Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants

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Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants. / Pinheiro de Castro, Érika C.; Zagrobelny, Mika; Zurano, Juan Pablo; Zikan Cardoso, Márcio; Feyereisen, René; Bak, Søren.

In: Ecology and Evolution, Vol. 9, No. 9, 01.05.2019, p. 5079-5093.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Pinheiro de Castro, ÉC, Zagrobelny, M, Zurano, JP, Zikan Cardoso, M, Feyereisen, R & Bak, S 2019, 'Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants', Ecology and Evolution, vol. 9, no. 9, pp. 5079-5093. https://doi.org/10.1002/ece3.5062

APA

Pinheiro de Castro, É. C., Zagrobelny, M., Zurano, J. P., Zikan Cardoso, M., Feyereisen, R., & Bak, S. (2019). Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants. Ecology and Evolution, 9(9), 5079-5093. https://doi.org/10.1002/ece3.5062

Vancouver

Pinheiro de Castro ÉC, Zagrobelny M, Zurano JP, Zikan Cardoso M, Feyereisen R, Bak S. Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants. Ecology and Evolution. 2019 May 1;9(9):5079-5093. https://doi.org/10.1002/ece3.5062

Author

Pinheiro de Castro, Érika C. ; Zagrobelny, Mika ; Zurano, Juan Pablo ; Zikan Cardoso, Márcio ; Feyereisen, René ; Bak, Søren. / Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants. In: Ecology and Evolution. 2019 ; Vol. 9, No. 9. pp. 5079-5093.

Bibtex

@article{e2b3bae5b3634325b7bcbef713b01b01,
title = "Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants",
abstract = "The colorful heliconiine butterflies are distasteful to predators due to their content of defense compounds called cyanogenic glucosides (CNglcs), which they biosynthesize from aliphatic amino acids. Heliconiine larvae feed exclusively on Passiflora plants where ~30 kinds of CNglcs have been reported. Among them, some CNglcs derived from cyclopentenyl glycine can be sequestered by some Heliconius species. In order to understand the evolution of biosynthesis and sequestration of CNglcs in these butterflies and its consequences for their arms race with Passiflora plants, we analyzed the CNglc distribution in selected heliconiine and Passiflora species. Sequestration of cyclopentenyl CNglcs is not an exclusive trait of Heliconius, since these compounds were present in other heliconiines such as Philaethria, Dryas and Agraulis, and in more distantly related genera Cethosia and Euptoieta. Thus, it is likely that the ability to sequester cyclopentenyl CNglcs arose in an ancestor of the Heliconiinae subfamily. Biosynthesis of aliphatic CNglcs is widespread in these butterflies, although some species from the sara-sapho group seem to have lost this ability. The CNglc distribution within Passiflora suggests that they might have diversified their cyanogenic profile to escape heliconiine herbivory. This systematic analysis improves our understanding on the evolution of cyanogenesis in the heliconiine–Passiflora system.",
keywords = "coevolution, cyanide, Heliconius, Lepidoptera, Passiflora, specialized metabolites",
author = "{Pinheiro de Castro}, {{\'E}rika C.} and Mika Zagrobelny and Zurano, {Juan Pablo} and {Zikan Cardoso}, M{\'a}rcio and Ren{\'e} Feyereisen and S{\o}ren Bak",
year = "2019",
month = may,
day = "1",
doi = "10.1002/ece3.5062",
language = "English",
volume = "9",
pages = "5079--5093",
journal = "Ecology and Evolution",
issn = "2045-7758",
publisher = "Wiley",
number = "9",

}

RIS

TY - JOUR

T1 - Sequestration and biosynthesis of cyanogenic glucosides in passion vine butterflies and consequences for the diversification of their host plants

AU - Pinheiro de Castro, Érika C.

AU - Zagrobelny, Mika

AU - Zurano, Juan Pablo

AU - Zikan Cardoso, Márcio

AU - Feyereisen, René

AU - Bak, Søren

PY - 2019/5/1

Y1 - 2019/5/1

N2 - The colorful heliconiine butterflies are distasteful to predators due to their content of defense compounds called cyanogenic glucosides (CNglcs), which they biosynthesize from aliphatic amino acids. Heliconiine larvae feed exclusively on Passiflora plants where ~30 kinds of CNglcs have been reported. Among them, some CNglcs derived from cyclopentenyl glycine can be sequestered by some Heliconius species. In order to understand the evolution of biosynthesis and sequestration of CNglcs in these butterflies and its consequences for their arms race with Passiflora plants, we analyzed the CNglc distribution in selected heliconiine and Passiflora species. Sequestration of cyclopentenyl CNglcs is not an exclusive trait of Heliconius, since these compounds were present in other heliconiines such as Philaethria, Dryas and Agraulis, and in more distantly related genera Cethosia and Euptoieta. Thus, it is likely that the ability to sequester cyclopentenyl CNglcs arose in an ancestor of the Heliconiinae subfamily. Biosynthesis of aliphatic CNglcs is widespread in these butterflies, although some species from the sara-sapho group seem to have lost this ability. The CNglc distribution within Passiflora suggests that they might have diversified their cyanogenic profile to escape heliconiine herbivory. This systematic analysis improves our understanding on the evolution of cyanogenesis in the heliconiine–Passiflora system.

AB - The colorful heliconiine butterflies are distasteful to predators due to their content of defense compounds called cyanogenic glucosides (CNglcs), which they biosynthesize from aliphatic amino acids. Heliconiine larvae feed exclusively on Passiflora plants where ~30 kinds of CNglcs have been reported. Among them, some CNglcs derived from cyclopentenyl glycine can be sequestered by some Heliconius species. In order to understand the evolution of biosynthesis and sequestration of CNglcs in these butterflies and its consequences for their arms race with Passiflora plants, we analyzed the CNglc distribution in selected heliconiine and Passiflora species. Sequestration of cyclopentenyl CNglcs is not an exclusive trait of Heliconius, since these compounds were present in other heliconiines such as Philaethria, Dryas and Agraulis, and in more distantly related genera Cethosia and Euptoieta. Thus, it is likely that the ability to sequester cyclopentenyl CNglcs arose in an ancestor of the Heliconiinae subfamily. Biosynthesis of aliphatic CNglcs is widespread in these butterflies, although some species from the sara-sapho group seem to have lost this ability. The CNglc distribution within Passiflora suggests that they might have diversified their cyanogenic profile to escape heliconiine herbivory. This systematic analysis improves our understanding on the evolution of cyanogenesis in the heliconiine–Passiflora system.

KW - coevolution

KW - cyanide

KW - Heliconius

KW - Lepidoptera

KW - Passiflora

KW - specialized metabolites

U2 - 10.1002/ece3.5062

DO - 10.1002/ece3.5062

M3 - Journal article

C2 - 31110663

AN - SCOPUS:85065500376

VL - 9

SP - 5079

EP - 5093

JO - Ecology and Evolution

JF - Ecology and Evolution

SN - 2045-7758

IS - 9

ER -

ID: 224285341