Evolution of tissue-specific expression of ancestral genes across vertebrates and insects

Federica Mantica; Luis P. Iñiguez; Yamile Marquez; Jon Permanyer; Antonio Torres-Mendez; Josefa Cruz; Xavier Franch-Marro; Frank Tulenko; Demian Burguera; Stephanie Bertrand; Toby Doyle; Marcela Nouzova; Peter D. Currie; Fernando G. Noriega; Hector Escriva; Maria Ina Arnone; Caroline B. Albertin; Karl R. Wotton; Isabel Almudi; David Martin; Manuel Irimia

doi:10.1038/s41559-024-02398-5

Evolution of tissue-specific expression of ancestral genes across vertebrates and insects

Federica Mantica, Luis P. Iñiguez, Yamile Marquez, Jon Permanyer, Antonio Torres-Mendez, Josefa Cruz, Xavier Franch-Marro, Frank Tulenko, Demian Burguera, Stephanie Bertrand, Toby Doyle, Marcela Nouzova, Peter D. Currie, Fernando G. Noriega, Hector Escriva, Maria Ina Arnone, Caroline B. Albertin, Karl R. Wotton, Isabel Almudi, David MartinManuel Irimia

Australian Regenerative Medicine Institute

Research output: Contribution to journal › Article › Research › peer-review

14 Citations (Scopus)

Abstract

Regulation of gene expression is arguably the main mechanism underlying the phenotypic diversity of tissues within and between species. Here we assembled an extensive transcriptomic dataset covering 8 tissues across 20 bilaterian species and performed analyses using a symmetric phylogeny that allowed the combined and parallel investigation of gene expression evolution between vertebrates and insects. We specifically focused on widely conserved ancestral genes, identifying strong cores of pan-bilaterian tissue-specific genes and even larger groups that diverged to define vertebrate and insect tissues. Systematic inferences of tissue-specificity gains and losses show that nearly half of all ancestral genes have been recruited into tissue-specific transcriptomes. This occurred during both ancient and, especially, recent bilaterian evolution, with several gains being associated with the emergence of unique phenotypes (for example, novel cell types). Such pervasive evolution of tissue specificity was linked to gene duplication coupled with expression specialization of one of the copies, revealing an unappreciated prolonged effect of whole-genome duplications on recent vertebrate evolution.

Original language	English
Pages (from-to)	1140–1153
Number of pages	32
Journal	Nature Ecology and Evolution
Volume	8
Issue number	6
DOIs	https://doi.org/10.1038/s41559-024-02398-5
Publication status	Published - 2024

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10.1038/s41559-024-02398-5

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Mantica, F., Iñiguez, L. P., Marquez, Y., Permanyer, J., Torres-Mendez, A., Cruz, J., Franch-Marro, X., Tulenko, F., Burguera, D., Bertrand, S., Doyle, T., Nouzova, M., Currie, P. D., Noriega, F. G., Escriva, H., Arnone, M. I., Albertin, C. B., Wotton, K. R., Almudi, I., ... Irimia, M. (2024). Evolution of tissue-specific expression of ancestral genes across vertebrates and insects. Nature Ecology and Evolution, 8(6), 1140–1153. https://doi.org/10.1038/s41559-024-02398-5

@article{4841b8d9abff4a7cb6ee428aa6c0b97d,

title = "Evolution of tissue-specific expression of ancestral genes across vertebrates and insects",

abstract = "Regulation of gene expression is arguably the main mechanism underlying the phenotypic diversity of tissues within and between species. Here we assembled an extensive transcriptomic dataset covering 8 tissues across 20 bilaterian species and performed analyses using a symmetric phylogeny that allowed the combined and parallel investigation of gene expression evolution between vertebrates and insects. We specifically focused on widely conserved ancestral genes, identifying strong cores of pan-bilaterian tissue-specific genes and even larger groups that diverged to define vertebrate and insect tissues. Systematic inferences of tissue-specificity gains and losses show that nearly half of all ancestral genes have been recruited into tissue-specific transcriptomes. This occurred during both ancient and, especially, recent bilaterian evolution, with several gains being associated with the emergence of unique phenotypes (for example, novel cell types). Such pervasive evolution of tissue specificity was linked to gene duplication coupled with expression specialization of one of the copies, revealing an unappreciated prolonged effect of whole-genome duplications on recent vertebrate evolution.",

author = "Federica Mantica and I{\~n}iguez, {Luis P.} and Yamile Marquez and Jon Permanyer and Antonio Torres-Mendez and Josefa Cruz and Xavier Franch-Marro and Frank Tulenko and Demian Burguera and Stephanie Bertrand and Toby Doyle and Marcela Nouzova and Currie, {Peter D.} and Noriega, {Fernando G.} and Hector Escriva and Arnone, {Maria Ina} and Albertin, {Caroline B.} and Wotton, {Karl R.} and Isabel Almudi and David Martin and Manuel Irimia",

note = "Funding Information: We thank Q. T. Ramon for the original drawing of tissue icons; N. Arecco, N. B. Morais, A. Seb\u00E9-Pedr\u00F3s and D. Weghorn for critical feedback on the manuscript; and the CRG Genomics Unit for the RNA sequencing. This research was funded by the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation programme (ERC-StG-LS2-637591 and ERCCoG-LS2-101002275 to M.I.), by the Spanish Ministry of Economy and Competitiveness (BFU-2017-89201-P and PID2020-115040GB-I00 to M.I.) and by the \u2018Centro de Excelencia Severo Ochoa 2013-2017\u2019(SEV-2012-0208). F.M. holds a FPI fellowship associated with the grant BFU-2017-89201-P. Additional support for this research was provided by the Spanish MINECO (PGC2018-098427- B-I00 to D.M. and X.F.-M.), the Czech Science Foundation (22-21244S to M.N.), the Australian Research Council (grant DP200103219 to P.D.C. and F.T.) and the National Institutes of Health-NIAID (grant R21AI167849 to F.G.N.). Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2024.",

year = "2024",

doi = "10.1038/s41559-024-02398-5",

language = "English",

volume = "8",

pages = "1140–1153",

journal = "Nature Ecology and Evolution",

issn = "2397-334X",

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Mantica, F, Iñiguez, LP, Marquez, Y, Permanyer, J, Torres-Mendez, A, Cruz, J, Franch-Marro, X, Tulenko, F, Burguera, D, Bertrand, S, Doyle, T, Nouzova, M, Currie, PD, Noriega, FG, Escriva, H, Arnone, MI, Albertin, CB, Wotton, KR, Almudi, I, Martin, D & Irimia, M 2024, 'Evolution of tissue-specific expression of ancestral genes across vertebrates and insects', Nature Ecology and Evolution, vol. 8, no. 6, pp. 1140–1153. https://doi.org/10.1038/s41559-024-02398-5

TY - JOUR

T1 - Evolution of tissue-specific expression of ancestral genes across vertebrates and insects

AU - Mantica, Federica

AU - Iñiguez, Luis P.

AU - Marquez, Yamile

AU - Permanyer, Jon

AU - Torres-Mendez, Antonio

AU - Cruz, Josefa

AU - Franch-Marro, Xavier

AU - Tulenko, Frank

AU - Burguera, Demian

AU - Bertrand, Stephanie

AU - Doyle, Toby

AU - Nouzova, Marcela

AU - Currie, Peter D.

AU - Noriega, Fernando G.

AU - Escriva, Hector

AU - Arnone, Maria Ina

AU - Albertin, Caroline B.

AU - Wotton, Karl R.

AU - Almudi, Isabel

AU - Martin, David

AU - Irimia, Manuel

N1 - Funding Information: We thank Q. T. Ramon for the original drawing of tissue icons; N. Arecco, N. B. Morais, A. Seb\u00E9-Pedr\u00F3s and D. Weghorn for critical feedback on the manuscript; and the CRG Genomics Unit for the RNA sequencing. This research was funded by the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation programme (ERC-StG-LS2-637591 and ERCCoG-LS2-101002275 to M.I.), by the Spanish Ministry of Economy and Competitiveness (BFU-2017-89201-P and PID2020-115040GB-I00 to M.I.) and by the \u2018Centro de Excelencia Severo Ochoa 2013-2017\u2019(SEV-2012-0208). F.M. holds a FPI fellowship associated with the grant BFU-2017-89201-P. Additional support for this research was provided by the Spanish MINECO (PGC2018-098427- B-I00 to D.M. and X.F.-M.), the Czech Science Foundation (22-21244S to M.N.), the Australian Research Council (grant DP200103219 to P.D.C. and F.T.) and the National Institutes of Health-NIAID (grant R21AI167849 to F.G.N.). Publisher Copyright: © The Author(s), under exclusive licence to Springer Nature Limited 2024.

PY - 2024

Y1 - 2024

N2 - Regulation of gene expression is arguably the main mechanism underlying the phenotypic diversity of tissues within and between species. Here we assembled an extensive transcriptomic dataset covering 8 tissues across 20 bilaterian species and performed analyses using a symmetric phylogeny that allowed the combined and parallel investigation of gene expression evolution between vertebrates and insects. We specifically focused on widely conserved ancestral genes, identifying strong cores of pan-bilaterian tissue-specific genes and even larger groups that diverged to define vertebrate and insect tissues. Systematic inferences of tissue-specificity gains and losses show that nearly half of all ancestral genes have been recruited into tissue-specific transcriptomes. This occurred during both ancient and, especially, recent bilaterian evolution, with several gains being associated with the emergence of unique phenotypes (for example, novel cell types). Such pervasive evolution of tissue specificity was linked to gene duplication coupled with expression specialization of one of the copies, revealing an unappreciated prolonged effect of whole-genome duplications on recent vertebrate evolution.

AB - Regulation of gene expression is arguably the main mechanism underlying the phenotypic diversity of tissues within and between species. Here we assembled an extensive transcriptomic dataset covering 8 tissues across 20 bilaterian species and performed analyses using a symmetric phylogeny that allowed the combined and parallel investigation of gene expression evolution between vertebrates and insects. We specifically focused on widely conserved ancestral genes, identifying strong cores of pan-bilaterian tissue-specific genes and even larger groups that diverged to define vertebrate and insect tissues. Systematic inferences of tissue-specificity gains and losses show that nearly half of all ancestral genes have been recruited into tissue-specific transcriptomes. This occurred during both ancient and, especially, recent bilaterian evolution, with several gains being associated with the emergence of unique phenotypes (for example, novel cell types). Such pervasive evolution of tissue specificity was linked to gene duplication coupled with expression specialization of one of the copies, revealing an unappreciated prolonged effect of whole-genome duplications on recent vertebrate evolution.

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U2 - 10.1038/s41559-024-02398-5

DO - 10.1038/s41559-024-02398-5

M3 - Article

C2 - 38622362

AN - SCOPUS:85190402437

SN - 2397-334X

VL - 8

SP - 1140

EP - 1153

JO - Nature Ecology and Evolution

JF - Nature Ecology and Evolution

IS - 6

ER -

Evolution of tissue-specific expression of ancestral genes across vertebrates and insects

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Fins to Limbs: Investigating the Evolution of complex Limb Musculature

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Evolution of tissue-specific expression of ancestral genes across vertebrates and insects

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Fins to Limbs: Investigating the Evolution of complex Limb Musculature

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