四川大学学报(自然科学版)
四川大學學報(自然科學版)
사천대학학보(자연과학판)
JOURNAL OF SICHUAN UNIVERSITY(NATURAL SCIENCE EDITION)
2010年
1期
175-178
,共4页
沈竞%高陪%苏建%王成世%孙启玲
瀋競%高陪%囌建%王成世%孫啟玲
침경%고배%소건%왕성세%손계령
微生物转化%橙皮苷%橙皮素%优化
微生物轉化%橙皮苷%橙皮素%優化
미생물전화%등피감%등피소%우화
microbial-transformation%hesperidin%hesperetin%optimization
用以橙皮苷为转化底物和主要碳源的培养基筛选到能高效转化橙皮苷生成橙皮素的青霉菌C-21.并利用"复杂系统状态定向调控技术"对种子培养和发酵条件进行优化,使发酵时间缩短至58 h,转化率达到99.55%.根据茵种的动力学曲线发现优化后的培养条件可以提前起始产酶时间,增强产酶能力.
用以橙皮苷為轉化底物和主要碳源的培養基篩選到能高效轉化橙皮苷生成橙皮素的青黴菌C-21.併利用"複雜繫統狀態定嚮調控技術"對種子培養和髮酵條件進行優化,使髮酵時間縮短至58 h,轉化率達到99.55%.根據茵種的動力學麯線髮現優化後的培養條件可以提前起始產酶時間,增彊產酶能力.
용이등피감위전화저물화주요탄원적배양기사선도능고효전화등피감생성등피소적청매균C-21.병이용"복잡계통상태정향조공기술"대충자배양화발효조건진행우화,사발효시간축단지58 h,전화솔체도99.55%.근거인충적동역학곡선발현우화후적배양조건가이제전기시산매시간,증강산매능력.
A filamentous fungi strain, Penicillium C-21, producing/9-glucosidase was screened to effi-ciently transform hesperidin into hesperetin by using the medium whose substrate and main carbon source was hesperidin. Using the "Directional regulation technique of complex system" to modulate the fermentation's temperature, carbon source, nitrogen source, inorganic salt, rotary speed and medium capacity, etc, the condition of seed culture and fermentation could be optimized. Through analysis the strain's fermentation dynamics curve, it was found that cultivating strain in this condition could extended the time transforming hesperidin into hesperetin decurtated to 58 hours, and the bioconversion rate could reach 99.55%.
