TY - JOUR
T1 - The origin, diversification and adaptation of a major mangrove clade (Rhizophoreae) revealed by whole-genome sequencing
AU - The International Mangrove Consortium
AU - Xu, Shaohua
AU - He, Ziwen
AU - Zhang, Zhang
AU - Guo, Zixiao
AU - Guo, Wuxia
AU - Lyu, Haomin
AU - Li, Jianfang
AU - Yang, Ming
AU - Du, Zhenglin
AU - Huang, Yelin
AU - Zhou, Renchao
AU - Zhong, Cairong
AU - Boufford, David E.
AU - Lerdau, Manuel
AU - Wu, Chung I.
AU - Duke, Norman C.
AU - Shi, Suhua
AU - Lee, Shing Yip
AU - Li, Xinnian
AU - Yang, Yuchen
AU - Wang, Xinfeng
AU - Chen, Yongmei
AU - Yang, Shuhuan
AU - Hou, Yansong
AU - Tang, Tian
AU - Ng, Wei Lun
AU - Chi, Lianjiang
AU - Zhao, Wenming
AU - Ruan, Jue
AU - Li, Qingshun
AU - Wang, Wenqing
AU - Chen, Luzhen
AU - Lin, Guanghui
AU - Liao, Baowen
AU - Wee, Alison
AU - Muehlenberg, Michael
AU - Sun, Mei
AU - Kathiresan, Kandasamy
AU - Prabowo, Romanus Edy
AU - Kajita, Tadashi
AU - Amir, Aldrie
AU - Yong, Jean
AU - Jayatissa, Loku Pulukkuttige
AU - Lin, Hsing Juh
AU - Liao, Pei Chun
AU - Havanond, Sonjai
AU - Cannon, Chuck
AU - Krauss, Ken
AU - Proffitt, Edward
AU - Devlin, Donna
N1 - Publisher Copyright:
© The Author(s) 2017. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. All rights reserved.
PY - 2017/9/1
Y1 - 2017/9/1
N2 - Mangroves invade some very marginal habitats for woody plants-at the interface between land and sea. Since mangroves anchor tropical coastal communities globally, their origin, diversification and adaptation are of scientific significance, particularly at a time of global climate change. In this study, a combination of single-molecule long reads and the more conventional short reads are generated from Rhizophora apiculata for the de novo assembly of its genome to a near chromosome level. The longest scaffold, N50 and N90 for the R. apiculata genome, are 13.3Mb, 5.4Mb and 1.0Mb, respectively. Short reads for the genomes and transcriptomes of eight related species are also generated. We find that the ancestor of Rhizophoreae experienced a whole-genome duplication~70 Myrs ago, which is followed rather quickly by colonization and species diversification. Mangroves exhibit pan-exomemodifications of amino acid (AA) usage as well as unusual AA substitutions among closely related species. The usage and substitution of AAs, unique among plants surveyed, is correlated with the rapid evolution of proteins in mangroves. A small subset of these substitutions is associated with mangroves' highly specialized traits (vivipary and red bark) thought to be adaptive in the intertidal habitats. Despite the many adaptive features, mangroves are among the least genetically diverse plants, likely the result of continual habitat turnovers caused by repeated rises and falls of sea level in the geologically recent past. Mangrove genomes thus inform about their past evolutionary success as well as portend a possibly difficult future.
AB - Mangroves invade some very marginal habitats for woody plants-at the interface between land and sea. Since mangroves anchor tropical coastal communities globally, their origin, diversification and adaptation are of scientific significance, particularly at a time of global climate change. In this study, a combination of single-molecule long reads and the more conventional short reads are generated from Rhizophora apiculata for the de novo assembly of its genome to a near chromosome level. The longest scaffold, N50 and N90 for the R. apiculata genome, are 13.3Mb, 5.4Mb and 1.0Mb, respectively. Short reads for the genomes and transcriptomes of eight related species are also generated. We find that the ancestor of Rhizophoreae experienced a whole-genome duplication~70 Myrs ago, which is followed rather quickly by colonization and species diversification. Mangroves exhibit pan-exomemodifications of amino acid (AA) usage as well as unusual AA substitutions among closely related species. The usage and substitution of AAs, unique among plants surveyed, is correlated with the rapid evolution of proteins in mangroves. A small subset of these substitutions is associated with mangroves' highly specialized traits (vivipary and red bark) thought to be adaptive in the intertidal habitats. Despite the many adaptive features, mangroves are among the least genetically diverse plants, likely the result of continual habitat turnovers caused by repeated rises and falls of sea level in the geologically recent past. Mangrove genomes thus inform about their past evolutionary success as well as portend a possibly difficult future.
KW - Adaptive evolution
KW - Genetic diversity
KW - Mangrove
KW - Protein evolution
KW - Sea-level changes
KW - Whole-genome sequencing
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U2 - 10.1093/nsr/nwx065
DO - 10.1093/nsr/nwx065
M3 - Article
AN - SCOPUS:85035344314
SN - 2095-5138
VL - 4
SP - 721
EP - 734
JO - National Science Review
JF - National Science Review
IS - 5
ER -