Author
Listed:
- Liangjiao Xue
(Nanjing Forestry University)
- Huaitong Wu
(Nanjing Forestry University)
- Yingnan Chen
(Nanjing Forestry University)
- Xiaoping Li
(Nanjing Forestry University)
- Jing Hou
(Nanjing Forestry University)
- Jing Lu
(Nanjing Forestry University)
- Suyun Wei
(Nanjing Forestry University)
- Xiaogang Dai
(Nanjing Forestry University)
- Matthew S. Olson
(Texas Tech University)
- Jianquan Liu
(College of Life Sciences, Sichuan University)
- Mingxiu Wang
(Nanjing Forestry University)
- Deborah Charlesworth
(University of Edinburgh)
- Tongming Yin
(Nanjing Forestry University)
Abstract
Almost all plants in the genus Populus are dioecious (i.e. trees are either male or female), but it is unknown whether dioecy evolved in a common ancestor or independently in different subgenera. Here, we sequence the small peritelomeric X- and Y-linked regions of P. deltoides chromosome XIX. Two genes are present only in the Y-linked region. One is a duplication of a non-Y-linked, female-specifically expressed response regulator, which produces siRNAs that block this gene’s expression, repressing femaleness. The other is an LTR/Gypsy transposable element family member, which generates long non-coding RNAs. Overexpression of this gene in A. thaliana promotes androecium development. We also find both genes in the sex-determining region of P. simonii, a different poplar subgenus, which suggests that they are both stable components of poplar sex-determining systems. By contrast, only the duplicated response regulator gene is present in the sex-linked regions of P. davidiana and P. tremula. Therefore, findings in our study suggest dioecy may have evolved independently in different poplar subgenera.
Suggested Citation
Liangjiao Xue & Huaitong Wu & Yingnan Chen & Xiaoping Li & Jing Hou & Jing Lu & Suyun Wei & Xiaogang Dai & Matthew S. Olson & Jianquan Liu & Mingxiu Wang & Deborah Charlesworth & Tongming Yin, 2020.
"Evidences for a role of two Y-specific genes in sex determination in Populus deltoides,"
Nature Communications, Nature, vol. 11(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19559-2
DOI: 10.1038/s41467-020-19559-2
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