The complex hexaploid oil‐Camellia genome traces back its phylogenomic history and multi‐omics analysis of Camellia oil biosynthesis

生物 山茶花 同步 基因组 倍性 比较基因组学 基因组学 油茶 基因 植物 遗传学
作者
Huaguo Zhu,Fuqiu Wang,Zhongping Xu,Guanying Wang,Lisong Hu,Junyong Cheng,Xianhong Ge,Jinxuan Liu,Wei Chen,Qiang Li,Fei Xue,Feng Liu,Wenying Li,Lan Wu,Xinqi Cheng,Xinxin Tang,Chaochen Yang,Keith Lindsey,Xianlong Zhang,Fang Ding
出处
期刊:Plant Biotechnology Journal [Wiley]
卷期号:22 (10): 2890-2906 被引量:9
标识
DOI:10.1111/pbi.14412
摘要

Summary Oil‐Camellia ( Camellia oleifera ), belonging to the Theaceae family Camellia, is an important woody edible oil tree species. The Camellia oil in its mature seed kernels, mainly consists of more than 90% unsaturated fatty acids, tea polyphenols, flavonoids, squalene and other active substances, which is one of the best quality edible vegetable oils in the world. However, genetic research and molecular breeding on oil‐Camellia are challenging due to its complex genetic background. Here, we successfully report a chromosome‐scale genome assembly for a hexaploid oil‐Camellia cultivar Changlin40. This assembly contains 8.80 Gb genomic sequences with scaffold N50 of 180.0 Mb and 45 pseudochromosomes comprising 15 homologous groups with three members each, which contain 135 868 genes with an average length of 3936 bp. Referring to the diploid genome, intragenomic and intergenomic comparisons of synteny indicate homologous chromosomal similarity and changes. Moreover, comparative and evolutionary analyses reveal three rounds of whole‐genome duplication (WGD) events, as well as the possible diversification of hexaploid Changlin40 with diploid occurred approximately 9.06 million years ago (MYA). Furthermore, through the combination of genomics, transcriptomics and metabolomics approaches, a complex regulatory network was constructed and allows to identify potential key structural genes ( SAD , FAD2 and FAD3 ) and transcription factors (AP2 and C2H2) that regulate the metabolism of Camellia oil, especially for unsaturated fatty acids biosynthesis. Overall, the genomic resource generated from this study has great potential to accelerate the research for the molecular biology and genetic improvement of hexaploid oil‐Camellia, as well as to understand polyploid genome evolution.
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