Back to Search Start Over

TheChrysanthemum lavandulifoliumgenome and the molecular mechanism underlying diverse capitulum types

Authors :
Xiaohui Wen
Junzhuo Li
Lili Wang
Chenfei Lu
Qiang Gao
Peng Xu
Ya Pu
Qiuling Zhang
Yan Hong
Luo Hong
He Huang
Huaigen Xin
Xiaoyun Wu
Dongru Kang
Kang Gao
Yajun Li
Chaofeng Ma
Xuming Li
Hongkun Zheng
Zicheng Wang
Yuannian Jiao
Liangsheng Zhang
Silan Dai
Source :
Hortic Res
Publication Year :
2022
Publisher :
Oxford University Press (OUP), 2022.

Abstract

Cultivated chrysanthemum (Chrysanthemum × morifolium Ramat.) is a beloved ornamental crop due to the diverse capitula types among varieties, but the molecular mechanism of capitulum development remains unclear. Here, we report a 2.60 Gb chromosome-scale reference genome of C. lavandulifolium, a wild Chrysanthemum species found in China, Korea and Japan. The evolutionary analysis of the genome revealed that only recent tandem duplications occurred in the C. lavandulifolium genome after the shared whole genome triplication (WGT) in Asteraceae. Based on the transcriptomic profiling of six important developmental stages of the radiate capitulum in C. lavandulifolium, we found genes in the MADS-box, TCP, NAC and LOB gene families that were involved in disc and ray floret primordia differentiation. Notably, NAM and LOB30 homologs were specifically expressed in the radiate capitulum, suggesting their pivotal roles in the genetic network of disc and ray floret primordia differentiation in chrysanthemum. The present study not only provides a high-quality reference genome of chrysanthemum but also provides insight into the molecular mechanism underlying the diverse capitulum types in chrysanthemum.

Details

ISSN :
20527276
Volume :
9
Database :
OpenAIRE
Journal :
Horticulture Research
Accession number :
edsair.doi.dedup.....cec4afabb0c14a10b47e3e4bb81b8401