紫外线与氯化锂诱变选育高产乳糖酶米曲霉
详细信息Breeding of high β-galactosidase producing Aspergillus Oryzae by mutation with UV and LiCl
-
摘要: 以产乳糖酶米曲霉(ATCC20423)为出发菌株,通过紫外线和紫外复合氯化锂诱变处理选育高产乳糖酶菌株。利用紫外线辐照诱变得到突变株UV-15-20的乳糖酶活力为114.08U/mL,比出发菌株提高了49.22%;以紫外线复合氯化锂选育得到突变株UV-LiCl-38乳糖酶活力为121.42U/mL,比出发菌株提高了58.82%。传代实验表明两个突变株均具有稳定的遗传性。Abstract: In order to breed high-yield β-Galactosidase producing strain, Aspergillus Oryzae (ATCC20423) was used as the original strain and mutagenized with Ultraviolet (UV) and UV+lithium chloride (LiCl) , respectively.After mutagenized by UV, the β-Galactosidase activity of UV-15-20 reached 114.08U/mL, which revealed a 49.22% increase compared with the original strain.A mutant UV-LiCl-38 with high β-Galactosidase activity (121.42U/mL) was obtained by use of UV and LiCl, the β-galactosidase activity of this mutant was 58.82% higher than that by the wild-type.UV-15-20 and UV-LiCl-38 had good hereditary stability after several generations.
-
Keywords:
- Aspergillus Oryzae;β-Galactosidase;mutation; /
-
[1] Oliveira C, Pedro M R G, Domingues L, et al.Recombinant microbial systems for improvedβ-galactosidase production and biotechnological applications[J].Biotechnology Advances, 2011, 29 (6) :600-609.
[2] Parmjit S P, Reeba P, Ram S S, et al.Microbial production, Immobilization and applications ofβ-D-galactosidase[J].Chemical Technology and Biotechnology, 2006, 81 (4) :530-543.
[3] Qayyum H.β-Galactosidases and their potential applications:a review[J].Critical Reviews in Biotechnology, 2010, 30 (1) :41-62.
[4] 朱国胜, 刘作易, 雷邦星, 等.被孢霉γ-亚麻酸高产菌株选育[J].菌物学报, 2005, 24 (1) :85-92. [5] 余明洁, 田丰伟, 范大明, 等.高产ε-聚赖氨酸白色链霉菌的复合诱变选育研究[J].食品工业科技, 2008, 29 (7) :99-104. [6] 张春玲.紫外线与亚硝基胍复合诱变选育高产海藻糖菌株的研究[J].食品科学, 2010, 30 (21) :188-191. [7] 卢燕云, 林建国, 李明.复合诱变选育酸性蛋白酶高产菌株[J].中国酿造, 2009 (1) :49-51. [8] 周波, 王菊芳, 吴振强, 等.高产红曲黄色素菌株的选育[J].微生物学通报, 2008, 35 (12) :1909-1914. [9] 李宁, 贾英民, 祝彦忠.黑曲霉乳糖酶高产菌株的诱变选育[J].中国食品学报, 2006, 5 (6) :54-58. [10] Nizamuddin S A, Sridevi1G, Narasimha.Production ofβ-galactosidase by Aspergillus oryzae in solid-state fermentation[J].African Journal of Biotechnology, 2008, 7 (8) :1096-1100.
[11] Michael J B, Matti Linko V T T.Production ofβ-galactosidase by Aspergillus oryzae in submerged bioreactor cultivation[J].Journal of Biotechnology, 1990, 16 (1-2) :57-66.
[12] 何国庆, 贾英明.食品微生物学[M].北京:中国农业出版社, 2002:188-193. [13] Liu Y, Shi Y W, Wang X Q.Isolation and identification of a strain producing cold-adaptedβ-galactosidase, and purification and characterisation of the enzyme[J].Czech Journal of Food Sciences, 2008, 26 (4) :284-290.
[14] 李玉强.丝状真菌β-半乳糖苷酶的研究[D].天津:天津轻工业学院, 2000. [15] 杜海英, 于宏伟, 韩军, 等.原生质体诱变选育乳糖酶高产菌株[J].微生物学通报, 2006, 33 (6) :48-51. [16] 李兴峰.糖酶高产菌株分离筛选、发酵产酶及酶学性质的研究[D].保定:河北农业大学, 2004. [17] 李兴峰, 贾英民, 檀建新, 等.乳糖酶高产菌株筛选及酶活测定方法的研究[J].中国食品学报, 2003 (增刊) :47-52. [18] Rowlands R T.Industrial strain improvement:Mutagenesis and random screening procedures[J].Enzyme and Microbial Technology, 1984, 6 (1) :3-10.
计量
- 文章访问数:
- HTML全文浏览量:
- PDF下载量:
下载:
