You are what your ancestors ate: retained bufadienolide resistance in the piscivorous water cobra Naja annulata (Serpentes: Elapidae)

Jess Fletcher; Anita Malhotra; Wolfgang Wüster

You are what your ancestors ate: retained bufadienolide resistance in the piscivorous water cobra Naja annulata (Serpentes: Elapidae)

Jess Fletcher, Anita Malhotra, Wolfgang Wüster

School of Environmental & Natural Sciences

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

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Abstract

Predators exploiting chemically defended prey are generally resistant to prey toxins. However, toxin resistance usually incurs a fitness cost and is therefore often lost when no longer needed. Bufonid toads are a frequently abundant food resource, but chemically defended by a group of cardiotonic steroids, bufadienolides. Bufophagous predators have evolved a specific and near-universal mechanism of resistance to these toxins, consisting of two amino acid substitutions in the Na+/K+-ATPase H1–H2 extracellular domain. The dynamics of loss or retention of this adaptation in secondarily non-bufophagous lineages remain inadequately understood. Here we explore thistopic by showing that the piscivorous banded water cobra Naja annulata retains the bufadienolide-resistant genotype of the otherwise toad-eating cobra clade. This confirms a trend for secondarily non-toad-eating snakes to retain bufadienolide resistance.

Original language	English
Pages (from-to)	83-87
Number of pages	5
Journal	Herpetological Journal
Volume	33
Issue number	3
Early online date	20 Jun 2023
Publication status	Published - 1 Jul 2023

Keywords

Antipredator adaptation
cardiotonic steroid
cardiac glycoside
evolution
piscivory
resistance

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HJ33-3-83-87-FletcherFinal published version, 583 KB

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title = "You are what your ancestors ate: retained bufadienolide resistance in the piscivorous water cobra Naja annulata (Serpentes: Elapidae)",

abstract = "Predators exploiting chemically defended prey are generally resistant to prey toxins. However, toxin resistance usually incurs a fitness cost and is therefore often lost when no longer needed. Bufonid toads are a frequently abundant food resource, but chemically defended by a group of cardiotonic steroids, bufadienolides. Bufophagous predators have evolved a specific and near-universal mechanism of resistance to these toxins, consisting of two amino acid substitutions in the Na+/K+-ATPase H1–H2 extracellular domain. The dynamics of loss or retention of this adaptation in secondarily non-bufophagous lineages remain inadequately understood. Here we explore thistopic by showing that the piscivorous banded water cobra Naja annulata retains the bufadienolide-resistant genotype of the otherwise toad-eating cobra clade. This confirms a trend for secondarily non-toad-eating snakes to retain bufadienolide resistance.",

keywords = "Antipredator adaptation, cardiotonic steroid, cardiac glycoside, evolution, piscivory, resistance",

author = "Jess Fletcher and Anita Malhotra and Wolfgang W{\"u}ster",

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language = "English",

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journal = "Herpetological Journal",

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T1 - You are what your ancestors ate: retained bufadienolide resistance in the piscivorous water cobra Naja annulata (Serpentes: Elapidae)

AU - Fletcher, Jess

AU - Malhotra, Anita

AU - Wüster, Wolfgang

N1 - Final version due out 01/07/2023, will be Gold Open Access.

PY - 2023/7/1

Y1 - 2023/7/1

N2 - Predators exploiting chemically defended prey are generally resistant to prey toxins. However, toxin resistance usually incurs a fitness cost and is therefore often lost when no longer needed. Bufonid toads are a frequently abundant food resource, but chemically defended by a group of cardiotonic steroids, bufadienolides. Bufophagous predators have evolved a specific and near-universal mechanism of resistance to these toxins, consisting of two amino acid substitutions in the Na+/K+-ATPase H1–H2 extracellular domain. The dynamics of loss or retention of this adaptation in secondarily non-bufophagous lineages remain inadequately understood. Here we explore thistopic by showing that the piscivorous banded water cobra Naja annulata retains the bufadienolide-resistant genotype of the otherwise toad-eating cobra clade. This confirms a trend for secondarily non-toad-eating snakes to retain bufadienolide resistance.

AB - Predators exploiting chemically defended prey are generally resistant to prey toxins. However, toxin resistance usually incurs a fitness cost and is therefore often lost when no longer needed. Bufonid toads are a frequently abundant food resource, but chemically defended by a group of cardiotonic steroids, bufadienolides. Bufophagous predators have evolved a specific and near-universal mechanism of resistance to these toxins, consisting of two amino acid substitutions in the Na+/K+-ATPase H1–H2 extracellular domain. The dynamics of loss or retention of this adaptation in secondarily non-bufophagous lineages remain inadequately understood. Here we explore thistopic by showing that the piscivorous banded water cobra Naja annulata retains the bufadienolide-resistant genotype of the otherwise toad-eating cobra clade. This confirms a trend for secondarily non-toad-eating snakes to retain bufadienolide resistance.

KW - Antipredator adaptation

KW - cardiotonic steroid

KW - cardiac glycoside

KW - evolution

KW - piscivory

KW - resistance

M3 - Article

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EP - 87

JO - Herpetological Journal

JF - Herpetological Journal

IS - 3

ER -

You are what your ancestors ate: retained bufadienolide resistance in the piscivorous water cobra Naja annulata (Serpentes: Elapidae)

Abstract

Keywords

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