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Watermelon genome decoded: Scientists find clues to disease resistant watermelons

Date:
November 26, 2012
Source:
Cornell University
Summary:
Scientists have sequenced the watermelon genome -- information that could dramatically accelerate watermelon breeding toward production of a more nutritious, tastier and more resistant fruit.

Watermelon. Are juicier, sweeter, more disease-resistant watermelons on the way?
Credit: tchara / Fotolia

Are juicier, sweeter, more disease-resistant watermelons on the way? An international consortium of more than 60 scientists from the United States, China, and Europe has published the genome sequence of watermelon (Citrullus lanatus) -- information that could dramatically accelerate watermelon breeding toward production of a more nutritious, tastier and more resistant fruit. The watermelon genome sequence was published in the Nov. 25 online version of the journal Nature Genetics.

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The researchers discovered that a large portion of disease resistance genes were lost in the domestication of watermelon. With the high-quality watermelon sequence now complete, it is hoped that breeders can now use the information to recover some of these natural disease defenses.

The authors reported that the genome of the domesticated watermelon contained 23,440 genes, roughly the same number of genes as in humans. The group compared the genomes of 20 different watermelons and developed a first-generation genetic variation map for watermelon. This information allowed them to identify genomic regions that have been under human selection, including those associated with fruit color, taste and size.

"Watermelons are an important cash crop and among the top five most consumed fresh fruits; however, cultivated watermelons have a very narrow genetic base, which presents a major bottleneck to its breeding. Decoding the complete genome of the watermelon and resequencing watermelons from different subspecies provided a wealth of information and toolkits to facilitate research and breeding," said Zhangjun Fei, a scientist at the Boyce Thompson Institute for Plant Research at Cornell University, and one of the leaders of this project.

Fei worked with BTI scientists on different aspects of the research, including James Giovannoni, to generate the gene expression data through RNA-sequencing and Lukas Mueller to provide additional analysis to confirm the quality of the genome assembly. Fei also collaborated with Amnon Levi, a research geneticist at the USDA-ARS, U.S. Vegetable Laboratory, Charleston, S.C., on genetic mapping and identifying candidate genes that might be useful to enhance disease resistance in watermelon. The genome sequences of the watermelon are publicly available at the Cucurbit Genomics Database, which is created and maintained by Fei's group.

Believed to have originated in Africa, watermelons were cultivated by Egyptians more than 4,000 years ago, where the fruit was a source of water in dry, desert conditions. They are now consumed throughout the world -- with over 400 varieties in global commercial production. China leads in global production of the fruit, and the United States ranks fourth with more than 40 states involved in the industry. Despite being over 90 percent water, watermelons do contain important nutrients such as vitamins A and C, and lycopene, a compound that gives some fruits and vegetables their red color and appears to reduce the risk of certain types of cancer. Watermelon is also a natural source of citrulline, a non-essential amino acid with various health and athletic performance benefits.


Story Source:

The above story is based on materials provided by Cornell University. Note: Materials may be edited for content and length.


Journal Reference:

  1. Shaogui Guo, Jianguo Zhang, Honghe Sun, Jerome Salse, William J Lucas, Haiying Zhang, Yi Zheng, Linyong Mao, Yi Ren, Zhiwen Wang, Jiumeng Min, Xiaosen Guo, Florent Murat, Byung-Kook Ham, Zhaoliang Zhang, Shan Gao, Mingyun Huang, Yimin Xu, Silin Zhong, Aureliano Bombarely, Lukas A Mueller, Hong Zhao, Hongju He, Yan Zhang, Zhonghua Zhang, Sanwen Huang, Tao Tan, Erli Pang, Kui Lin, Qun Hu, Hanhui Kuang, Peixiang Ni, Bo Wang, Jingan Liu, Qinghe Kou, Wenju Hou, Xiaohua Zou, Jiao Jiang, Guoyi Gong, Kathrin Klee, Heiko Schoof, Ying Huang, Xuesong Hu, Shanshan Dong, Dequan Liang, Juan Wang, Kui Wu, Yang Xia, Xiang Zhao, Zequn Zheng, Miao Xing, Xinming Liang, Bangqing Huang, Tian Lv, Junyi Wang, Ye Yin, Hongping Yi, Ruiqiang Li, Mingzhu Wu, Amnon Levi, Xingping Zhang, James J Giovannoni, Jun Wang, Yunfu Li, Zhangjun Fei, Yong Xu. The draft genome of watermelon (Citrullus lanatus) and resequencing of 20 diverse accessions. Nature Genetics, 2012; DOI: 10.1038/ng.2470

Cite This Page:

Cornell University. "Watermelon genome decoded: Scientists find clues to disease resistant watermelons." ScienceDaily. ScienceDaily, 26 November 2012. <www.sciencedaily.com/releases/2012/11/121126151023.htm>.
Cornell University. (2012, November 26). Watermelon genome decoded: Scientists find clues to disease resistant watermelons. ScienceDaily. Retrieved April 19, 2015 from www.sciencedaily.com/releases/2012/11/121126151023.htm
Cornell University. "Watermelon genome decoded: Scientists find clues to disease resistant watermelons." ScienceDaily. www.sciencedaily.com/releases/2012/11/121126151023.htm (accessed April 19, 2015).

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