Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association

Rong Wang; Yang Yang; Yi Jing; Simon T. Segar; Yu Zhang; Gang Wang; Jin Chen; Qing Feng Liu; Shan Chen; Yan Chen; Astrid Cruaud; Yuan Yuan Ding; Derek W. Dunn; Qiang Gao; Philip M. Gilmartin; Kai Jiang; Finn Kjellberg; Hong Qing Li; Yuan Yuan Li; Jian Quan Liu; Min Liu; Carlos A. Machado; Ray Ming; Jean Yves Rasplus; Xin Tong; Ping Wen; Huan Ming Yang; Jing Jun Yang; Ye Yin; Xing Tan Zhang; Yuan Ye Zhang; Hui Yu; Zhen Yue; Stephen G. Compton; Xiao Yong Chen

doi:10.1038/s41559-021-01469-1

Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association

Rong Wang
, Yang Yang
, Yi Jing
, Simon T. Segar
, Yu Zhang
, Gang Wang
, Jin Chen
, Qing Feng Liu
, Shan Chen
, Yan Chen
, Astrid Cruaud
, Yuan Yuan Ding
, Derek W. Dunn
, Qiang Gao
, Philip M. Gilmartin
, Kai Jiang
, Finn Kjellberg
, Hong Qing Li
, Yuan Yuan Li
, Jian Quan Liu

Min Liu, Carlos A. Machado, Ray Ming, Jean Yves Rasplus, Xin Tong, Ping Wen, Huan Ming Yang, Jing Jun Yang, Ye Yin, Xing Tan Zhang, Yuan Ye Zhang, Hui Yu, Zhen Yue, Stephen G. Compton, Xiao Yong Chen

East China Normal University
Tongji University
BGI-Shenzhen
Harper Adams University
CAS - Xishuangbanna Tropical Botanical Garden
Mianyang Normal University
UMR 1062 CBGP
Northwest University China
University of Hull
Université de Montpellier
Sichuan University
Guangzhou University
University of Maryland, College Park
University of Illinois at Urbana-Champaign
Fujian Agriculture and Forestry University
Xiamen University
CAS - South China Institute of Botany
Qufu Normal University
University of Leeds

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

56 Scopus citations

Abstract

Many insects metamorphose from antagonistic larvae into mutualistic adult pollinators, with reciprocal adaptation leading to specialized insect–plant associations. It remains unknown how such interactions are established at molecular level. Here we assemble high-quality genomes of a fig species, Ficus pumila var. pumila, and its specific pollinating wasp, Wiebesia pumilae. We combine multi-omics with validation experiments to reveal molecular mechanisms underlying this specialized interaction. In the plant, we identify the specific compound attracting pollinators and validate the function of several key genes regulating its biosynthesis. In the pollinator, we find a highly reduced number of odorant-binding protein genes and an odorant-binding protein mainly binding the attractant. During antagonistic interaction, we find similar chemical profiles and turnovers throughout the development of galled ovules and seeds, and a significant contraction of detoxification-related gene families in the pollinator. Our study identifies some key genes bridging coevolved mutualists, establishing expectations for more diffuse insect–pollinator systems.

Original language	English
Pages (from-to)	974-986
Number of pages	13
Journal	Nature Ecology and Evolution
Volume	5
Issue number	7
DOIs	https://doi.org/10.1038/s41559-021-01469-1
State	Published - Jul 2021
Externally published	Yes

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Wang, R., Yang, Y., Jing, Y., Segar, S. T., Zhang, Y., Wang, G., Chen, J., Liu, Q. F., Chen, S., Chen, Y., Cruaud, A., Ding, Y. Y., Dunn, D. W., Gao, Q., Gilmartin, P. M., Jiang, K., Kjellberg, F., Li, H. Q., Li, Y. Y., ... Chen, X. Y. (2021). Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association. Nature Ecology and Evolution, 5(7), 974-986. https://doi.org/10.1038/s41559-021-01469-1

@article{cbb0ff0cb8284464b08a1924ba5a64da,

title = "Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association",

abstract = "Many insects metamorphose from antagonistic larvae into mutualistic adult pollinators, with reciprocal adaptation leading to specialized insect–plant associations. It remains unknown how such interactions are established at molecular level. Here we assemble high-quality genomes of a fig species, Ficus pumila var. pumila, and its specific pollinating wasp, Wiebesia pumilae. We combine multi-omics with validation experiments to reveal molecular mechanisms underlying this specialized interaction. In the plant, we identify the specific compound attracting pollinators and validate the function of several key genes regulating its biosynthesis. In the pollinator, we find a highly reduced number of odorant-binding protein genes and an odorant-binding protein mainly binding the attractant. During antagonistic interaction, we find similar chemical profiles and turnovers throughout the development of galled ovules and seeds, and a significant contraction of detoxification-related gene families in the pollinator. Our study identifies some key genes bridging coevolved mutualists, establishing expectations for more diffuse insect–pollinator systems.",

author = "Rong Wang and Yang Yang and Yi Jing and Segar, \{Simon T.\} and Yu Zhang and Gang Wang and Jin Chen and Liu, \{Qing Feng\} and Shan Chen and Yan Chen and Astrid Cruaud and Ding, \{Yuan Yuan\} and Dunn, \{Derek W.\} and Qiang Gao and Gilmartin, \{Philip M.\} and Kai Jiang and Finn Kjellberg and Li, \{Hong Qing\} and Li, \{Yuan Yuan\} and Liu, \{Jian Quan\} and Min Liu and Machado, \{Carlos A.\} and Ray Ming and Rasplus, \{Jean Yves\} and Xin Tong and Ping Wen and Yang, \{Huan Ming\} and Yang, \{Jing Jun\} and Ye Yin and Zhang, \{Xing Tan\} and Zhang, \{Yuan Ye\} and Hui Yu and Zhen Yue and Compton, \{Stephen G.\} and Chen, \{Xiao Yong\}",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2021",

month = jul,

doi = "10.1038/s41559-021-01469-1",

language = "英语",

volume = "5",

pages = "974--986",

journal = "Nature Ecology and Evolution",

issn = "2397-334X",

publisher = "Nature Research",

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Wang, R, Yang, Y, Jing, Y, Segar, ST, Zhang, Y, Wang, G, Chen, J, Liu, QF, Chen, S, Chen, Y, Cruaud, A, Ding, YY, Dunn, DW, Gao, Q, Gilmartin, PM, Jiang, K, Kjellberg, F, Li, HQ, Li, YY, Liu, JQ, Liu, M, Machado, CA, Ming, R, Rasplus, JY, Tong, X, Wen, P, Yang, HM, Yang, JJ, Yin, Y, Zhang, XT, Zhang, YY, Yu, H, Yue, Z, Compton, SG & Chen, XY 2021, 'Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association', Nature Ecology and Evolution, vol. 5, no. 7, pp. 974-986. https://doi.org/10.1038/s41559-021-01469-1

TY - JOUR

T1 - Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association

AU - Wang, Rong

AU - Yang, Yang

AU - Jing, Yi

AU - Segar, Simon T.

AU - Zhang, Yu

AU - Wang, Gang

AU - Chen, Jin

AU - Liu, Qing Feng

AU - Chen, Shan

AU - Chen, Yan

AU - Cruaud, Astrid

AU - Ding, Yuan Yuan

AU - Dunn, Derek W.

AU - Gao, Qiang

AU - Gilmartin, Philip M.

AU - Jiang, Kai

AU - Kjellberg, Finn

AU - Li, Hong Qing

AU - Li, Yuan Yuan

AU - Liu, Jian Quan

AU - Liu, Min

AU - Machado, Carlos A.

AU - Ming, Ray

AU - Rasplus, Jean Yves

AU - Tong, Xin

AU - Wen, Ping

AU - Yang, Huan Ming

AU - Yang, Jing Jun

AU - Yin, Ye

AU - Zhang, Xing Tan

AU - Zhang, Yuan Ye

AU - Yu, Hui

AU - Yue, Zhen

AU - Compton, Stephen G.

AU - Chen, Xiao Yong

PY - 2021/7

Y1 - 2021/7

N2 - Many insects metamorphose from antagonistic larvae into mutualistic adult pollinators, with reciprocal adaptation leading to specialized insect–plant associations. It remains unknown how such interactions are established at molecular level. Here we assemble high-quality genomes of a fig species, Ficus pumila var. pumila, and its specific pollinating wasp, Wiebesia pumilae. We combine multi-omics with validation experiments to reveal molecular mechanisms underlying this specialized interaction. In the plant, we identify the specific compound attracting pollinators and validate the function of several key genes regulating its biosynthesis. In the pollinator, we find a highly reduced number of odorant-binding protein genes and an odorant-binding protein mainly binding the attractant. During antagonistic interaction, we find similar chemical profiles and turnovers throughout the development of galled ovules and seeds, and a significant contraction of detoxification-related gene families in the pollinator. Our study identifies some key genes bridging coevolved mutualists, establishing expectations for more diffuse insect–pollinator systems.

AB - Many insects metamorphose from antagonistic larvae into mutualistic adult pollinators, with reciprocal adaptation leading to specialized insect–plant associations. It remains unknown how such interactions are established at molecular level. Here we assemble high-quality genomes of a fig species, Ficus pumila var. pumila, and its specific pollinating wasp, Wiebesia pumilae. We combine multi-omics with validation experiments to reveal molecular mechanisms underlying this specialized interaction. In the plant, we identify the specific compound attracting pollinators and validate the function of several key genes regulating its biosynthesis. In the pollinator, we find a highly reduced number of odorant-binding protein genes and an odorant-binding protein mainly binding the attractant. During antagonistic interaction, we find similar chemical profiles and turnovers throughout the development of galled ovules and seeds, and a significant contraction of detoxification-related gene families in the pollinator. Our study identifies some key genes bridging coevolved mutualists, establishing expectations for more diffuse insect–pollinator systems.

UR - https://www.scopus.com/pages/publications/85105827306

U2 - 10.1038/s41559-021-01469-1

DO - 10.1038/s41559-021-01469-1

M3 - 文章

C2 - 34002050

AN - SCOPUS:85105827306

SN - 2397-334X

VL - 5

SP - 974

EP - 986

JO - Nature Ecology and Evolution

JF - Nature Ecology and Evolution

IS - 7

ER -

Molecular mechanisms of mutualistic and antagonistic interactions in a plant–pollinator association

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