Tunicates Illuminate the Enigmatic Evolution of Chordate Metallothioneins by Gene Gains and Losses, Independent Modular Expansions, and Functional Convergences

Sara Calatayud; Mario Garcia-Risco; Òscar Palacios; Mercè Capdevila; Cristian Cañestro; Ricard Albalat

doi:10.1093/molbev/msab184

Tunicates Illuminate the Enigmatic Evolution of Chordate Metallothioneins by Gene Gains and Losses, Independent Modular Expansions, and Functional Convergences

Sara Calatayud, Mario Garcia-Risco, Òscar Palacios, Mercè Capdevila, Cristian Cañestro, Ricard Albalat^*

^*Autor correspondiente de este trabajo

Departamento de Química

Producción científica: Contribución a una revista › Artículo › Investigación › revisión exhaustiva

8 Citas (Scopus)

Resumen

To investigate novel patterns and processes of protein evolution, we have focused in the metallothioneins (MTs), a singular group of metal-binding, cysteine-rich proteins that, due to their high degree of sequence diversity, still represents a "black hole"in Evolutionary Biology. We have identified and analyzed more than 160 new MTs in nonvertebrate chordates (especially in 37 species of ascidians, 4 thaliaceans, and 3 appendicularians) showing that prototypic tunicate MTs are mono-modular proteins with a pervasive preference for cadmium ions, whereas vertebrate and cephalochordate MTs are bimodular proteins with diverse metal preferences. These structural and functional differences imply a complex evolutionary history of chordate MTs-including de novo emergence of genes and domains, processes of convergent evolution, events of gene gains and losses, and recurrent amplifications of functional domains-that would stand for an unprecedented case in the field of protein evolution.

Idioma original	Inglés
Páginas (desde-hasta)	4435-4448
Número de páginas	14
Publicación	Molecular Biology and Evolution
Volumen	38
N.º	10
DOI	https://doi.org/10.1093/molbev/msab184
Estado	Publicada - 1 oct 2021

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title = "Tunicates Illuminate the Enigmatic Evolution of Chordate Metallothioneins by Gene Gains and Losses, Independent Modular Expansions, and Functional Convergences",

abstract = "To investigate novel patterns and processes of protein evolution, we have focused in the metallothioneins (MTs), a singular group of metal-binding, cysteine-rich proteins that, due to their high degree of sequence diversity, still represents a {"}black hole{"}in Evolutionary Biology. We have identified and analyzed more than 160 new MTs in nonvertebrate chordates (especially in 37 species of ascidians, 4 thaliaceans, and 3 appendicularians) showing that prototypic tunicate MTs are mono-modular proteins with a pervasive preference for cadmium ions, whereas vertebrate and cephalochordate MTs are bimodular proteins with diverse metal preferences. These structural and functional differences imply a complex evolutionary history of chordate MTs-including de novo emergence of genes and domains, processes of convergent evolution, events of gene gains and losses, and recurrent amplifications of functional domains-that would stand for an unprecedented case in the field of protein evolution. ",

keywords = "Chordata, Tunicata, ascidians/thaliaceans/appendicularians, metallothionein domains, metallothionein evolution, modular proteins",

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Tunicates Illuminate the Enigmatic Evolution of Chordate Metallothioneins by Gene Gains and Losses, Independent Modular Expansions, and Functional Convergences. / Calatayud, Sara; Garcia-Risco, Mario; Palacios, Òscar et al.
En: Molecular Biology and Evolution, Vol. 38, N.º 10, 01.10.2021, p. 4435-4448.

Producción científica: Contribución a una revista › Artículo › Investigación › revisión exhaustiva

TY - JOUR

T1 - Tunicates Illuminate the Enigmatic Evolution of Chordate Metallothioneins by Gene Gains and Losses, Independent Modular Expansions, and Functional Convergences

AU - Calatayud, Sara

AU - Garcia-Risco, Mario

AU - Palacios, Òscar

AU - Capdevila, Mercè

AU - Cañestro, Cristian

AU - Albalat, Ricard

N1 - © The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.

PY - 2021/10/1

Y1 - 2021/10/1

N2 - To investigate novel patterns and processes of protein evolution, we have focused in the metallothioneins (MTs), a singular group of metal-binding, cysteine-rich proteins that, due to their high degree of sequence diversity, still represents a "black hole"in Evolutionary Biology. We have identified and analyzed more than 160 new MTs in nonvertebrate chordates (especially in 37 species of ascidians, 4 thaliaceans, and 3 appendicularians) showing that prototypic tunicate MTs are mono-modular proteins with a pervasive preference for cadmium ions, whereas vertebrate and cephalochordate MTs are bimodular proteins with diverse metal preferences. These structural and functional differences imply a complex evolutionary history of chordate MTs-including de novo emergence of genes and domains, processes of convergent evolution, events of gene gains and losses, and recurrent amplifications of functional domains-that would stand for an unprecedented case in the field of protein evolution.

AB - To investigate novel patterns and processes of protein evolution, we have focused in the metallothioneins (MTs), a singular group of metal-binding, cysteine-rich proteins that, due to their high degree of sequence diversity, still represents a "black hole"in Evolutionary Biology. We have identified and analyzed more than 160 new MTs in nonvertebrate chordates (especially in 37 species of ascidians, 4 thaliaceans, and 3 appendicularians) showing that prototypic tunicate MTs are mono-modular proteins with a pervasive preference for cadmium ions, whereas vertebrate and cephalochordate MTs are bimodular proteins with diverse metal preferences. These structural and functional differences imply a complex evolutionary history of chordate MTs-including de novo emergence of genes and domains, processes of convergent evolution, events of gene gains and losses, and recurrent amplifications of functional domains-that would stand for an unprecedented case in the field of protein evolution.

KW - Chordata

KW - Tunicata

KW - ascidians/thaliaceans/appendicularians

KW - metallothionein domains

KW - metallothionein evolution

KW - modular proteins

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Tunicates Illuminate the Enigmatic Evolution of Chordate Metallothioneins by Gene Gains and Losses, Independent Modular Expansions, and Functional Convergences

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