基因组重排与传统育种相结合选育大观霉素高产菌株

以壮观链霉菌(Streptomyces spectabilis)为研究对象,采用基因组重排技术与传统诱变育种相结合的方法选育大观霉素的高产菌株.通过原生质体紫外诱变获得壮观链霉菌突变体群体,高产突变菌株间进行两轮的基因组重排,筛选的高产菌株用NTG诱变得新霉素和链霉素的抗性突变菌株,抗性突变菌株间进行两轮基因组重排,从...     

生产葡萄糖异构酶的优良菌株——链霉菌607~#通过技术鉴定

为了提高葡萄糖异构酶生产菌株的产酶能力,沈阳市食品发酵研究所以链霉菌336~#为出发菌株,采用物理、化学方法进行多次诱变选育,获得了新变株——链霉菌607~#。1983年11月22日至23日,沈阳市科委和沈阳市一轻局在沈阳主持召开了“链霉菌607~#的选育”技术鉴定会。参加鉴定会的有轻工业部、辽宁省科委,辽宁省第一轻工业厅、中国科学院林土研究所、中国科学院兰州化学物理研究     

氮离子注入诱变选育恩拉霉素高产菌株

利用氮离子注入对链霉菌的诱变效应,筛选高产恩拉霉素的变异菌株。利用不同剂量的氮离子对杀真菌放线菌S.fungicidicus NL629-3菌株进行诱变处理,研究低能氮离子注入对其存活率及产恩拉霉素能力的影响。低能氮离子注入剂量在60×1013ions/cm2时对链霉菌的诱变效应显著,试验得到了5株恩拉霉素产量较高的突变菌株,其中N3-643菌株经连续传代4次,遗传稳定性较好,其摇瓶发酵水平较对照提高了41%,放大发酵生产后平均发酵水平提高25.8%。离子注入诱变是获得高产恩拉霉素突变菌株的有效方法。     

铜蒸气激光及其与氯化锂复合选育龟裂链霉菌的研究

本文首次报导有关铜蒸气激光及其与氯化锂复合选育龟裂链霉菌的研究。在相同的实验条件下，铜蒸气激光辐照龟裂链霉菌比其随后又氯化锂复合处理的效果好。     

氮离子注入选育阿维拉霉素高产菌株的研究

以提高产绿链霉菌(Streptomyces viridochromogenes)SV-1产阿维拉霉素(Avilamycin)产量为目的,采用低能氮离子注入技术,辅之以链霉素抗性筛选法进行诱变选育研究。结果表明,“马鞍”区域即注入剂量范围在3×10~(15)～5×10~(15)ions/cm~2诱变效果最佳,菌株的抗药性突变与产量突变密切相关,链霉素抗性筛选法具有可行性。在摇瓶条件下,最终获得稳定性良好,阿维拉霉素产量达到83．5mg/L,较出发菌株提高195%的突变株SVT-45。实验表明,离子注入技术是一种有潜力的微生物诱变育种新方法。     

抗生素和干扰素

924355能产生曲张链菌素复合物的链霉菌种〔英万Vesse-linova,N.…了Folia Mierobiol一1901,56 (6)。一535~541〔译自DBA,1992,11犷11),92一06133〕 研究了链霉菌菌株1000的形态学、培养和生理生化特性及其抗生素的产生。在菌丝体和培养滤液中均产生抗生素一1011和一1012,4天后抗生素的生物合成达最大值(4 109/1)。菌株1。。o的变种1011能产生10oomg/1抗生素一1021,将之与亲本菌株10。。的生产水平(41mg/l)进行比较。经鉴定抗生素一1011为曲张链菌素。在相同培养条件下,2株链霉菌的产物组分有不同。菌株100。和壮观链霉菌(5.。户ec‘ab￡…     

妥布霉素产生菌激光育种的研究

本文首次报道铜蒸气激光选育妥布霉素产生菌—黑暗链霉菌（Ｓｔｒｅｐｔｏｍｙｃｅｓｔｅｎｅｂｒａｒｉｕｓ）的研究结果。在相同实验条件下,铜蒸气激光辐照黑暗链霉菌比其随后又以氯化锂复合处理的选育效果好。在铜蒸气激光辐照后,曾获得实验高产株,发酵单位比对照未辐照组提高７２％。     

玉米大斑病生防放线菌的筛选鉴定及发酵条件优化

【目的】从土壤中筛选对玉米大斑病菌具有较强拮抗作用的放线菌菌株。【方法】采用稀释涂布法分离;采用平板对峙法、牛津杯法、抑制菌丝生长速率法、抑制孢子萌发法进行拮抗菌的筛选;根据菌株BZ45的形态与培养特征、生理生化特性、16SrDNA序列分析对其进行鉴定。通过单因素试验和正交设计试验优化培养基组分及发酵条件。【结果】通过分离筛选得到一株具有强抑制作用的放线菌菌株BZ45,它对常见的8种病原真菌均有拮抗作用,菌株BZ45的发酵滤液对玉米大斑病菌(Setosphaeria turcica)CC9的菌丝生长和孢子萌发均有较强的抑制作用。菌株BZ45与链霉菌中的壮观链霉菌(Streptomyces spectabilis)的亲缘关系较近,且形态与培养特征、生理生化特性与壮观链霉菌的基本相符。研究表明其最佳发酵配方和培养条件为:果糖1.5%、蛋白胨3.0%、KH2PO40.1%、NaCl 0.04%、CaCO30.1%,起始pH为7.2,装瓶量50 mL/250mL,28℃,200 r/min,种子液接种量为10%,摇瓶培养4 d。【结论】菌株BZ45鉴定为壮观链霉菌(Streptomyces spectabilis),菌株BZ45对玉米大斑病菌(Setosphaeria turcica)CC9显示出较强的拮抗作用。     

离子注入微生物诱变育种研究进展

论述了离子注入微生物育种的三大特征 ,介绍了微生物接受注入离子的方法、离子注入机的简单结构和工作情况。概述了近几年来离子注入微生物 ,改良、选育优良工业微生物菌株的应用研究情况 ,分析了今后离子注入微生物育种的发展趋势。     

离子注入微生物诱变育种研究进层

论述了离子注入微生物育种的三大特征,介绍了微生物接受注入离子的方法、离子注入机的简单结构和工作情况。概述了的几年来离子注入微生物,改良、选育优良工业微生物菌株的应用研究情况,分析了今后离子注入微生物育种的发展趋势。     

SOS induction by vacuum,desiccation and low-energy ion beam mock-irradiation in bacteria

In this work, we compared the SOS response induced by vacuum-drying, desiccation (wind-spray-drying) and low-energy ion beam mock-irradiation with that of mitomycin C, UV induction. The induction factor induced by vacuum-drying and low-energy ion beam mock-irradiation was relatively higher than that of desiccation in Sa194 and JC19008 strain, respectively. These findings revealed that the SOS response produced by low-energy ion beam mock-irradiation was mainly induced by the step of vacuum-drying, unlikely by the step of wind-spray-drying. The mutation frequencies of rifampicin resistance gene in AB1157 andlacI gene in W3110 increased significantly by vacuum treatment and low-energy ion beam mock-irradiation, but had no remarkable change by desiccation treatment. Meanwhile, the mutation frequency of rifampicin resistance gene in 1C400 strain was not significantly influenced by these treatments. These results implied that the SOS response played an important role in the mutations induced by vacuum treatment and low-energy ion beam mock-irradiation.     

Improvement of astaxanthin production by a newly isolated Phaffia rhodozyma mutant with low-energy ion beam implantation

Aims: Isolation, characterization and identification of Phaffia sp. ZJB 00010, and improvement of astaxanthin production with low‐energy ion beam implantation. Methods and Results: A strain of ZJB 00010, capable of producing astaxanthin, was isolated and identified as Phaffia rhodozyma, based on its physiological and biochemical characteristics as well as its internal transcribed spacer (ITS) rDNA gene sequence analysis. With low‐energy ion beam implantation, this wild‐type strain was bred for improving the yield of astaxanthin. After ion beam implantation, the best mutant, E5042, was obtained. The production of astaxanthin in E5042 was 2512 μg g^?1 (dry cell weight, DCW), while the wild‐type strain was about 1114 μg g^?1 (DCW), an increase of 125·5%. Moreover, the fermentation conditions of mutant E5042 for producing astaxanthin were optimized. The astaxanthin production under the optimized conditions was upscaled and studied in a 50‐l fermentor. Conclusions: A genetically stable mutant strain with high yield of astaxanthin was obtained using low‐energy ion beam implantation. This mutant may be a suitable candidate for the industrial‐scale production of astaxanthin. Significance and Impact of the Study: Astaxanthin production in Phaffia rhodozyma could be fficiently improved by low‐energy ion beam implantation, which is a new technology in the mutant breeding of micro‐organisms. The mutant obtained in this work could potentially be utilized in industrial production of astaxanthin.     

Strain improvement and metabolic flux modeling of wild-type and mutant <Emphasis Type="Italic">Alcaligenes</Emphasis> sp. NX-3 for synthesis of exopolysaccharide welan gum

Low-energy nitrogen ion beam implantation technique was used for the strain improvement of Alcaligenes sp. NX-3 for the production of exopolysaccharide welan gum. A high welan gum producing mutant, Alcaligenes sp. NX-3-1, was obtained through 20 keV N⁺ ion beam irradiation. Starting at a concentration of 50 g/L of glucose, mutant NX-3-1 produced 25.0 g/L of welan gum after 66 h of cultivation in a 7.5 L bioreactor, which was 34.4% higher than that produced by the wild-type strain. The results of metabolic flux analysis showed that the glucose-6-phosphate and acetyl coenzyme A nodes were the principle and flexible nodes, respectively. At the glucose-6-phosphate node, the fraction of carbon measured from glucose-6-phosphate to glucose-1-phosphate was enhanced after mutagenesis, which indicated that more flux was used to synthesize welan gum in the mutant. By analyzing the activities of related enzymes in the biosynthetic pathway of sugar nucleotides essential for welan gum production, we found that the specific activities of phosphoglucomutase, UDP-glucose pyrophosphorylase, UDP-glucose dehydrogenase, and dTDP-glucose pyrophosphorylase in the mutant strain were higher than those in the wild-type strain. These improvements in enzyme activities could be due to the affected of ion beam implantation.     

Mutation breeding of chitosanase-producing strain Bacillus sp. S65 by low-energy ion implantation

In order to obtain an industrial strain with higher chitosanase yield, the wild strain Bacillus sp. S65 cells were mutated by a novel mutagen, nitrogen ion beam, with energy of 15 keV and dose ranging from 2.6 × 10¹⁴ to 5.2 × 10¹⁵ ions/cm². One mutant, s65F5 with high yield of chitosanase was isolated. Results showed that the production of chitosanase of s65F5 was dramatically increased from 4.1 U/ml in s65 to 25 U/ml by ion beam implantation, while the fermentation time was shortened from 72 to 56 h, both of which greatly increased efficiency and reduced the cost of industrial production. Besides, the mutagenic effects of low-energy ion beam on survival rate showed characteristic down–up–down pattern, which was different from the traditional mutagens such as UV and γ-ray and the possible mutation mechanism was discussed.     

低能离子束修饰蛹虫草菌株高产虫草素

虫草素具有抗肿瘤、免疫调节、抗炎等多种功效。为了更好地开发蛹虫草资源,选择合适剂量的低能离子束注入蛹虫草,优化虫草素的提取工艺条件,采用紫外分光光度法检测注入前后菌株中虫草素的含量。结果表明:最佳注入剂量为2.60×1015ions/cm2,虫草素最佳的微波-超声波提取工艺为:乙醇浓度70%,提取功率200W,提取时间110s,料液比1:240。选育出虫草素含量较高的15株菌株,最高含量达(11.924±0.063)mg/g,比原始菌株增长了近30%。     

Enhancement of the Gibberella zeae growth inhibitory lipopeptides from a Bacillus subtilis mutant by ion beam implantation

Bacillus subtilis JA antagonized the growth of Gibberella zeae. In order to reduce growth of this fungi pathogen to a greater extent, low-energy ion beam implantation was applied in mutant breeding. We studied the effects of different energies and different doses of nitrogen ion implantation. The mutant strain designated as JA026 was obtained showing higher inhibition activity in the screening plate. Its inhibition zone against indicator organism increased by 14.3% compared to the original strain. The electrospray ionization mass spectrometry (ESI/MS) analysis indicated that the antifungal lipopeptides produced by the mutant were identical to those produced by the wild-type strain. The mutant strain exhibited favorable properties including the high yield of antifungal lipopeptides production and faster growth over the parent strain, which suggested that this strain would be a promising biocontrol candidate in agriculture.     

ENGINEERING A HIGH-YIELD GLUTATHIONE STRAIN OF Hansenula polymorpha USING ION BEAM IMPLANTATION

To generate an industrial strain of Hansenula polymorpha capable of yielding greater levels of glutathione (GSH), wild strain H. polymorpha DL-1 cells were mutated using a nitrogen ion beam, a novel mutagen. At an energy level of 20 keV and dose of 2.13 × 10¹⁶ ions/cm², H. polymorpha strain 28 (HP28) with a high-yield of GSH was screened. HP28 intracellular GSH levels reached 337.16 mg/L by ion beam implantation, 1.56 times greater than that of the wild type strain when the fermentation time was shortened from 48 hr to 42 hr, greatly improving efficiency and reducing the cost of industrial-scale production. The enhanced efficiency of HP28 is promising for GSH production from lignocellulosic materials. Therefore, the ion beam implantation would be a cost-effective alternative to the conventional mutation method for engineering yeast and improving its utility.     

低能氮离子注入诱变选育高产结冷胶菌株的研究

结冷胶是由伊乐假单胞杆菌生成的具有重要商业价值的微生物胞外多糖。本研究为了提高伊乐假单孢菌的产结冷胶水平,采用低能氮离子注入的方法选育高产菌株。经过初筛和复筛得到一株高产结冷胶菌株Pseudomonas elodea A3-5。该菌株传代稳定,生长迅速,在7 L发酵罐内生长状态优于出发菌株,分子量和品质都较高,分批发酵结冷胶产量达到16.5g/L,较出发菌株明显提高了25%。     

N~+离子注入选育高产氨基酰化酶菌株的研究

选用N~+离子注入的方法对米曲霉(Aspergillus oryzae)CICC 2339-1进行诱变育种,通过三角瓶发酵法筛选氨基酰化酶高产株。N~+离子注入选择能量为10 KeV,剂量在(1.30～4.94)×10~(15)ions/cm~2之间。根据剂量与存活率以及剂量与突变率曲线选择最佳的注入剂量。通过三角瓶发酵筛选得到突变菌株SN-110-15其酶活提高率为139.5%,诱变试验效果显著。     

Nonlinear theory of the low-frequency interaction of ion beams with the virtual cathode of a relativistic electron beam

A study was made of the nonlinear low-frequency interaction of a longitudinal ion beam with a virtual cathode of a relativistic high-current electron beam injected into a cylindrical drift chamber. Cases are considered in which the electron and ion beams have the same radii and in which the radius an ion beam is greaterthan that of an electron beam.