

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Autores principales: Sheehan, Hester, Feng, Tao, Walker‐Hale, Nathanael, Lopez‐Nieves, Samuel, Pucker, Boas, Guo, Rui, Yim, Won C., Badgami, Roshani, Timoneda, Alfonso, Zhao, Lijun, Tiley, Helene, Copetti, Dario, Sanderson, Michael J., Cushman, John C., Moore, Michael J., Smith, Stephen A., Brockington, Samuel F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7384185/
https://www.ncbi.nlm.nih.gov/pubmed/31369159
http://dx.doi.org/10.1111/nph.16089
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author Sheehan, Hester
Feng, Tao
Walker‐Hale, Nathanael
Lopez‐Nieves, Samuel
Pucker, Boas
Guo, Rui
Yim, Won C.
Badgami, Roshani
Timoneda, Alfonso
Zhao, Lijun
Tiley, Helene
Copetti, Dario
Sanderson, Michael J.
Cushman, John C.
Moore, Michael J.
Smith, Stephen A.
Brockington, Samuel F.
author_facet Sheehan, Hester
Feng, Tao
Walker‐Hale, Nathanael
Lopez‐Nieves, Samuel
Pucker, Boas
Guo, Rui
Yim, Won C.
Badgami, Roshani
Timoneda, Alfonso
Zhao, Lijun
Tiley, Helene
Copetti, Dario
Sanderson, Michael J.
Cushman, John C.
Moore, Michael J.
Smith, Stephen A.
Brockington, Samuel F.
author_sort Sheehan, Hester
collection PubMed
description The evolution of l‐DOPA 4,5‐dioxygenase activity, encoded by the gene DODA, was a key step in the origin of betalain biosynthesis in Caryophyllales. We previously proposed that l‐DOPA 4,5‐dioxygenase activity evolved via a single Caryophyllales‐specific neofunctionalisation event within the DODA gene lineage. However, this neofunctionalisation event has not been confirmed and the DODA gene lineage exhibits numerous gene duplication events, whose evolutionary significance is unclear. To address this, we functionally characterised 23 distinct DODA proteins for l‐DOPA 4,5‐dioxygenase activity, from four betalain‐pigmented and five anthocyanin‐pigmented species, representing key evolutionary transitions across Caryophyllales. By mapping these functional data to an updated DODA phylogeny, we then explored the evolution of l‐DOPA 4,5‐dioxygenase activity. We find that low l‐DOPA 4,5‐dioxygenase activity is distributed across the DODA gene lineage. In this context, repeated gene duplication events within the DODA gene lineage give rise to polyphyletic occurrences of elevated l‐DOPA 4,5‐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 elevated l‐DOPA 4,5‐dioxygenase activity is consistent with recurrent specialisation to betalain synthesis in Caryophyllales.
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spelling pubmed-73841852020-07-28 Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales Sheehan, Hester Feng, Tao Walker‐Hale, Nathanael Lopez‐Nieves, Samuel Pucker, Boas Guo, Rui Yim, Won C. Badgami, Roshani Timoneda, Alfonso Zhao, Lijun Tiley, Helene Copetti, Dario Sanderson, Michael J. Cushman, John C. Moore, Michael J. Smith, Stephen A. Brockington, Samuel F. New Phytol Research The evolution of l‐DOPA 4,5‐dioxygenase activity, encoded by the gene DODA, was a key step in the origin of betalain biosynthesis in Caryophyllales. We previously proposed that l‐DOPA 4,5‐dioxygenase activity evolved via a single Caryophyllales‐specific neofunctionalisation event within the DODA gene lineage. However, this neofunctionalisation event has not been confirmed and the DODA gene lineage exhibits numerous gene duplication events, whose evolutionary significance is unclear. To address this, we functionally characterised 23 distinct DODA proteins for l‐DOPA 4,5‐dioxygenase activity, from four betalain‐pigmented and five anthocyanin‐pigmented species, representing key evolutionary transitions across Caryophyllales. By mapping these functional data to an updated DODA phylogeny, we then explored the evolution of l‐DOPA 4,5‐dioxygenase activity. We find that low l‐DOPA 4,5‐dioxygenase activity is distributed across the DODA gene lineage. In this context, repeated gene duplication events within the DODA gene lineage give rise to polyphyletic occurrences of elevated l‐DOPA 4,5‐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 elevated l‐DOPA 4,5‐dioxygenase activity is consistent with recurrent specialisation to betalain synthesis in Caryophyllales. John Wiley and Sons Inc. 2019-09-29 2020-08 /pmc/articles/PMC7384185/ /pubmed/31369159 http://dx.doi.org/10.1111/nph.16089 Text en © 2019 The Authors. New Phytologist © 2019 New Phytologist Trust This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research
Sheehan, Hester
Feng, Tao
Walker‐Hale, Nathanael
Lopez‐Nieves, Samuel
Pucker, Boas
Guo, Rui
Yim, Won C.
Badgami, Roshani
Timoneda, Alfonso
Zhao, Lijun
Tiley, Helene
Copetti, Dario
Sanderson, Michael J.
Cushman, John C.
Moore, Michael J.
Smith, Stephen A.
Brockington, Samuel F.
Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales
title Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales
title_full Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales
title_fullStr Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales
title_full_unstemmed Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales
title_short Evolution of l‐DOPA 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales
title_sort evolution of l‐dopa 4,5‐dioxygenase activity allows for recurrent specialisation to betalain pigmentation in caryophyllales
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7384185/
https://www.ncbi.nlm.nih.gov/pubmed/31369159
http://dx.doi.org/10.1111/nph.16089
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