An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara

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An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara. / Dong, Lemeng; Almeida Robles, Aldo Ricardo; Pollier, Jacob; Khakimov, Bekzod; Bassard, Jean-Étienne André; Miettinen, Karel; Stærk, Dan; Mehran, Rahimi; Olsen, Carl Erik; Motawie, Mohammed Saddik; Goossens, Alain; Bak, Søren.

I: Molecular Biology and Evolution, Bind 38, Nr. 11, msab213, 2021, s. 4659-4673.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Dong, L, Almeida Robles, AR, Pollier, J, Khakimov, B, Bassard, J-ÉA, Miettinen, K, Stærk, D, Mehran, R, Olsen, CE, Motawie, MS, Goossens, A & Bak, S 2021, 'An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara', Molecular Biology and Evolution, bind 38, nr. 11, msab213, s. 4659-4673. https://doi.org/10.1093/molbev/msab213

APA

Dong, L., Almeida Robles, A. R., Pollier, J., Khakimov, B., Bassard, J-É. A., Miettinen, K., Stærk, D., Mehran, R., Olsen, C. E., Motawie, M. S., Goossens, A., & Bak, S. (2021). An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara. Molecular Biology and Evolution, 38(11), 4659-4673. [msab213]. https://doi.org/10.1093/molbev/msab213

Vancouver

Dong L, Almeida Robles AR, Pollier J, Khakimov B, Bassard J-ÉA, Miettinen K o.a. An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara. Molecular Biology and Evolution. 2021;38(11):4659-4673. msab213. https://doi.org/10.1093/molbev/msab213

Author

Dong, Lemeng ; Almeida Robles, Aldo Ricardo ; Pollier, Jacob ; Khakimov, Bekzod ; Bassard, Jean-Étienne André ; Miettinen, Karel ; Stærk, Dan ; Mehran, Rahimi ; Olsen, Carl Erik ; Motawie, Mohammed Saddik ; Goossens, Alain ; Bak, Søren. / An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara. I: Molecular Biology and Evolution. 2021 ; Bind 38, Nr. 11. s. 4659-4673.

Bibtex

@article{db9b68dc68244205aa4c67c7df57f628,
title = "An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara",
abstract = "Pieris rapae and Phyllotreta nemorum are Brassicaceae specialists, but do not feed on Iberis amara spp. that contain cucurbitacins. The cucurbitacins are highly oxygenated triterpenoid, occurring widespread in cucurbitaceous species and in a few other plant families. Using de novo assembled transcriptomics from I. amara, gene co-expression analysis and comparative genomics, we unraveled the evolutionary origin of the insect deterrent cucurbitacins in I. amara. Phylogenetic analysis of five oxidosqualene cyclases and heterologous expression allowed us to identify the first committed enzyme in cucurbitacin biosynthesis in I. amara, cucurbitadienol synthase (IaCPQ). In addition, two species-specific cytochrome P450s (CYP708A16 and CYP708A15) were identified that catalyze the unique C16 and C22 hydroxylation of the cucurbitadienol backbone, enzymatic steps that have not been reported before. Furthermore, the draft genome assembly of I. amara showed that the IaCPQ was localized to the same scaffold together with CYP708A15 but spanning over 100 kb, this contrasts with the highly organized cucurbitacin gene cluster in the cucurbits. These results reveal that cucurbitacin biosynthesis has evolved convergently via different biosynthetic routes in different families rather than through divergence from an ancestral pathway. This study thus provides new insight into the mechanism of recurrent evolution and diversification of a plant defensive chemical.",
author = "Lemeng Dong and {Almeida Robles}, {Aldo Ricardo} and Jacob Pollier and Bekzod Khakimov and Bassard, {Jean-{\'E}tienne Andr{\'e}} and Karel Miettinen and Dan St{\ae}rk and Rahimi Mehran and Olsen, {Carl Erik} and Motawie, {Mohammed Saddik} and Alain Goossens and S{\o}ren Bak",
year = "2021",
doi = "10.1093/molbev/msab213",
language = "English",
volume = "38",
pages = "4659--4673",
journal = "Molecular Biology and Evolution",
issn = "0737-4038",
publisher = "Oxford University Press",
number = "11",

}

RIS

TY - JOUR

T1 - An independent evolutionary origin for insect deterrent cucurbitacins in Iberis amara

AU - Dong, Lemeng

AU - Almeida Robles, Aldo Ricardo

AU - Pollier, Jacob

AU - Khakimov, Bekzod

AU - Bassard, Jean-Étienne André

AU - Miettinen, Karel

AU - Stærk, Dan

AU - Mehran, Rahimi

AU - Olsen, Carl Erik

AU - Motawie, Mohammed Saddik

AU - Goossens, Alain

AU - Bak, Søren

PY - 2021

Y1 - 2021

N2 - Pieris rapae and Phyllotreta nemorum are Brassicaceae specialists, but do not feed on Iberis amara spp. that contain cucurbitacins. The cucurbitacins are highly oxygenated triterpenoid, occurring widespread in cucurbitaceous species and in a few other plant families. Using de novo assembled transcriptomics from I. amara, gene co-expression analysis and comparative genomics, we unraveled the evolutionary origin of the insect deterrent cucurbitacins in I. amara. Phylogenetic analysis of five oxidosqualene cyclases and heterologous expression allowed us to identify the first committed enzyme in cucurbitacin biosynthesis in I. amara, cucurbitadienol synthase (IaCPQ). In addition, two species-specific cytochrome P450s (CYP708A16 and CYP708A15) were identified that catalyze the unique C16 and C22 hydroxylation of the cucurbitadienol backbone, enzymatic steps that have not been reported before. Furthermore, the draft genome assembly of I. amara showed that the IaCPQ was localized to the same scaffold together with CYP708A15 but spanning over 100 kb, this contrasts with the highly organized cucurbitacin gene cluster in the cucurbits. These results reveal that cucurbitacin biosynthesis has evolved convergently via different biosynthetic routes in different families rather than through divergence from an ancestral pathway. This study thus provides new insight into the mechanism of recurrent evolution and diversification of a plant defensive chemical.

AB - Pieris rapae and Phyllotreta nemorum are Brassicaceae specialists, but do not feed on Iberis amara spp. that contain cucurbitacins. The cucurbitacins are highly oxygenated triterpenoid, occurring widespread in cucurbitaceous species and in a few other plant families. Using de novo assembled transcriptomics from I. amara, gene co-expression analysis and comparative genomics, we unraveled the evolutionary origin of the insect deterrent cucurbitacins in I. amara. Phylogenetic analysis of five oxidosqualene cyclases and heterologous expression allowed us to identify the first committed enzyme in cucurbitacin biosynthesis in I. amara, cucurbitadienol synthase (IaCPQ). In addition, two species-specific cytochrome P450s (CYP708A16 and CYP708A15) were identified that catalyze the unique C16 and C22 hydroxylation of the cucurbitadienol backbone, enzymatic steps that have not been reported before. Furthermore, the draft genome assembly of I. amara showed that the IaCPQ was localized to the same scaffold together with CYP708A15 but spanning over 100 kb, this contrasts with the highly organized cucurbitacin gene cluster in the cucurbits. These results reveal that cucurbitacin biosynthesis has evolved convergently via different biosynthetic routes in different families rather than through divergence from an ancestral pathway. This study thus provides new insight into the mechanism of recurrent evolution and diversification of a plant defensive chemical.

U2 - 10.1093/molbev/msab213

DO - 10.1093/molbev/msab213

M3 - Journal article

C2 - 34264303

VL - 38

SP - 4659

EP - 4673

JO - Molecular Biology and Evolution

JF - Molecular Biology and Evolution

SN - 0737-4038

IS - 11

M1 - msab213

ER -

ID: 274069705