DELLA functions evolved by rewiring of associated transcriptional networks

Asier Briones-Moreno; Jorge Hernández-García; Carlos Vargas-Chávez; Noel Blanco-Touriñán; Alexandros Phokas; Cristina Úrbez; Pablo D Cerdán; Juliet C Coates; David Alabadí; Miguel A Blázquez

doi:10.1038/s41477-023-01372-6

DELLA functions evolved by rewiring of associated transcriptional networks

Asier Briones-Moreno, Jorge Hernández-García, Carlos Vargas-Chávez, Noel Blanco-Touriñán, Alexandros Phokas, Cristina Úrbez, Pablo D Cerdán, Juliet C Coates, David Alabadí, Miguel A Blázquez^*

^*Corresponding author for this work

Biosciences

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Abstract

DELLA proteins are land-plant specific transcriptional regulators that transduce environmental information to multiple processes throughout a plant’s life^1,2,3. The molecular basis for this critical function in angiosperms has been linked to the regulation of DELLA stability by gibberellins and to the capacity of DELLA proteins to interact with hundreds of transcription factors^4,5. Although bryophyte orthologues can partially fulfil functions attributed to angiosperm DELLA^6,7, it is not clear whether the capacity to establish interaction networks is an ancestral property of DELLA proteins or is associated with their role in gibberellin signalling^8,9,10. Here we show that representative DELLAs from the main plant lineages display a conserved ability to interact with multiple transcription factors. We propose that promiscuity was encoded in the ancestral DELLA protein, and that this property has been largely maintained, whereas the lineage-dependent diversification of DELLA-dependent functions mostly reflects the functional evolution of their interacting partners.

Original language	English
Journal	Nature Plants
Early online date	13 Mar 2023
DOIs	https://doi.org/10.1038/s41477-023-01372-6
Publication status	E-pub ahead of print - 13 Mar 2023

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BrionesMorenoA2023DELLA
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title = "DELLA functions evolved by rewiring of associated transcriptional networks",

abstract = "DELLA proteins are land-plant specific transcriptional regulators that transduce environmental information to multiple processes throughout a plant{\textquoteright}s life1,2,3. The molecular basis for this critical function in angiosperms has been linked to the regulation of DELLA stability by gibberellins and to the capacity of DELLA proteins to interact with hundreds of transcription factors4,5. Although bryophyte orthologues can partially fulfil functions attributed to angiosperm DELLA6,7, it is not clear whether the capacity to establish interaction networks is an ancestral property of DELLA proteins or is associated with their role in gibberellin signalling8,9,10. Here we show that representative DELLAs from the main plant lineages display a conserved ability to interact with multiple transcription factors. We propose that promiscuity was encoded in the ancestral DELLA protein, and that this property has been largely maintained, whereas the lineage-dependent diversification of DELLA-dependent functions mostly reflects the functional evolution of their interacting partners. ",

author = "Asier Briones-Moreno and Jorge Hern{\'a}ndez-Garc{\'i}a and Carlos Vargas-Ch{\'a}vez and Noel Blanco-Touri{\~n}{\'a}n and Alexandros Phokas and Cristina {\'U}rbez and Cerd{\'a}n, {Pablo D} and Coates, {Juliet C} and David Alabad{\'i} and Bl{\'a}zquez, {Miguel A}",

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AU - Briones-Moreno, Asier

AU - Hernández-García, Jorge

AU - Vargas-Chávez, Carlos

AU - Blanco-Touriñán, Noel

AU - Phokas, Alexandros

AU - Úrbez, Cristina

AU - Cerdán, Pablo D

AU - Coates, Juliet C

AU - Alabadí, David

AU - Blázquez, Miguel A

PY - 2023/3/13

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AB - DELLA proteins are land-plant specific transcriptional regulators that transduce environmental information to multiple processes throughout a plant’s life1,2,3. The molecular basis for this critical function in angiosperms has been linked to the regulation of DELLA stability by gibberellins and to the capacity of DELLA proteins to interact with hundreds of transcription factors4,5. Although bryophyte orthologues can partially fulfil functions attributed to angiosperm DELLA6,7, it is not clear whether the capacity to establish interaction networks is an ancestral property of DELLA proteins or is associated with their role in gibberellin signalling8,9,10. Here we show that representative DELLAs from the main plant lineages display a conserved ability to interact with multiple transcription factors. We propose that promiscuity was encoded in the ancestral DELLA protein, and that this property has been largely maintained, whereas the lineage-dependent diversification of DELLA-dependent functions mostly reflects the functional evolution of their interacting partners.

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DELLA functions evolved by rewiring of associated transcriptional networks

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