Genome sequencing of the jujube tree completed
- Date:
- October 29, 2014
- Source:
- BGI Shenzhen
- Summary:
- The complete, high quality sequencing of the jujube genome has been announced by researchers. Jujube is the most economically important member of the Rhamnaceae family, and the jujube genome is particularly difficult to sequence due the high level of heterozygosity and other complicating factors. It is the first time that a genome in the Rhamnaceae, Buckthorn, family has been sequenced.
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BGI Tech and Hebei Agricultural University jointly announced the complete, high quality sequencing of the Jujube genome. Jujube is the most economically important member of the Rhamnaceae family, and the Jujube genome is particularly difficult to sequence due the high level of heterozygosity and other complicating factors. It is the first time that a genome in the Rhamnaceae (Buckthorn) family has been sequenced.
This study has been recently published in Nature Communications.
Jujube is a major commercial fruit with up to 30 million acres under cultivation -- close to that of apple and citrus -- and China accounts for 99% of the 6 million tons of dried fruit produced annually. Jujube has a much higher vitamin C content than other well-known vitamin C-rich fruits such as orange and kiwi fruit, and also high levels of nucleotides, polysaccharides and other important functional components. Furthermore, the jujube tree is highly resistant to salinity and drought, and grows well in sandy, alkaline and arid areas. Therefor, decoding the genome of the jujube tree will have great implications to exploit those important traits.
The Jujube genome has the highest degree of heterozygosity (1.9%) of plants sequenced to date using next generation sequencing (NGS). In addition, the very high density of simple sequence repeats and low GC content make the Jujube genome particularly challenging for whole genome sequencing and assembly. By using a combination of BAC-to-BAC sequencing and PCR-free whole genome sequencing, the researchers were able to successfully complete the high quality de novo sequencing of 98.6% of the estimated Jujube genome, identifying 32,808 genes.
"This study has accelerated the functional genomics research of the Jujube tree, and will facilitate the genetic improvement and selective breeding of Buckthorn fruit trees," said Professor Mengjun Liu, head of the research team, for Hebei Agricultural Unviersity. "This research not only shows the expertise of the team and the power of sequencing technology, but we also expect its future applications in bring more value and benefits in healthy food production."
Story Source:
Materials provided by BGI Shenzhen. Note: Content may be edited for style and length.
Journal Reference:
- Meng-Jun Liu, Jin Zhao, Qing-Le Cai, Guo-Cheng Liu, Jiu-Rui Wang, Zhi-Hui Zhao, Ping Liu, Li Dai, Guijun Yan, Wen-Jiang Wang, Xian-Song Li, Yan Chen, Yu-Dong Sun, Zhi-Guo Liu, Min-Juan Lin, Jing Xiao, Ying-Ying Chen, Xiao-Feng Li, Bin Wu, Yong Ma, Jian-Bo Jian, Wei Yang, Zan Yuan, Xue-Chao Sun, Yan-Li Wei, Li-Li Yu, Chi Zhang, Sheng-Guang Liao, Rong-Jun He, Xuan-Min Guang, Zhuo Wang, Yue-Yang Zhang, Long-Hai Luo. The complex jujube genome provides insights into fruit tree biology. Nature Communications, 2014; 5: 5315 DOI: 10.1038/ncomms6315
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