复合物理场对微生物的诱变作用
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摘要
本论文对本实验室筛选得到的一株产纤维素酶细菌LBT-3.6进行了紫外、微波复合诱变,选育到一株滤纸酶活力提高了202.7%的突变株WB-2。同时进行了发酵条件的优化,最佳条件为:麸皮50g/L,(NH_4)_3PO_4 0.4%,蛋白胨0.1%,NaCl 0.4%,Tween800.2%,接种量3%(V/V),pH8.0,30℃培养48h,滤纸酶活力达到12.35U/mL。还研究了红、黄、蓝、绿和紫色五种发光二极管对WB-2生长的影响。
同时对生物表面活性剂产生菌L-21进行了紫外诱变,筛选到一株糖脂产量提高了112.5%的突变株LZ25.11。
Microbial breeding selection with physical mutagens was investigated in this paper. The strain WB-2 of high yield cellulase was the mutant of strain LBT-3.6 treated by UV and microwave, its filter paper activity was increased by 202.7%. The optimum parameters for fermentation consisted of 50g/L wheat bran, 0.4% (NH4)3PO4, 0.1% peptone, 0.4% NaCl, 0.2% Tween80, pH8.0. The maximum FPA of WB-2 reached 12.35U/mL after growth at 30癈 for 48h on a rotary flask shaker. Effect on growth of WB-2 was studied using five LEDs, which contained red, yellow, blue, green and purple.
The strain LZ25-11 of high yield biosurfactant was obtained after UV treatment from L-21, its output of glycolipid was increased by 112.5%.
同时对生物表面活性剂产生菌L-21进行了紫外诱变,筛选到一株糖脂产量提高了112.5%的突变株LZ25.11。
Microbial breeding selection with physical mutagens was investigated in this paper. The strain WB-2 of high yield cellulase was the mutant of strain LBT-3.6 treated by UV and microwave, its filter paper activity was increased by 202.7%. The optimum parameters for fermentation consisted of 50g/L wheat bran, 0.4% (NH4)3PO4, 0.1% peptone, 0.4% NaCl, 0.2% Tween80, pH8.0. The maximum FPA of WB-2 reached 12.35U/mL after growth at 30癈 for 48h on a rotary flask shaker. Effect on growth of WB-2 was studied using five LEDs, which contained red, yellow, blue, green and purple.
The strain LZ25-11 of high yield biosurfactant was obtained after UV treatment from L-21, its output of glycolipid was increased by 112.5%.
引文
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16 白兰芳等.西罗莫司产生菌Streptomyces hygmscopicusWY-93的诱变育种与代谢研究.中国抗生素杂志.2001,26(1):35~38
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18 杨在富等.低强度激光生物效应机理研究.激光生物学报.2002,11(5):388~394
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20 彭益强等.激光诱变筛选高产植酸酶黑曲霉菌株的研究.激光生物学报.2002,11(6):434~437
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22 李永泉.微波诱变选育木聚糖酶高产菌.微波学报.2001,17(1):50~53
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26 Staczek J. Marino A A. Gilleland L B et. al. CurrentMirrobiology. 1998, 36(5): 298~301
27 刘字鹏等.磁场处理在诺卡氏菌诱变选育中作用的研究.南阳师范学院学报(自然科学版).2002,1(4):66~69
28 丘冠英,彭银祥.生物物理学.武汉:武汉大学出版社,2000
29 李文革等.~(60)Co-γ射线诱变柠檬酸产生菌黑曲霉C09-6的研究.激光生物学.1994,3(3):509~512
30 李永红.离子束的生物效应及诱变机理研究进展.河南农业大学学报.2002,36(2):159~163
31 吴定,路桂红.低能离子注入法诱变微生物育种.中国酿造.2002,12:331~33
32 李乃强等.霉菌酸性蛋白酶高产突变菌株9169的选育.无锡轻工大学学报.2001,19(5):493~496
33 李永泉等.微波诱变和激光诱变相结合选育金霉素链霉菌的研究.生物工程学报.1998,14(4):445~448
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37 徐学万,张芳.纤维素酶的特性及其在食品工业中的应用.粮食与食品工业.2001,4:14~17
38 张久政,武书彬,胡惠仁.生物酶用于旧报纸脱墨的研究.造纸科学与技术.2003,22(1):14~20
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40 S. Haruta .Z. Cui.Z. Huang. M. Li M. Ishii.Y. Igarashi. Construction of a stable microbial community with high cellulose-degradation ability. Appl Microbiol Biotechnol. 2002, 59:529~534
41 M. Adamovic G. Grubic Ivanka Milenkovic R. Jovanovic R. Protic Ljiljana Sretenovic Lj. Stoicevic, The biodegradation of wheat straw by Pleurotus ostreatus mushrooms and its use in cattle feeding, Animal Feed Science Technology. 1998, 71:357~362
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43 管斌等.纤维素酶高产菌株的选育.中国酿造.2002,4:18~23
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