Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals

Valeriia Telizhenko; Carolin Kosiol; Michael R. McGowen; Pavel Gol'din

doi:10.1098/rspb.2024.1106

Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals

Valeriia Telizhenko^*, Carolin Kosiol, Michael R. McGowen, Pavel Gol'din

^*Corresponding author for this work

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

Abstract

Cetaceans have evolved unique limb structures, such as flippers, due to genetic changes during their transition to aquatic life. However, the full understanding of the genetic and evolutionary mechanisms behind these changes is still developing. By examining 25 limb-related protein-coding genes across various mammalian species, we compared genetic changes between aquatic mammals, like whales, and other mammals with unique limb structures such as bats, rodents and elephants. Our findings revealed significant modifications in limb-related genes, including variations in the Hox, GDF5 and Evx genes. Notably, a relaxed selection in several key genes was observed, suggesting a lifting of developmental constraints, which might have facilitated the emergence of morphological innovations in cetacean limb morphology. We also uncovered non-synonymous changes, insertions and deletions in these genes, particularly in the polyalanine tract of HOXD13 , which are distinctive to cetaceans or convergent with other aquatic mammals. These genetic variations correlated with the diverse and specialized limb structures observed in cetaceans, indicating a complex interplay of relaxed selection and specific mutations in mammalian limb evolution.

Original language	English
Article number	20241106
Number of pages	12
Journal	Proceedings of the Royal Society B: Biological Sciences
Volume	291
Issue number	2032
Early online date	9 Oct 2024
DOIs	https://doi.org/10.1098/rspb.2024.1106
Publication status	Published - 9 Oct 2024

Keywords

Limb evolution
Aquatic mammals
Cetaceans
Hox genes
GDF5
Relaxed selection

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10.1098/rspb.2024.1106

Telizhenko_2024_Relaxed_selection_in_evolution_PRSB_AAM_CCBY
Copyright © 2024 the Authors. This work has been made available online in accordance with the University of St Andrews Open Access policy. This accepted manuscript is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. The final published version of this work is available at https://doi.org/10.1098/rspb.2024.1106.
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Supplementary material from "Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals"
Telizhenko, V. (Creator), Kosiol, C. (Creator), McGowen, M. (Creator) & Gol'din, P. (Creator), Figshare, 2024
DOI: 10.6084/m9.figshare.c.7477888.v1
Dataset
Data from: Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals
Telizhenko, V. (Creator), Kosiol, C. (Creator), McGowen, M. R. (Creator) & Gol'din, P. (Creator), Dryad, 16 Sept 2024
DOI: 10.5061/dryad.n2z34tn64
Dataset

Cite this

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title = "Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals",

abstract = "Cetaceans have evolved unique limb structures, such as flippers, due to genetic changes during their transition to aquatic life. However, the full understanding of the genetic and evolutionary mechanisms behind these changes is still developing. By examining 25 limb-related protein-coding genes across various mammalian species, we compared genetic changes between aquatic mammals, like whales, and other mammals with unique limb structures such as bats, rodents and elephants. Our findings revealed significant modifications in limb-related genes, including variations in the Hox, GDF5 and Evx genes. Notably, a relaxed selection in several key genes was observed, suggesting a lifting of developmental constraints, which might have facilitated the emergence of morphological innovations in cetacean limb morphology. We also uncovered non-synonymous changes, insertions and deletions in these genes, particularly in the polyalanine tract of HOXD13 , which are distinctive to cetaceans or convergent with other aquatic mammals. These genetic variations correlated with the diverse and specialized limb structures observed in cetaceans, indicating a complex interplay of relaxed selection and specific mutations in mammalian limb evolution.",

keywords = "Limb evolution, Aquatic mammals, Cetaceans, Hox genes, GDF5, Relaxed selection",

author = "Valeriia Telizhenko and Carolin Kosiol and McGowen, {Michael R.} and Pavel Gol'din",

note = "Funding: The work by V.T. and P.G. was funded by the National Research Foundation of Ukraine, grant 2020.02/0247 {\textquoteleft}Integration of mammalian organism as a proxy of stability at aquatic and aerial life (as illustrated by skeleton traits){\textquoteright}.",

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Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals. / Telizhenko, Valeriia; Kosiol, Carolin; McGowen, Michael R. et al.
In: Proceedings of the Royal Society B: Biological Sciences, Vol. 291, No. 2032, 20241106, 09.10.2024.

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

TY - JOUR

T1 - Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals

AU - Telizhenko, Valeriia

AU - Kosiol, Carolin

AU - McGowen, Michael R.

AU - Gol'din, Pavel

N1 - Funding: The work by V.T. and P.G. was funded by the National Research Foundation of Ukraine, grant 2020.02/0247 ‘Integration of mammalian organism as a proxy of stability at aquatic and aerial life (as illustrated by skeleton traits)’.

PY - 2024/10/9

Y1 - 2024/10/9

N2 - Cetaceans have evolved unique limb structures, such as flippers, due to genetic changes during their transition to aquatic life. However, the full understanding of the genetic and evolutionary mechanisms behind these changes is still developing. By examining 25 limb-related protein-coding genes across various mammalian species, we compared genetic changes between aquatic mammals, like whales, and other mammals with unique limb structures such as bats, rodents and elephants. Our findings revealed significant modifications in limb-related genes, including variations in the Hox, GDF5 and Evx genes. Notably, a relaxed selection in several key genes was observed, suggesting a lifting of developmental constraints, which might have facilitated the emergence of morphological innovations in cetacean limb morphology. We also uncovered non-synonymous changes, insertions and deletions in these genes, particularly in the polyalanine tract of HOXD13 , which are distinctive to cetaceans or convergent with other aquatic mammals. These genetic variations correlated with the diverse and specialized limb structures observed in cetaceans, indicating a complex interplay of relaxed selection and specific mutations in mammalian limb evolution.

AB - Cetaceans have evolved unique limb structures, such as flippers, due to genetic changes during their transition to aquatic life. However, the full understanding of the genetic and evolutionary mechanisms behind these changes is still developing. By examining 25 limb-related protein-coding genes across various mammalian species, we compared genetic changes between aquatic mammals, like whales, and other mammals with unique limb structures such as bats, rodents and elephants. Our findings revealed significant modifications in limb-related genes, including variations in the Hox, GDF5 and Evx genes. Notably, a relaxed selection in several key genes was observed, suggesting a lifting of developmental constraints, which might have facilitated the emergence of morphological innovations in cetacean limb morphology. We also uncovered non-synonymous changes, insertions and deletions in these genes, particularly in the polyalanine tract of HOXD13 , which are distinctive to cetaceans or convergent with other aquatic mammals. These genetic variations correlated with the diverse and specialized limb structures observed in cetaceans, indicating a complex interplay of relaxed selection and specific mutations in mammalian limb evolution.

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KW - Aquatic mammals

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KW - Relaxed selection

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DO - 10.1098/rspb.2024.1106

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JO - Proceedings of the Royal Society B: Biological Sciences

JF - Proceedings of the Royal Society B: Biological Sciences

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Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals

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Keywords

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Supplementary material from "Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals"

Data from: Relaxed selection in evolution of genes regulating limb development gives clue to variation in forelimb morphology of cetaceans and other mammals

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