共查询到20条相似文献,搜索用时 46 毫秒
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为更全面深入地理解细胞内谷氨酸代谢的调控机制,以黄色短杆菌GDK-9为供试菌株,应用MATLAB软件和代谢流分析方法定量研究添加苹果酸后L-谷氨酸发酵中、后期胞内的代谢流迁移。在L-谷氨酸发酵中、后期添加2.0g/L苹果酸后,合成副产物L-丙氨酸和乳酸的代谢流量明显减少,分别降低了22.1%和16.5%,EMP途径和乙醛酸循环的代谢流分别减少了2.26%和9.09%,HMP途径的代谢流增加了2.26%,而L-谷氨酸生物合成的代谢流从73.59%增长至79.92%,较未添加前提高了6.33%。添加适量苹果酸能使关键节点发生代谢流迁移,提高了L-谷氨酸合成中心代谢途径的代谢流量。 相似文献
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本文分析鸟苷产生菌枯草芽孢杆菌(Bacilus subtilis)在50L多参数自控发酵罐上的发酵过程特点,基于多种在线及离线参数的检测,通过相关分析将生理调控的工艺参数和生物合成过程中的代谢流分布相联系,发现了发酵过程中的代谢流向糖酵解和TCA循环的迁移,并初步分析了产生代谢流迁移的原因,在此基础上优化发酵过程使产苷水平稳定在30g/L。 相似文献
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L-异亮氨酸发酵代谢分析 总被引:7,自引:0,他引:7
通过在5L自控发酵罐上对L-异亮氨酸的发酵过程进行研究,分析了发酵基本特征,并结合菌体形态及发酵控制参数的变化,指出发酵过程中代谢流流向及代谢平衡和可能存在的代谢流迁移,为进一步发酵条件优化和分阶段控制发酵研究奠定基础。 相似文献
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张亚雄 《氨基酸和生物资源》1997,19(2):35-37
本课题筛选了适宜在肌苷发酵废液中生长的酵母菌,从中选出了生长量最大的CF菌。并对利用肌苷发酵废液生产该酵母的条件进行了初步研究。 相似文献
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柠檬酸钠对L-组氨酸发酵代谢流分布的影响 总被引:2,自引:0,他引:2
目的:建立谷氨酸棒杆菌TL1105生物合成L-组氨酸的代谢网络模型,并进行代谢网络计量分析。方法:通过所构建的L-组氨酸代谢网络模型,利用MATLAB软件计算出添加柠檬酸钠和不添加柠檬酸钠发酵中后期代谢网络的代谢流分布。结果:在L-组氨酸分批发酵过程中,在发酵初期未添加柠檬酸钠的条件下流向戊糖磷酸途径(HMP)的代谢流为9.59,合成组氨酸的代谢流为8.91;在发酵初期添加2g/L柠檬酸钠的条件下流向HMP的代谢流为12.74,合成组氨酸的代谢流为9.61。结论:在发酵初期添加柠檬酸钠能够改变L-组氨酸生物合成途径的关键节点6-磷酸葡萄糖、丙酮酸及乙酰辅酶A的代谢流分布,保持糖酵解途径、三羧酸循环与HMP之间代谢流量平衡,有利于提高L-组氨酸生物合成途径的代谢流量,最终使流向组氨酸的代谢流增加了7.86%。 相似文献
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利用肌苷发酵废液生产单细胞蛋白的研究 总被引:1,自引:0,他引:1
我国在利用微生物降解酒精废液、造纸厂废液和味精厂废液等方面已有许多报道,但是,利用肌苷发酵废液作为底物进行单细胞生产还未见报道。同时,提取肌苷后的发酵废液,其营养成份仍很丰富,其中,还原糖含量约为2%,总氮含量为300mg/L~400mg/L,以及一些无机盐。COD值高达186276mg/L。目前,一般肌苷生产厂都将废液排放掉,这不仅严重地污染了环境,而且造成很大的浪费。有鉴于此,本课题进行了菌种的筛选和驯化以及工艺方面的试验。 相似文献
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细胞内代谢反应流量在系统理解细胞代谢特性和指导代谢工程改造等方面都起着重要的作用。由于代谢流量难以直接测量得到,在很多情况下通过跟踪稳定同位素在代谢网络中的转移并进行相应的模型计算能有效地定量代谢流量。代谢流量比率分析法能够高度体现系统的生物化学真实性、辨别细胞代谢网络的拓扑结构,并且能够相对简单快速地定量反应速率等,因此受到代谢工程研究者越来越多的重视。以下着重介绍并讨论了利用代谢物同位体分布信息分析关键代谢节点合成途径的流量比率、基于流量比率的代谢流量解析、以及应用于代谢工程等的相关原理、实验测量、数据分析、使用条件等,以期充分发挥代谢流量比率分析法的优势,并将其拓展推广至更多细胞体系的代谢特性阐明和代谢工程改造中去。 相似文献
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Two new concepts, \"Limitation Potential\" and \"Constraint Limitation Sensitivity\" are introduced that use definitions derived from metabolic flux analysis (MFA) and metabolic network analysis (MNA). They are applied to interpret a measured flux distribution in the context of all possible flux distributions and thus combine MFA with MNA. The proposed measures are used to quantify and compare the influence of intracellular fluxes on the production yield. The methods are purely based on the stoichiometry of the network and constraints that are given from irreversible fluxes. In contrast to metabolic control analysis (MCA), within this approach no information about the kinetic mechanisms are needed. A limitation potential (LP) is defined as the reduction of the reachable (theoretical) maximum by a measured flux. Measured fluxes that strongly narrow the reachable maximum are assumed to be limiting as the network has no ability to counterbalance the restriction due to the observed flux. In a second step, the sensitivity of the reduced maximum is regarded. This measure provides information about the necessitated changes to reach higher yields. The methods are applied to interpret the capabilities of a network based on measured fluxes for a L-phenylalanine producer. The strain was examined by a series of experiments and three flux maps of the production phase are analyzed. It can be shown that the reachable yield is drastically reduced by the measured efflux into the TCA cycle, while the oxidative pentose-phosphate pathway only plays a secondary role on the reachable maximum. 相似文献
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代谢网络定量分析研究进展 总被引:3,自引:0,他引:3
综述了代谢工程中代谢控制分析、代谢通量分析、生化系统理论、途径分析、控制论模型等定量分析方法的基本理论,以实例说明了这些方法的应用,并对代谢分析方法的发展进行了展望。 相似文献
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Constraint-based flux analysis has been widely used in metabolic engineering to predict genetic optimization strategies. These methods seek to find genetic manipulations that maximally couple the desired metabolites with the cellular growth objective. However, such framework does not work well for overproducing chemicals that are not closely correlated with biomass, for example non-native biochemical production by introducing synthetic pathways into heterologous host cells. Here, we present a computational method called OP-Synthetic, which can identify effective manipulations (upregulation, downregulation and deletion of reactions) and produce a step-by-step optimization strategy for the overproduction of indigenous and non-native chemicals. We compared OP-Synthetic with several state-of-the-art computational approaches on the problems of succinate overproduction and N-acetylneuraminic acid synthetic pathway optimization in Escherichia coli. OP-Synthetic showed its advantage for efficiently handling multiple steps optimization problems on genome wide metabolic networks. And more importantly, the optimization strategies predicted by OP-Synthetic have a better match with existing engineered strains, especially for the engineering of synthetic metabolic pathways for non-native chemical production. OP-Synthetic is freely available at:http://bioinfo.au.tsinghua.edu.cn/member/xwwang/OPSynthetic/. 相似文献
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Rodrigo Ledesma‐Amaro Rubén M. Buey José Luis Revuelta 《Biotechnology and bioengineering》2016,113(9):2060-2063
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Jorge Dinamarca Orly Levitan G. Kenchappa Kumaraswamy Desmond S. Lun Paul G. Falkowski 《Journal of phycology》2017,53(2):405-414
Under nutrient deplete conditions, diatoms accumulate between 15% to 25% of their dry weight as lipids, primarily as triacylglycerols (TAGs). As in most eukaryotes, these organisms produce TAGs via the acyl‐CoA dependent Kennedy pathway. The last step in this pathway is catalyzed by diacylglycerol acyltransferase (DGAT) that acylates diacylglycerol (DAG) to produce TAG. To test our hypothesis that DGAT plays a major role in controlling the flux of carbon towards lipids, we overexpressed a specific type II DGAT gene, DGAT2D, in the model diatom Phaeodactylum tricornutum. The transformants had 50‐ to 100‐fold higher DGAT2D mRNA levels and the abundance of the enzyme increased 30‐ to 50‐fold. More important, these cells had a 2‐fold higher total lipid content and incorporated carbon into lipids more efficiently than the wild type (WT) while growing only 15% slower at light saturation. Based on a flux analysis using 13C as a tracer, we found that the increase in lipids was achieved via increased fluxes through pyruvate and acetyl‐CoA. Our results reveal overexpression of DAGT2D increases the flux of photosynthetically fixed carbon towards lipids, and leads to a higher lipid content than exponentially grown WT cells. 相似文献
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The impact of temperature-induced synthesis of human basic fibroblast growth factor (hFGF-2) in high-cell-density cultures of recombinant Escherichia coli was studied by estimating metabolic flux variations. Metabolic flux distributions in E. coli were calculated by means of a stoichiometric network and linear programming. After the temperature upshift, a substantially elevated energy demand for synthesis of hFGF-2 and heat shock proteins resulted in a redirection of metabolic fluxes. Catabolic pathways like the Embden-Meyerhof-Parnas pathway and the tricarboxylic acid (TCA) cycle showed significantly enhanced activities, leading to reduced flux to growth-associated pathways like the pentose phosphate pathway and other anabolic pathways. Upon temperature upshift, an excess of NADPH was produced in the TCA cycle by isocitrate dehydrogenase. The metabolic model predicted the involvement of a transhydrogenase generating additional NADH from NADPH, thereby increasing ATP regeneration in the respiratory chain. The influence of the temperature upshift on the host's metabolism was investigated by means of a control strain harboring the \"empty\" parental expression vector. The metabolic fluxes after the temperature upshift were redirected similarly to the production strain; the effects, however, were observed to a lesser extent and with different time profiles. 相似文献
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Zhuangrong Huang Dong‐Yup Lee Seongkyu Yoon 《Biotechnology and bioengineering》2017,114(12):2717-2728
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13C代谢流量分析(13C metabolic flux analysis,13C-MFA),是通过标记实验分析蛋白氨基酸或胞内代谢物同位素标记异构体的分布情况,从而准确定量胞内反应速率.该技术在系统理解细胞代谢特性、指导代谢工程改造和揭示病理生理学等方面起着重要作用,引起研究者的广泛重视.文中重点综述了代谢流分析30... 相似文献