L. Xiang, Y. Yanhua, and S. Guangzhi, Chemical Constituents from Marine-derived Fungus of Penicillium sp, Natural Product Research and Development, vol.19, pp.804-806, 2007.

M. Regina, E. Geris-dos-santos, and . Rodrigues-fo, Endophytic fungi from Melia azedarach, World Journal of Microbiology & Biotechnology, vol.19, pp.767-770, 2003.

H. Lu, L. Na, and W. Yong, Isolation an antimicrobial action of endophytic fungi from sophora flavescens and effects on microorganism circumstances in soil, Procedia Environmental Sciences, vol.18, pp.264-270, 2013.

S. Kui, Advances of Research on the Endophytic Fungus Resources of Medicine Plants, Science and Technology of Qinghai Agriculture and Forestry, vol.2010, issue.1, pp.26-28

S. Jianqiu, G. Liangdong, and Z. Wei, Advances in the Diversities of Endophytic Fungi in Medicinal Plants and Their Bioactive Ingredients, Acta. Bot. Boreal. ? Occident. Sin, issue.7, pp.26-1505, 2006.

L. Jiaping and H. Xiwen, Jiang Yue et a1 Preparative seperation and determination of matrine from the Chinese medicinal plant sophora flavescens Ait. by molecularly imprinted solidphase extraction, Anal Bioanal Chem, issue.2, pp.375-264, 2003.

Z. Hongli, Z. Yuejin, and H. Chongxue, Advances in the research on bioactivity of Sophora flavescens, Jour. of Northwest Sci-Tech Univ. of Agri. and For, issue.5, pp.32-63, 2004.

Z. Xiaowei, B. Jinrong, and B. Ren, Progress on the anti-tumor activities of matrine and oxymatrine, Chemical Reagents, vol.32, issue.1, pp.32-36, 2010.

C. Zhijie, H. Yongbin, and S. Chang, Application of Placket-Burman Design for Determining Key Factors on Mycelium Growth and Extracellular Polysaccharides Excretion of Ganoderma lucidum, Food Science, issue.12, pp.26-115, 2005.

B. Jingying, L. Lijuan, and Q. Yi, Screening of Main Component in the Medium impacting the Ability of the Zinc-richening Ganoderma lucidum with the Method of Plackett-Burman Design, Journal of Anhui Agri. Sci, issue.10, pp.38-5335, 2010.

G. Zhiguo, L. Jianjiang, and D. Dazhang, Optimization of Biodegradation 0f Dibenzothiophene Using Response Surface Methodology. Transactions of Beijing Institute of Technology, pp.106-110

L. Jie, Z. Jin, and X. Liandong, Optimization of the Extraction Conditions of Celery Flavonoids by Response Surface M ethodolog, Journal of Anhui Agri. Sci, vol.2012, issue.405, pp.2687-2689

X. Bingbing, K. Jianping, and S. Bo, Response Surface Optimization of R. Palustris Fermentation. Food and Fermentation Technology, pp.46-75, 2010.

C. Huabao, Y. Chunping, and W. Wenjun, Optimization of the Fermentation Conditions of the Endophytic Fungus Hd3, Journal of Southwest China Normal University, vol.36, issue.1, pp.148-153, 2011.

P. Ambat and C. Ayyanna, Optimizing Medium Constituents and Fermentation Conditions for Citric Acid Production from Palmyrajaggery Using Response Surface Methods, World J Microbiol?Biotechnol, issue.17, pp.331-335, 2001.

H. Chao, W. Hong, and L. Rifeng, Improving lipid production from bagasse hydrolysate with Trichosporon fermentans by response surface methodology, New Biotechnology, vol.2012, issue.3, pp.29373-378

D. Zhang-jingwen, S. Jilin, and . Ruiling, The application of rye non-starch polysaccharides gel in sausage, China Brewing, vol.2012, issue.8, pp.31-77

D. Wenliang, C. Long, and T. Wenyi, Application of Response Surface Methodology in Optimization of Precursors for Taxol Production by Fusarium mairei K178, China Biotechnology, issue.11, pp.27-66, 2007.

Q. Bukun, H. Lu, and L. Na, Fermentation Condition Optimization for Endophytic Fungi BS003 of Sophora Flavescens Using Response Surface Methodology, Acta Agriculturae Boreali-occidentalis Sinica, vol.21, issue.9, pp.174-178, 2012.

F. Francis, A. Sabu, and K. Madhavan-nampoothiri, Use of response surface methodology for optimizing process parameters for the production of ??-amylase by Aspergillus oryzae, Biochemical Engineering Journal, vol.15, issue.2, pp.107-115, 2003.
DOI : 10.1016/S1369-703X(02)00192-4