Genomes of the Banyan Tree and Pollinator Wasp Provide Insights into Fig-Wasp Coevolution

Nov 1, 2020·
Xingtan Zhang
,
Gang Wang
,
Shengcheng Zhang
,
Shuai Chen
,
Yibin Wang
,
Ping Wen
,
Xiaokai Ma
,
Yan Shi
,
Rui Qi
,
Yang Yang
,
Zhenyang Liao
,
Jing Lin
,
Jishan Lin
,
Xiuming Xu
,
Xuequn Chen
,
Xindan Xu
,
Fang Deng
,
Lihua Zhao
,
Yi-lun Lee
,
Rong Wang
,
Xiao-Yong Chen
,
Yann-rong Lin
,
Jisen Zhang
,
Haibao Tang
,
Jin Chen
,
Ray Ming
· 0 min read
Abstract
Banyan trees are distinguished by their extraordinary aerial roots. The Ficus genus includes species that have evolved a species-specific mutualism system with wasp pollinators. We sequenced genomes of the Chinese banyan tree, F.~microcarpa, and a species lacking aerial roots, F.~hispida, and one wasp genome coevolving with F.~microcarpa, Eupristina verticillata. Comparative analysis of the two Ficus genomes revealed dynamic karyotype variation associated with adaptive evolution. Copy number expansion of auxin-related genes from duplications and elevated auxin production are associated with aerial root development in F.~microcarpa. A male-specific AGAMOUS paralog, FhAG2, was identified as a candidate gene for sex determination in F.~hispida. Population genomic analyses of Ficus species revealed genomic signatures of morphological and physiological coadaptation with their pollinators involving terpenoid- and benzenoid-derived compounds. These three genomes offer insights into and genomic resources for investigating the geneses of aerial roots, monoecy and dioecy, and codiversification in a symbiotic system.
Type
Publication
Cell
publications