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1.
采用原生质体紫外诱变技术选育竹红菌甲素高产菌株。结果表明:以竹黄菌Shiraia sp.S8为出发菌株,当使用混合酶系(5 mg/mL纤维素酶和10 mg/mL蜗牛酶)在30℃处理菌丝2 h,获得菌丝原生质体3.24×106个/mL。以竹黄菌原生质体在距离15 W紫外灯30 cm处照射诱导,获得诱变菌株C6。其竹红菌甲素产量达到28.1 mg/L,比原始出发菌株提高了53.7%,且遗传稳定,具有较高的医药与工业应用价值。  相似文献   

2.
抗生素和干扰素950954利用原生质体融合筛选红霉素产生菌[俄]/Kiric—heako.N.V.…∥Anltiblot.Khimioter。.一1993.38(6).一3~8[译自DBA,1994,13(:t6),94—091073 ’ 研究了接合和原生质体融合,以获得大量产红蟊素的重组菌8accharopolyspor口erythraea。用亚硝基脏处理制备菌株3和5突变株,该菌株稳定,其抗生素生产水平近于亲株。在接合和原生质体融合后比较了重组频率。表明后一种方法可获得较高的频率。用PEG一4000诱导原生质体融合,井_暴露在UV辐射(80%致死剂量)下刺激重组产生.可以轻微增加再生比率,提高抗生素生产水平。未处理…  相似文献   

3.
以从短穗竹(Brachystachyum densiflorum)茎秆中分离获得的竹黄菌(Shiraia sp.S8)菌株为出发菌株,以0.5%~2.5%甲基磺酸乙酯(EMS)处理竹黄菌悬浮孢子10~30 min,结合平板初筛和高效液相色谱(HPLC)分析进行复筛。经诱变筛选得到高产菌株10-5,发现其竹红菌甲素产量达到26.8 mg/L,与原始出发菌株相比提高了46.4%,且遗传稳定性良好,具有较高的医药及工业应用价值。  相似文献   

4.
以紫杉醇产生菌树状多节孢HQD33的诱发突变株UL50-6和UL40-19 为出发菌株,将收集到的出发菌株UL50-6和UL40-19的菌丝体分别用pH5.5~6.0的0.7mol/L NaCl配制的3%溶壁酶、2%蜗牛酶、1%溶菌酶组成的复合酶系,30℃恒温酶解3~5h,制备原生质体。两菌株的原生质体经纯化后分别用热和紫外线灭活,其中UL50-6的原生质体在54℃热灭活5分钟,UL40-19的原生质体在30W紫外灯下,30cm,照射85秒进行紫外灭活,双亲株的原生质体存活再生率为零。同时对融合条件进行了初步探索,以含有Ca2 和Gly的35%~40%的PEG作为融合剂,融合时间为20分钟时,融合率可以达到4.44?0-2~6.92?0-2。对融合株TPF-1与双亲株的形态学、可溶性蛋白、过氧化物同工酶进行分析,确证其为双亲株的融合子。  相似文献   

5.
为了获得磷脂酶D高产菌株,由链霉菌野生菌株LD0501出发研究原生质体的制备和再生条件,建立原生质体紫外诱变筛选方案。采用酶解法制备原生质体,用紫外线对原生质体诱变,TLC检测突变株产磷脂酶D活力。原生质体的适宜条件:种子培养基中甘氨酸质量浓度5 g/L,菌龄72 h,用3 mg/m L的溶菌酶在30℃下酶解75min。通过原生质体诱变筛选,得到1株高产菌株,磷脂酶D水解活力达4.29 U/m L,提高幅度为180.4%。该方法有效改善了链霉菌野生菌株原生质体的制备效果,紫外诱变筛选显著提高了磷脂酶D的活力,高产突变株具有较好的稳定性。  相似文献   

6.
原生质体紫外诱变选育γ-癸内酯高产菌株   总被引:1,自引:0,他引:1  
为选育γ-癸内酯高产菌株,以毕赤酵母TT009(Pichia guilliermondiiTT009)为出发菌株进行原生质体紫外诱变,确定原生质体形成和诱变的最佳条件为菌龄16 h,酶解浓度1%,酶解时间50 min,酶解温度28℃,15 W紫外灯于30 cm处照射25 min。经初筛和复筛,得到γ-癸内酯高产菌株M6,利用该菌株进行摇瓶发酵,γ-癸内酯产量达到1.25 g/L,比出发菌株提高了28.8%。  相似文献   

7.
采用1%溶壁酶加1%蜗牛酶的混合液获得的原生质体,以30%聚乙二醇(MW=6,000)、0.01M CaCl_2、0.05M Gly做为融合剂,对米曲霉进行了原生质体的营养互补融合,融合频率为0.27—0.47%。自4个菌株的4对杂交组合中获得了异核体,并分离到97株绿色融合株。二倍体的孢子经PFA和UV诱发分离后,获得了二株生长速度快、蛋白酶活性高和产孢能力强的单倍体菌株。  相似文献   

8.
采用1%溶壁酶加1%蜗牛酶的混合液获得的原生质体,以30%聚乙二醇(MW=6,000)、0.01M CaCl_2、0.05M Gly做为融合剂,对米曲霉进行了原生质体的营养互补融合,融合频率为0.27—0.47%。自4个菌株的4对杂交组合中获得了异核体,并分离到97株绿色融合株。二倍体的孢子经PFA和UV诱发分离后,获得了二株生长速度快、蛋白酶活性高和产孢能力强的单倍体菌株。  相似文献   

9.
紫杉醇高产菌株的原生质体诱变选育及其遗传变异初探   总被引:16,自引:1,他引:15  
以紫杉醇产生菌NCEU_1为出发菌株,分别采用紫外线和紫外线与氯化锂复合诱变方法对其原生质体进行诱变,获得了两株高产紫杉醇的突变株———UV4 0 - 1 9和UL50 - 6 ,其紫杉醇产量从出发菌株的314 0 7μg L分别提高至376 38μg L和392 6 3μg L ;同时,又采用RAPD和同工酶技术对出发菌株NCEU_1与两高产株UV4 0 - 1 9和UL50 - 6 间的遗传差异进行了研究。结果表明,出发菌株与诱变菌株之间以及两诱变菌株之间都存在明显差异,为进一步研究与紫杉醇合成相关基因及诱变株产量提高的分子机制奠定了基础  相似文献   

10.
以链霉菌G-1(Streptomyces sp.G-1)为出发菌株,通过研究菌株G-1原生质体形成与再生的条件,发现该菌株在含0.5%甘氨酸的菌丝体培养基中经过二次培养后,所得菌丝体用2 mg/mL溶菌酶在30℃下处理90 min,可获得大量原生质体,其再生率可达8.2%。菌株G-1的原生质体经紫外诱变和宁南霉素抗性筛选后,得到一高产突变株G-1-125,其有效组分A的产量达到794mg/L,较出发菌株提高了180%。  相似文献   

11.
本实验是以黄色短杆菌T_(6—13)的诱变株L—亮氨酸产生菌D—R—4为出发菌株,经青霉素、甘氨酸、溶菌酶作用制备原生质体,形成率达91.30%,再生率达53.68%;然后对原生质体进行紫外线、利福平、氯化锂复合诱变处理;在再生培养基平皿上培养,获得再生突变株,从中挑取单独菌落,进行摇瓶发酵筛选,已选育出一株57—4S号高产稳定菌株;经氨基酸分析仪测定其发酵液L—亮氨酸产量由出发菌株的17.35mg/ml提高到23.45mg/ml提高了35%。发酵液中主要副酸——异亮氨酸含量很少。  相似文献   

12.
先对不同产地采集的竹黄菌进行筛选,得到优产竹红菌素的菌株,然后采用单因子和3因素3水平正交试验法对竹红菌素液体发酵条件进行优化,在优化培养基的基础上,选用不同浓度的Cr3+、Fe3+、Cu2+和Ca2+对竹红菌素进行离子调控研究。结果表明:从休宁所采集的菌株不仅生长速度最快,发酵所产的竹红菌素含量也最高;竹红菌素最佳发酵碳源是葡萄糖,最佳发酵氮源是硝酸钠,最佳培养基组合为2%葡萄糖,0.2%硝酸钠,pH7.5;Cr3+和Fe3+浓度为0.005%时竹红菌素含量均最高;0.05%的Ca2+最有利于竹红菌素的分泌;Cu2+为0.03%时竹红菌素含量达到最大值。  相似文献   

13.
采用紫外线、半导体激光及紫外线与半导体激光复合作用的方法,诱变产辅酶Q10红酵母菌SY-3,以提高辅酶Q10的产量。结果表明,紫外线和半导体激光单独作用,诱变效果不佳,而二者的复合作用却能产生很好的效果。用紫外照射120 s再经半导体激光辐射8 min,得到一株叠氮钠和维生素K3双抗性突变株,产辅酶Q10的量达到157.7 mg/L,比原始菌株提高了88.1%,并具有良好的遗传稳定性。  相似文献   

14.
Wang H  Zhang J  Wang X  Qi W  Dai Y 《Biotechnology letters》2012,34(1):145-151
The production of a low-temperature alkalophilic lipase from Acinetobacter johnsonii was improved using genome shuffling. The starting populations, obtained by UV irradiation and diethyl sulfate mutagenesis, were subjected to recursive protoplast fusion. The optimal conditions for protoplast formation and regeneration were 0.15 mg lysozyme/ml for 45 min at 37°C. The protoplasts were inactivated under UV for 20 min or heated at 60°C for 60 min and a fusant probability of ~98% was observed. The positive colonies were created by fusing the inactivated protoplasts. After two rounds of genome shuffling, one strain, F22, with a lipase activity of 7 U/ml was obtained.  相似文献   

15.
A procedure for protoplast formation in the penicillin-producing organism Penicillium chrysogenum was developed. The yield of the protoplasts was high, the protoplasts were stable and capable of regeneration. Two types of the protoplast regeneration were revealed. The spores and protoplasts were treated with UV light and N-nitroso-N'-methyl biuret and their effect on production of the antibiotic by the isolated variants was studied. It was shown that the protoplasts of P. chrysogenum were more liable to the mutagenic effect of UV light and nitroso methyl biuret than the fungus conidia. It is possible to use this specific feature in intensification of selection aimed at isolation of highly productive strains of P. chrysogenum.  相似文献   

16.
研究了选育布雷菲尔德茵素A(BFA)高产茵和优化发酵条件.采用紫外线照射(UV)、亚硝基胍(NTG)和UV+NTG复合诱变处理BFA产生茵Eupenicillum sp.E-0506筛选突变株后进一步发酵选育;采用单因素筛选结合正交试验考察摇瓶装液量、转速等因素的影响.试验所确定的BFA产生茵的孢子诱变适宜条件为:孢子...  相似文献   

17.
In order to breed a high-yield β-galactosidase-producing strain, Aspergillus oryzae was used as the parent strain and mutagenized with ultraviolet (UV) and UV plus lithium chloride (LiCl), respectively. After being mutagenized by UV, the β-galactosidase activity of mutant UV-15-20 reached 114.08 U/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 after compound mutagenesis of UV and LiCl; the β-galactosidase activity of this mutant was 58.82% higher than that of the parent strain. Subculture testing indicated that UV-15-20 and UV-LiCl-38 had good hereditary stability and may be ideal strains for the production of β-galactosidase. Additionally, it was demonstrated that compound mutagenesis with UV and LiCl is an effective mutation method for breeding industrially interesting strains.  相似文献   

18.
Aims: To isolate the protoplasts from Penicillium sp. PT95 and carry out laser mutagenesis to attain high-yield mutant strain for carotenoid production. Methods and Results: The mycelial pellets of PT95 strain were digested with the lytic enzyme for 3 h in order to attain protoplasts. The prepared protoplasts were irradiated using helium neon (He–Ne) laser. Among all regenerated colonies isolated from irradiated protoplasts, five colonies proved to be able to form sclerotia. The five colonies were named as strains L01, L02, L03, L04 and L05, respectively. Whereas, among all regenerated colonies isolated from no-irradiated protoplasts, no colonies were found to form sclerotia. Strains L01, L02, L03, L04 and L05 showed higher carotenoid yield than the original strain in Czapek’s agar medium. Strain L05 gave the highest pigment yield of 381 μg per plate, which was 2·54 times higher than that of original strain. Conclusions: These results suggest that PT95 strain may be mutagenized using laser-irradiation to obtain higher-yield mutant strains for carotenoid production. Significance and Impact of the Study: These data prompted us to consider that several attempts should be made to improve carotenoid production in PT95 by strain selection using classical screening and mutagenesis techniques.  相似文献   

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