Decoding the Evolution of Melanin in Vertebrates

M. E. McNamara; V. Rossi; T. S. Slater; C. S. Rogers; A. L. Ducrest; S. Dubey; A. Roulin

doi:10.1016/j.tree.2020.12.012

Decoding the Evolution of Melanin in Vertebrates

M. E. McNamara
, V. Rossi
, T. S. Slater
, C. S. Rogers
, A. L. Ducrest
, S. Dubey
, A. Roulin

School of Biological, Earth and Environmental Sciences

Research output: Contribution to journal › Review article › peer-review

Abstract

Melanins are widespread pigments in vertebrates, with important roles in visual signaling, UV protection, and homeostasis. Fossil evidence of melanin and melanin-bearing organelles – melanosomes – in ancient vertebrates may illuminate the evolution of melanin and its functions, but macroevolutionary trends are poorly resolved. Here, we integrate fossil data with current understanding of melanin function, biochemistry, and genetics. Mapping key genes onto phenotypic attributes of fossil vertebrates identifies potential genomic controls on melanin evolution. Taxonomic trends in the anatomical location, geometry, and chemistry of vertebrate melanosomes are linked to the evolution of endothermy. These shifts in melanin biology suggest fundamental links between melanization and vertebrate ecology. Tissue-specific and taxonomic trends in melanin chemistry support evidence for evolutionary tradeoffs between function and cytotoxicity.

Original language	English
Pages (from-to)	430-443
Number of pages	14
Journal	Trends in Ecology and Evolution
Volume	36
Issue number	5
DOIs	https://doi.org/10.1016/j.tree.2020.12.012
Publication status	Published - May 2021

Keywords

fossil color
MC1R
melanins
melanosomes
metallome

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10.1016/j.tree.2020.12.012

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title = "Decoding the Evolution of Melanin in Vertebrates",

abstract = "Melanins are widespread pigments in vertebrates, with important roles in visual signaling, UV protection, and homeostasis. Fossil evidence of melanin and melanin-bearing organelles – melanosomes – in ancient vertebrates may illuminate the evolution of melanin and its functions, but macroevolutionary trends are poorly resolved. Here, we integrate fossil data with current understanding of melanin function, biochemistry, and genetics. Mapping key genes onto phenotypic attributes of fossil vertebrates identifies potential genomic controls on melanin evolution. Taxonomic trends in the anatomical location, geometry, and chemistry of vertebrate melanosomes are linked to the evolution of endothermy. These shifts in melanin biology suggest fundamental links between melanization and vertebrate ecology. Tissue-specific and taxonomic trends in melanin chemistry support evidence for evolutionary tradeoffs between function and cytotoxicity.",

keywords = "fossil color, MC1R, melanins, melanosomes, metallome",

author = "McNamara, \{M. E.\} and V. Rossi and Slater, \{T. S.\} and Rogers, \{C. S.\} and Ducrest, \{A. L.\} and S. Dubey and A. Roulin",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors",

year = "2021",

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doi = "10.1016/j.tree.2020.12.012",

language = "English",

volume = "36",

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TY - JOUR

T1 - Decoding the Evolution of Melanin in Vertebrates

AU - McNamara, M. E.

AU - Rossi, V.

AU - Slater, T. S.

AU - Rogers, C. S.

AU - Ducrest, A. L.

AU - Dubey, S.

AU - Roulin, A.

PY - 2021/5

Y1 - 2021/5

N2 - Melanins are widespread pigments in vertebrates, with important roles in visual signaling, UV protection, and homeostasis. Fossil evidence of melanin and melanin-bearing organelles – melanosomes – in ancient vertebrates may illuminate the evolution of melanin and its functions, but macroevolutionary trends are poorly resolved. Here, we integrate fossil data with current understanding of melanin function, biochemistry, and genetics. Mapping key genes onto phenotypic attributes of fossil vertebrates identifies potential genomic controls on melanin evolution. Taxonomic trends in the anatomical location, geometry, and chemistry of vertebrate melanosomes are linked to the evolution of endothermy. These shifts in melanin biology suggest fundamental links between melanization and vertebrate ecology. Tissue-specific and taxonomic trends in melanin chemistry support evidence for evolutionary tradeoffs between function and cytotoxicity.

AB - Melanins are widespread pigments in vertebrates, with important roles in visual signaling, UV protection, and homeostasis. Fossil evidence of melanin and melanin-bearing organelles – melanosomes – in ancient vertebrates may illuminate the evolution of melanin and its functions, but macroevolutionary trends are poorly resolved. Here, we integrate fossil data with current understanding of melanin function, biochemistry, and genetics. Mapping key genes onto phenotypic attributes of fossil vertebrates identifies potential genomic controls on melanin evolution. Taxonomic trends in the anatomical location, geometry, and chemistry of vertebrate melanosomes are linked to the evolution of endothermy. These shifts in melanin biology suggest fundamental links between melanization and vertebrate ecology. Tissue-specific and taxonomic trends in melanin chemistry support evidence for evolutionary tradeoffs between function and cytotoxicity.

KW - fossil color

KW - MC1R

KW - melanins

KW - melanosomes

KW - metallome

UR - https://www.scopus.com/pages/publications/85100381152

U2 - 10.1016/j.tree.2020.12.012

DO - 10.1016/j.tree.2020.12.012

M3 - Review article

C2 - 33549373

AN - SCOPUS:85100381152

SN - 0169-5347

VL - 36

SP - 430

EP - 443

JO - Trends in Ecology and Evolution

JF - Trends in Ecology and Evolution

IS - 5

ER -

Decoding the Evolution of Melanin in Vertebrates

Abstract

Keywords

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