共查询到18条相似文献,搜索用时 62 毫秒
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脯氨酰内肽酶培养条件的优化及高密度发酵 总被引:4,自引:0,他引:4
基因工程菌E.coliBL21/pGEMPEP可以组成型表达重组的点状产气单胞菌脯氨酰内肽酶(PEP),但培养条件极大地影响着酶的产量,为了获得高效表达,首先测定了工程菌表达PEP的稳定性并考察了培养温度、pH、发酵时间、碳源、氮源、无机盐等对产酶的影响,得到了优化的发酵条件,L9(34)正交试验进一步明确了摇床转速、培养温度、pH值、培养时间对产酶量的影响都有高度的统计学意义。在此基础上利用NBSBioFlo3000型5L自控发酵罐进行了高密度、高表达发酵、经20h培养,最终菌体密度达OD60060(相当于干菌体225g/L),PEP表达量为28%,每升发酵液中含PEP酶315g。 相似文献
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微生物细胞通常仅含2%3%油脂,但少数微生物含油脂率却可达70%以上,所以高含油脂量使微生物油脂实际开发成为可能。目前用于生产多不饱和脂肪酸的微生物主要为藻类和真菌。尽管微生物油脂是当前的研究热点,已经引起广大研究者的重视,但目前国内外研究大都集中在含油脂量在干重20%以上的微生物,如浅白色隐性酵母、粘红酵母等,而对于酿酒酵母来说,则很少见到研究其产油脂的相关报道。 相似文献
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优化益生菌Lactobacillus casei Zhang高密度培养条件 总被引:1,自引:0,他引:1
为实现L. casei Zhang的高密度培养,在之前优化增殖培养基的基础上进一步寻求适宜该菌的培养条件。研究了不同中和剂、缓冲盐浓度、葡萄糖浓度、pH值控制、通气条件和补料分批培养对菌体在恒pH条件下发酵的影响,根据不同条件下菌体的比生长速率、菌体密度和活菌数情况,确定L. casei Zhang较适宜的高密度培养条件为:培养基葡萄糖浓度为80 g/L~100 g/L,以氨水为中和剂使pH保持5.9,采用间歇通氮气的方法保持环境厌氧,分批培养方式下37°C保温发酵10 h~12 h后,L. casei Zhang细胞干重达到7 g/L,活菌数3.5×1010 CFU/mL,比优化前提高7倍以上,能够满足益生菌制品生产要求的高菌体密度。 相似文献
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光生物反应器中螺旋藻培养条件的优化 总被引:3,自引:0,他引:3
利用正交实验对搅拌式光生物反应器中钝顶螺旋藻(Spirulina platensis Geitl)的培养条件即搅拌速度、通气量和光照强度进行优化.实验结果表明:当培养温度为30℃时,通过正交实验所获得的最佳培养条件为搅拌转速120 r·min-1,通气量80 L·h-1,光照强度5000lx.在最佳培养条件下,收获时螺旋藻的干重为1.922 g·L-1.根据回归模型得到相应的优化条件为:光照强度5000lx,通气量150L·h-1,搅拌转速111.70r·min-1,收获量(干重)的预测值为2.293 g·L-1.另外,10%的接种量有利于螺旋藻的生长. 相似文献
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In a foregoing paper we have shown the presence in the yeast Saccharomyces cerevisiae of an enzyme catalyzing the hydrolysis of L-gamma-glutamyl-p-nitroanilide, but apparently distinct from gamma-glutamyltranspeptidase. The cellular level of this enzyme was not regulated by the nature of the nitrogen source supplied to the yeast cell. Purification was attempted, using ion exchange chromatography on DEAE Sephadex A 50, salt precipitations and successive chromatographies on DEAE Sephadex 6B and Sephadex G 100. The apparent molecular weight of the purified enzyme was 14,800 as determined by gel filtration. As shown by kinetic studies and thin layer chromatography, the enzyme preparation exhibited only hydrolytic activity against gamma-glutamylarylamide and L-glutamine with an optimal pH of about seven. Various gamma-glutamylaminoacids, amides, dipeptides and glutathione were inactive as substrates and no transferase activity was detected. The yeast gamma-glutamylarylamidase was activated by SH protective agents, dithiothreitol and reduced glutathione. Oxidized glutathione, ophtalmic acid and various gamma-glutamylaminoacids inhibited competitively the enzyme. The activity was also inhibited by L-gamma-glutamyl-o-(carboxy)phenylhydrazide and the couple serine-borate, both transition-state analogs of gamma-glutamyltranspeptidase. Diazooxonorleucine, reactive analog of glutamine, inactivated the enzyme. The physiological role of yeast gamma-glutamylarylamidase-glutaminase is still undefined but is most probably unrelated to the bulk assimilation of glutamine by yeast cells. 相似文献
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Model‐based high cell density cultivation of Rhodospirillum rubrum under respiratory dark conditions
The potential of facultative photosynthetic bacteria as producers of photosynthetic pigments, vitamins, coenzymes and other valuable products has been recognized for decades. However, mass cultivation under photosynthetic conditions is generally inefficient due to the inevitable limitation of light supply when cell densities become very high. The previous development of a new cultivation process for maximal expression of photosynthetic genes under semi‐aerobic dark conditions in common bioreactors offers a new perspective for utilizing the facultative photosynthetic bacterium Rhodospirillum rubrum for large‐scale applications. Based on this cultivation system, the present study aimed in determining the maximal achievable cell density of R. rubrum in a bioreactor, thereby providing a major milestone on the way to industrial bioprocesses. As a starting point, we focus on aerobic growth due to higher growth rates and more facile process control under this condition, with the option to extend the process by an anaerobic production phase. Process design and optimization were supported by an unstructured computational process model, based on mixed‐substrate kinetics. Key parameters for growth and process control were determined in shake‐flask experiments or estimated by simulation studies. For fed‐batch cultivation, a computer‐controlled exponential feed algorithm in combination with a pH‐stat element was implemented. As a result, a maximal cell density of 59 g cell dry weight (CDW) L?1 was obtained, representing so far not attainable cell densities for photosynthetic bacteria. The applied exponential fed‐batch methodology therefore enters a range which is commonly employed for industrial applications with microbial cells. The biochemical analysis of high cell density cultures revealed metabolic imbalances, such as the accumulation and excretion of tetrapyrrole intermediates of the bacteriochlorophyll biosynthetic pathway. Biotechnol. Bioeng. 2010. 105: 729–739. © 2009 Wiley Periodicals, Inc. 相似文献
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In the highly competitive market of commercial bakers' yeast, fermentations are operated for maximum efficiency and minimum production cost. In order to maintain competitiveness, the fermentations must be highly consistent with minimum variation in yeast performance, maximum yield on raw materials, and minimum production of undesirable side products. The use of advanced instrumentation is of critical importance to achieving these goals by the production engineer. An in situ optical density probe was used to determine the yeast cell density in full-scale commercial bakers' yeast fermentations. The optical density probe results were compared with oxygen uptake rate analyses, packed cell volume, and off-line measured cell dry weights. The most accurate measurement of cell density was found to be the optical density probe. This instrument allowed the on-line determination of cell density with highly consistent results from fermentation batch to batch and with out the need for intermittent recalibration. (c) 1995 John Wiley & Sons, Inc. 相似文献
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虫草素作为药用真菌蛹虫草的主要活性成分,具有抗肿瘤、抗病毒等多种生理功能。现阶段虫草素主要通过蛹虫草液体发酵生产,但发酵周期长、生产强度低,制约了其大规模开发利用。文中在酿酒酵母Saccharomyces cerevisiae S288C中异源表达虫草素合成关键基因ScCNS1和ScCNS2,成功构建了产虫草素的酵母工程菌SHC16,发酵240 h虫草素产量可达67.32 mg/L;基因表达分析显示,发酵后期磷酸戊糖途径、嘌呤代谢及虫草素合成途径关键酶编码基因ZWF1、PRS4、ADE4、ScCNS1及ScCNS2表达水平显著上调。进一步地,通过优化发酵培养基组成,确定以50 g/L葡萄糖为初始底物结合一次补料、添加5 mmol/L Cu2+和1.0 g/L腺嘌呤为最适培养基组成。基于此在5 L搅拌发酵罐中开展补料分批发酵,144 h虫草素产量达到137.27 mg/L,生产强度达0.95 mg/(L·h),较未优化发酵体系提高240%。 相似文献
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β-葡萄糖苷酶在酿酒酵母表面的表达 总被引:1,自引:0,他引:1
应用表面表达技术对来自Trichodermareesei的β-葡萄糖苷酶在酿酒酵母表面的表达及后期性质进行了研究。实验结果表明酵母表面表达酶有活性,该酶的最佳诱导时间为24h,最适温度是70℃,而酶活的最适pH是5.5。使异源表面表达了Bgl1的酵母在以纤维二糖为唯一碳源的培养基中生长,发酵结果表明纤维二糖被明显利用了,但在培养186h后,发酵液中仍残留一定量的纤维二糖。这种技术对纤维素发酵系统中纤维二糖酶活性低的现状有所帮助。 相似文献