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中国生物工程杂志

China Biotechnology
China Biotechnology  2017, Vol. 37 Issue (11): 37-44    DOI: 10.13523/j.cb.20171106
    
Design and Realization of Cloud Platform for Medicinal Plant Conservation
YAN Peng-cheng1, ZHANGY Zhan-jiang2, PEI Zhi-yong1, FU Yan-ting1, CHEN Yu-bao1, LIU Tong1
1. Department of Computational Biology in Beijing Computing Center, Beijing Key Laboratory of Cloud Computing Key Technology and Application, Beijing 100094, China;
2. Guangxi Zhuang Autonomous Region Medicinal Botanical Garden, Nanning 530023, China
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Abstract  Medicinal plants are important resources for the development of traditional Chinese medicine and biomedical industry. They are also the carrier of traditional Chinese medicine cultural heritage. The conservation of medicinal plants is the basis of their sustainable development and application. With the rapid development of bioinformatics and information technology, there are more and more applications of them, including cloud computing, in the protection and management of traditional germplasm resources. However, their applications in the conservation of medicinal plant resources remain to be developed. A cloud platform system for medicinal plant conservation in China is constructed. In this system, cloud computing, database applications, bioinformatics and other related technologies were used. By collecting, sorting and processing the information of medicinal plant resources, carrying out the information and application development, this system could provide information inquiry service for medicinal plant protection and cultivation of new species. This platform has important application value and social significance for the standardization of data related to medicinal plant research, conservation subject research, and information sharing and service.

Key wordsConservation      Medicinal plant      Cloud platform      Web application      Bioinformatics     
Received: 02 June 2017      Published: 15 November 2017
ZTFLH:  Q811.4  
Cite this article:

YAN Peng-cheng, ZHANGY Zhan-jiang, PEI Zhi-yong, FU Yan-ting, CHEN Yu-bao, LIU Tong. Design and Realization of Cloud Platform for Medicinal Plant Conservation. China Biotechnology, 2017, 37(11): 37-44.

URL:

http://manu60.magtech.com.cn/biotech/10.13523/j.cb.20171106     OR     http://manu60.magtech.com.cn/biotech/Y2017/V37/I11/37

[1]   张惠源, 袁昌齐, 孙传奇,等. 我国的中药资源种类. 中国中药杂志, 1995, 20(7):387-390. Zhang H Y, Yuan C Q, Sun C Q, et al. Resources of Chinese materia medica in China. China Journal of Chinese Materia Medica, 1995. 20(7):387-390.
[2]   丁建,夏燕莉. 中国药用植物资源现状. 资源开发与市场, 2005, 21(5):453-454. Ding J, Xia Y L. Present situation of chiness medicinal plant resources. Resource Development & Market, 2005, 21(5):453-454.
[3]   萧伟, 陈凤龙, 章晨峰, 等. 国内外天然药物研究的发展现状和趋势. 中草药, 2009, 40(11):1681-1687. Xiao W, Chen F L, Zang C F, et al. Actuality and new trend on research of natural medicines in China and overseas, Chiness Traditional And Herbal Drugs, 2009,40(11):1681-1687.
[4]   徐妍,臧绍刚. 野生植物资源信息检索数据库的建立和使用. 山地农业生物学报, 2000, 19(6):457-459. Xu Y, Zang S G. Establishment and application of information retrieval database of wild plant resources. Journal of Mountain Agriculture and Biology, 2000,19(6):457-459.
[5]   徐宏发,蒋志刚. 中国药用动植物资源保护和可持续利用. 上海:华东师范大学出版社, 2003. Xu H F, Jiang Z G. Conservation and Sustainable Utilization of Medicinal Plant Resources in China. Shanghai:East China Normal University Press, 2003.
[6]   Ladd S, Davison D, Devijver S, 等. 深入解析Spring MVC与Web Flow.徐哲,沈艳,译. 北京:人民邮电出版社, 2008. Ladd S, Davison D, Devijver S, et al. Expert Spring MVC and Web Flow. Xu Z, Shen Y. Beijing:Posts & Telecom Press,2008.
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