新一代糖化酶高产菌株的选育及其工业应用

【目的】建立对糖化酶生产菌种黑曲霉随机突变文库进行筛选的方法,以获得糖化酶酶活提高的突变菌株。【方法】以一株可产糖化酶的黑曲霉菌株Aspergillus niger X1为出发菌株,经硫酸二乙酯诱变获得突变文库,采用葡萄糖的结构类似物——2-脱氧葡萄糖进行筛选,并在筛选过程中逐渐提高2-脱氧葡萄糖浓度,定向选育具有2-脱氧葡萄糖抗性、高产糖化酶的突变株。【结果】获得的高产突变菌株DG36摇瓶发酵糖化酶产量比出发菌株A.niger X1提高22.2%–33.8%,经工业水平50 m~3罐发酵测试,突变株DG36发酵128 h糖化酶活可达49094 U/m L,在相同发酵时间内,其酶活较出发菌株A.niger X1提高32.8%,发酵时间缩短16.9%。【结论】本研究开发了一种以2-脱氧葡萄糖为抗性标记选育高产糖化酶突变株的方法,所得突变株DG36遗传性状稳定,与出发菌相比具有菌丝粗壮、产酶期提前、糖化酶活高、发酵时间短、有利于发酵后处理的优点。     

产紫杉醇菌株原生质体诱变育种的研究

对紫杉醇产生菌NCEU-1的原生质体进行了紫外线和氯化锂复合诱变,筛选制霉菌素抗性突变株,共筛选出了4株正突变株。经发酵筛选试验,获得了一株遗传性状稳定、高产紫杉醇的原生质体诱变菌株——UL_04-5,其紫杉醇产量从出发菌株的314.07μg/L提高至418.24μg/L。     

两株芽孢杆菌在苎麻纤维复合脱胶中的应用

【背景】苎麻纤维细长、强韧、洁白、有光泽,被誉为"天然纤维之王",应用广泛。但其被以半纤维素和果胶为主要成分的胶质所包裹,脱胶是生产精干麻工艺的核心工序。利用单一菌株脱胶,往往因其脱胶酶系不全,存在胶质去除率低的问题,导致后期仍需要大量的碱和漂白剂处理。【目的】丰富苎麻脱胶过程中关键酶系,从而提高苎麻胶质去除率,并降低脱胶后期化学试剂的用量,推进苎麻生物脱胶的工艺应用。【方法】选用2株芽孢杆菌HG-9 (高果胶酶和甘露聚糖酶)和HG-25(高木聚糖酶)建立了复合微生物脱胶技术,并对其进行了优化。【结果】当2株菌接种量均为6%,水料比16:1,初始pH值5.9,在温度37.6°C下脱胶处理14 h时脱胶效果最佳,与菌株HG-9单独脱胶相比,脱胶时间减少2 h,胶质去除率、半纤维素去除率和木质素去除率分别提高9.32%、21.24%和17.93%,次氯酸钠用量减少20%。通过电子显微镜分析其形貌特征发现,混合脱胶获得的纤维表面更加平滑,无明显扭曲和损伤且纤维分散度较高。【结论】通过复合微生物协同作用,丰富脱胶过程中关键酶系,提高了苎麻纤维胶质去除率,缩短了脱胶时间,而且减少了脱胶后期漂白剂的用量,为苎麻生物脱胶工业化应用的进一步发展提供了指导。     

紫外诱变选育恩拉霉素高产菌株

本研究采用紫外诱变育种技术对一株产恩拉霉素抗真菌链霉菌(Streptomyces fungicidicus)F110进行了诱变处理,经链霉素抗性、利福霉素B抗性以及双重抗性筛选,共获得了132株抗生素抗性突变株,其中26株突变菌株的恩拉霉素产量与出发菌株相比均有明显提高。摇瓶发酵条件下,突变株SR93的恩拉霉素产量最高可达2 400μg/m L,与出发菌株相比提高了38%。传代结果表明:该突变株产素水平稳定,因此具备较好的开发及工业应用价值。     

梧宁霉素产生菌链霉素抗性基因突变株的筛选初报

采用紫外线、亚硝酸、亚硝酸与紫外线复合处理对菌株的孢子进行诱变 ,在含有链霉素最小抑制浓度(4μg/mL)的高氏平板筛选 ,分别得到 114株、110株、12 4株链霉素抗性突变株 ,其中梧宁霉素效价高于出发菌株的分别为 9株、9株、18株 ,正突变率分别达到 7.89%、8.18%、14 .5 2 % ,其中突变株HU 74的效价比出发菌株提高了 12 %。     

黑曲霉α-鼠李糖苷酶高产菌株的选育

本文首次报道利用Davis方法制备的透明圈法筛选α-鼠李糖苷酶高产菌株.用甲基磺酸乙酯对出芽8 h的黑曲霉孢子进行诱变处理,用透明圈法初筛出的菌株中,产量提高40%以上的突变菌株占11%;用摇瓶培养对初筛出的菌株进行两轮复筛α-鼠李糖苷酶高产突变株T-226,摇瓶培养α-鼠李糖苷酶活达373.4 U/mL,比出发菌株提高了22.7%.对该高产突变株进行5 L罐发酵实验,发酵84 h测得α-鼠李糖苷酶活为631.9 U/mL.用新建立的方法选育高产α-鼠李糖苷酶的高产菌株,不仅具有较高的筛选效率,还具有良好的准确性.     

胞苷生产菌的选育

目的：筛选得到胞苷发酵单位较高的菌株,并对发酵过程作初步研究。方法：以胞苷脱氨酶缺失枯草芽孢杆菌DOS7为出发菌株,对其进行紫外诱变、5-氟胞苷（5FCR＋）和2-杂氮尿嘧啶抗性（2AU＋）抗性筛选。结果：通过紫外诱变和抗性筛选得到突变株DOS7-2-1000-15,抗5-氟胞苷和2-杂氮尿嘧啶的临界浓度分别为800mg/L和1 000mg/L。同时检测了抗5-氟胞苷突变株中CTP合成酶的活性,比原始菌株提高了12.4%,突变株DOS7-2-1000-15发酵过程结果为：36℃发酵72h能积累胞苷最高为3.5g/L。结论：筛选得到的突变株DOS7-2-1000-15的遗传稳定性较好,可稳定发酵。     

复合诱变选育高产GSH的菌株

目的:选育出GSH的高产菌株.方法:以产GSH的产朊假丝酵母(Candida utilis)为出发菌株,利用紫外-超声波复合诱变.结果:筛选得到ZnCl2抗性突变株UU3,GSH菌体含量为53.50mg·g-1,比出发菌株提高137.03%.结论:突变株UU3遗传性能稳定,可做进一步研究.     

通过获得链霉素抗性基因突变株筛选小诺霉素高产菌株

通过链霉素对小诺霉素产生菌 (Micromonospora purpura) 49 1 2 #菌株孢子致死浓度的测定 ,采用诱变剂EMS 3种不同诱变剂量对菌株的孢子进行诱变处理 ,诱变处理的孢子涂布在含链霉素致死浓度的改良高氏平板上 ,获得大量的链霉素抗性基因突变株 ,然后从链霉素抗性基因突变株进一步筛选小诺霉素高产菌株 ,获得小诺霉素菌株 49 1 2 3菌株。在摇瓶条件下 ,其产小诺霉素生物活性单位比出发菌株 49 1 2 #的摇瓶发酵单位提高了 40 %以上。小诺霉素的组分比由出发菌株的C2b∶C1a的 5∶5提高到 8∶2。C2b有效组分提高了 30 %;链霉素抗性基因突变与小诺霉素发酵单位突变之间 ,小诺霉素正突变率达到 40 %,负突变率达 2 6%,正突变大于负突变     

亚麻纤维脱胶菌的筛选及脱胶效果研究

为筛选亚麻纤维脱胶菌株,从麻脱胶废水、废麻堆积物等7个含麻胶质样品中分离得到39株能分解果胶的菌株.采用水解圈法复筛选出8株果胶酶活性较高的菌株,经果胶酶、纤维素酶活性测定和菌体脱胶试验,最终确定8-1是优良的亚麻脱胶菌株,该菌株果胶酶活可达663.17 u/mL,而纤维素酶活仅为9.13 u/mL.菌株8-1经形态观察、Biolog菌种鉴定系统鉴定以及基于16S rDNA序列构建的系统进化树分析为一株芽孢杆菌.     

Partial characterization ofAspergillus fumigatus polygalacturonases for the degumming of natural fibers

Summary Aspergillus fumigatus strain 4, cultured on citrus pectin as the sole carbon source, produced polygalacturonases whose activity was optimum at 65°C and pH 3.5–4.5. The enzymes presented a bimodal thermostability for 10 min, but not 60 min, of incubation. Polygalacturonases showed pH stability between 3.0 to 9.0. The enzymes were stable when stored at 4–6°C for 90 days, but their activity was reduced by 24% when they were stored at 26–30°C. Orange pulp was the best pectic carbon source tested for the production of pectinases capable of retting ramie fibers. The reutilization of these enzymes was possible, suggesting the viability of industrial use of pectinases for degumming ramie fibers.     

芽孢杆菌和欧文氏菌的原生质体融合的研究

采用原生质体融合技术对带有链霉素标记的芽孢杆菌B12 13 2 和带有红霉素标记的欧文氏菌E2 6 2 3 进行原生质体融合。采用选择性及非选择性培养基对融合子进行 10次重复性传代试验后 ,获得稳定的融合子 2 84株 ,经重复性苎麻脱胶试验 ,从中获得 6株脱胶效果较好的融合子。     

Large-scale degumming of ramie fibre using a newly isolated <Emphasis Type="Italic">Bacillus pumilus</Emphasis> DKS1 with high pectate lyase activity

A combined (enzymatic and chemical) process using a Bacillus pumilus strain (DKS1), isolated from the soil, was used to degum ramie bast fibres. After 24 h of incubation with the isolated pectinolytic strain using a low-cost medium, the weight loss of the ramie fibre was found to be 25% under small scale. High activity of pectate lyase was detected in the culture supernatants; 400 kg of ramie fibres was degummed with 24% weight loss in large-scale degumming under field conditions. No cellulase activity was found. Microbial intervention followed by mild (0.1%) alkali treatment showed high percentage of weight loss from the ramie fibre. Bacterial degumming followed by chemical treatment resulted in an increase of single fibre tenacity (cN/tex) by more than 20.81% as compared to non-degummed (decorticated) fibre samples. Scanning electron micrographs (SEM) and fluorescence microscope showed that after Bacillus pumilus DKS1 treatment the surface of the decorticated ramie fibre becomes very smooth. These results indicate the process provides an economical and eco-friendly method for the small scale as well as large-scale degumming of decorticated ramie fibre. This study has great relevance to the textile as well as paper industry.     

N+注入选育黑曲霉益生菌及其突变菌株产酶条件的研究

以益生菌株黑曲霉AN01为材料,经N 多次诱变得突变益生菌株AN03。结果表明,出发益生菌株AN01酸性蛋白酶、纤维素酶和果胶酶的酶活分别由原来的71.6Ug、141.7Ug和264.8Ug相继提高到996.5Ug、940.4Ug和906.5Ug。突变益生菌株AN03经传5代培养,产酶特性稳定。试验还研究了变突变益生菌株AN03最佳产酶条件,培养基为每升含麸皮105g,玉米芯105g,豆粕105g,氯化铵16g,pH5.0。30℃培养4d。     

Screening of pectinase producer from alkalophilic bacteria and study on its potential application in degumming of ramie

Four strains designated as NT-2, NT-6, NT-33 and NT-82 were selected from alkalophilic bacteria. They all can produce pectinase and xylanase. The polygalacturonase (PGase) and xylanase activities of strain NT-33 were 1025 U ml^-1 and 26U ml^-1 respectively. The pH and temperature optimum for the activity of PGase were 10.5 and 70°C, respectively. From batch experiments, it was found that strain NT-33 had an excellent capacity for degumming ramie fibers. After 24 h fermentation this strain can remove 70% of the gum existing in ramie fibers. The experiments showed that a series of noncellulosic polysaccharide degrading enzymes were involved in the ramie degumming process.     

Bioconversion of grape must into modulated gluconic acid production by Aspergillus niger ORS-4.410

AIMS: Analysis of regulators for modulated gluconic acid production under surface fermentation (SF) condition using grape must as the cheap carbohydrate source, by mutant Aspergillus niger ORS-4.410. Replacement of conventional fermentation condition by solid-state surface fermentation (SSF) for semi-continuous production of gluconic acid by pseudo-immobilization of A. niger ORS-4.410. METHODS AND RESULTS: Grape must after rectification was utilized for gluconic acid production in batch fermentation in SF and SSF processes using mutant strain of A. niger ORS-4.410. Use of rectified grape must led to the improved levels of gluconic acid production (80-85 g l(-1)) in the fermentation medium containing 0.075% (NH4)2HPO4; 0.1% KH2PO4 and 0.015% MgSO4.7H2O at an initial pH 6.6 (+/-0.1) under surface fermentation. Gluconic acid production was modulated by incorporating the 2% soybean oil, 2% starch and 1% H2O2 in fermentation medium at continuously high aeration rate (2.0 l min(-1)). Interestingly, 95.8% yield of gluconic acid was obtained when A. niger ORS-4.410 was pseudo-immobilized on cellulose fibres (bagasse) under SSF. Four consecutive fermentation cycles were achieved with a conversion rate of 0.752-0.804 g g(-1) of substrate into gluconic acid under SSF. CONCLUSIONS: Use of additives modulated the gluconic acid production under SF condition. Semi-continuous production of gluconic acid was achieved with pseudo-immobilized mycelia of A. niger ORS-4.410 having a promising yield (95.8%) under SSF condition. SIGNIFICANCE AND IMPACT OF THE STUDY: The bioconversion of grape must into modulated gluconic acid production under SSF conditions can further be employed in fermentation industries by replacing the conventional carbohydrate sources and expensive, energy consuming fermentation processes.     

低能离子注入技术诱变选育木聚糖酶高产菌

利用离子束注入技术对木聚糖酶产生菌黑曲霉(Aspergillus niger)A3进行诱变筛选,得到高产菌株N212。通过正交设计实验,优化了该高产菌的液体发酵条件,发现适合产酶的培养基是:8%玉米芯,1.0%麸皮,0.1%吐温80,0.5%(NH4)2SO4,0.5%NaNO3,其他无机盐的成分与M ande ls营养盐液中的成分一样,pH5.4。在优化后的培养条件下N212的产酶达到600 IU/mL。     

Enzymatic degumming of ramie bast fibers

Bast fibers from ramie (Boehmeria nivea) were treated with cell-free culture supernatants from an Amycolata sp. and a recombinant Streptomyces lividans strain expressing the Amycolata pectate lyase to investigate the degumming effects of different extracellular polysaccharide-degrading enzymes. Culture supernatants from the Amycolata sp. with high pectate lyase activities were most effective in fiber separation and reduced the gum content of ramie fibers by 30% within 15 h. Xylanase activity produced by the Amycolata sp. contributed little to the degumming. Electron micrographs showed that the crude pectate lyase from the Amycolata sp. removed plant gum more efficiently from decorticated ramie bast fibers than the purified enzyme. Similarly, degumming with the crude enzyme of the Amycolata sp. and the recombinant S. lividans strain for 24 h resulted in fibers with a residual gum content of 14.7 and 17.3%, respectively. Degumming with the crude enzyme of the recombinant Streptomyces strain was slightly improved by the addition of a commercial pectinesterase. No significant degumming was observed with the crude enzyme from an S. lividans strain that did not produce the Amycolata pectate lyase. These results indicate that the pectinolytic activity of the Amycolata sp. plays an active role in degumming of ramie bast fibers.     

Isolation and evaluation of tannin-degrading fungal strains from the Mexican desert

Eleven fungal strains (4 Penicillium commune, 2 Aspergillus niger, 2 Aspergillus rugulosa, Aspergillus terricola, Aspergillus ornatus and Aspergillus fumigatus) were isolated, characterized morphologically and by their capacity to degrade tannins. Aspergillus niger Aa-20 was used as control strain. Several concentrations of hydrolysable tannin (tannic acid) were used as sole carbon source. All strains were able to degrade hydrolysable tannins. Aspergillus niger GH1 and PSH showed the highest tannin-degrading capacity (67 and 70%, respectively). Also, the fungal capacity to degrade condensed tannin (catechin) was tested. Aspergillus niger PSH and Penicillium commune EH2 degraded 79.33% and 76.35% of catechin. The results demonstrated the capacity of fungi to use hydrolysable and condensed tannins as carbon source.