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1.
耐温性L-谷氨酸发酵菌种的选育   总被引:1,自引:0,他引:1  
应用基因组改组技术提高,L-谷氨酸生产菌在高温发酵条件下的谷氨酸产量。以天津短杆菌T6—13变异株SW07-1为原始亲株,分别经紫外线(UV)-硫酸二乙酯(DES)和X射线诱变,获得5株耐温性能略有提高的突变菌株。经2轮基因组改组,获得耐高温(能在44℃生长)的L-谷氨酸菌株F2-50。F2—50在38℃下,摇瓶发酵40h,发酵液中L-谷氨酸浓度比原始出发菌株提高了近41%,在41℃高温下,摇瓶发酵40h,L-谷氨酸浓度比原始出发菌株提高了近2倍。  相似文献   

2.
微生物发酵法是目前生产L-赖氨酸最主要的方法。L-赖氨酸生物合成存在两个完全不同的途径:二氨基庚二酸途径和a-氨基己二酸途径;分别由不同的酶进行调节,控制L-赖氨酸的合成。笔者概述了L-赖氨酸生产方法、生物合成途径以及合成中关键性酶的调节作用和国内外L-赖氨酸生产菌育种方法的研究进展。  相似文献   

3.
用L-赖氨酸产生株纯齿棒状杆菌PI-3-2(Hsc-,AEC+)在8L自控发酵小罐上,用恒稀释率指数递增方式连续补加葡萄糖液进行L-赖氨酸分批发酵的研究。结果表明,一次投糖分批发酵时,较高糖浓度使比产酸速率Qp值下降,不能有效地提高产酸水平。采用连续补糖方式可以改变菌体竞争底物的能力或改善代谢途径,增大耗底物分数a2或真正产酸率yp,;从而增加表观产酸率Yp值,提高葡萄糖转化率。此方式的发酵属Caden动力学分类第I型,在发酵的中后期控制H等条件,可增加比产酸速率Qp值,提高发酵水平。PI-3-2菌株的产酸水平可由47.Mg/ml提高到64.2mg/ml(总糖浓度18.18%时),避离可达73.3mg/m1(总糖浓度22.73mg/ml时)。  相似文献   

4.
L-谷氨酸是目前产量最大的氨基酸品种,也是我国生产规模最大的生物发酵产品。随着合成生物技术以及新型生产装备和技术的发展,国内L-谷氨酸菌种和生产技术近年来取得了明显的提升。本文从L-谷氨酸产业的现状分析和关键技术创新需求的角度出发,概述了L-谷氨酸菌种和生产技术的研究进展,介绍了近年来L-谷氨酸生产关键技术的创新开发和产业应用的进展。  相似文献   

5.
基于稳健性设计优化L-赖氨酸发酵过程   总被引:1,自引:0,他引:1  
目的:选择发酵系统中各可控因素的最佳水平组合,从而减少各种干扰的影响,以获得稳健的赖氨酸产量。方法:利用田口法的内外表与Box性能规则优化赖氨酸发酵条件。结果:通过实验得知,转速、硫酸铵和葡萄糖浓度对发酵影响较大;结果稳定的最优发酵条件为初始葡萄糖浓度为80g/L、硫酸铵浓度为42g/L、转速为225r/min、初始pH值为6.7、接种量为8%。经实验验证,最优化发酵条件是低灵敏度的,最优目标值比较稳健。在10L自动发酵罐上培养65h,L-赖氨酸盐酸盐的产量为165.68g/L,比优化前提高了12.4%。结论:基于稳健性设计所得的最优发酵条件参数,可使目的产物产量稳定,便于生产操作。  相似文献   

6.
L-赖氨酸的应用、生产及市场展望   总被引:8,自引:0,他引:8  
论述了L -赖氨酸的性质、应用及生产方法 ,并对国内外L -赖氨酸的生产消费现状和市场前景进行了分析  相似文献   

7.
谷氨酸棒杆菌TL1105的L-组氨酸生物合成途径分析   总被引:1,自引:0,他引:1  
目的:对谷氨酸棒杆菌TL1105由葡萄糖生物合成L-组氨酸的代谢途径进行分析,以确定L-组氨酸合成的最佳途径和最大理论产率。方法:运用METATOOL软件对谷氨酸棒杆菌TL1105合成L-组氨酸进行途径分析。结果:确定了L-组氨酸合成的最佳途径,并确定最大理论产率为1.2;通过比较途径分析所获得的基础反应模型,确定了5-磷酸核糖焦磷酸是L-组氨酸合成途径的关键节点,并且确定了谷氨酸的大量合成是L-组氨酸合成的重要前提;添加谷氨酸,L-组氨酸的产量提高了39.2%。结论:以途径分析为指导,改变外界环境因子,L-组氨酸的产量得到显著的提高。  相似文献   

8.
以高产L-谷氨酸的谷氨酸棒杆菌GY1为研究对象,采用ARTP进行全局诱变,进一步提高L-谷氨酸的发酵水平。首先,对谷氨酸棒杆菌GY1原生质体的制备及再生条件进行优化,接着,根据致死率选择最佳的ARTP处理时间,然后,采用96微孔板及摇瓶发酵的方式对突变株进行筛选,最后,对获得的优良突变株进行50 L罐发酵验证。结果显示,溶菌酶浓度为10.0 mg/mL,酶解90 min,原生质体形成率和再生率达到最佳。ARTP最佳处理时间为40 s,致死率达到89.6%,经过初筛与摇瓶复筛,获得突变株YAG117,其摇瓶发酵L-谷氨酸含量达16.3 g/L,较出发菌株提高13.9%,且连续传代五代遗传稳定。50 L补料分批发酵条件下,L-谷氨酸产量在36 h最高,达到216.6 g/L,较出发菌株提高12.9%,糖酸转化率达68.87%,比出发菌株提高了10.2%。ARTP处理GY1菌株原生质体,能够有效积累有利突变,提高突变株发酵生产L-谷氨酸的能力,获得的突变株YAG117也显示了较好的工业化应用潜力。  相似文献   

9.
以谷氨酸棒杆菌(Corynebacterium glutamicum) SYPS-062基因组DNA为模板,扩增得到L-丝氨酸脱水酶(L-SerDH)的编码基因sdaA。将其克隆到表达载体pET-28a(+),并在E.coli BL21(DE3)中诱导表达,对纯化的L-SerDH进行了酶活测定,并与来自C.glutamicum ATCC13032的重组L-SerDH进行了比较,结果显示,两种不同菌株来源的重组L-SerDH降解L-丝氨酸的酶比活力差异并不显著。在此基础上敲除菌株SYPS-062 的sdaA基因,探讨该基因对C.glutamicum SYPS-062生长及产酸的影响。通过构建自杀型重组质粒pK18mobsacB-△sdaA,电击转入C.glutamicum SYPS-062中,以同源重组的方式获得了sdaA基因缺失突变株,并用PCR方法对突变株C.glutamicum SYPS-062△sdaA进行了验证。与出发菌株相比,突变菌株生长缓慢,单位菌体L-丝氨酸的产量(YP/X)提高了15.13%。  相似文献   

10.
利用L-谷氨酸氧化酶(LGOX),对酶法转化L-谷氨酸生产α-酮戊二酸(α-KG)的工艺条件进行了研究。首先对野生菌链霉菌Streptomyces sp.FMME066进行亚硝基胍诱变,获得一株遗传性状稳定的突变株Streptomyces sp.FMME067;突变株在最优培养基(g/L):果糖10,蛋白胨7.5,KH2PO4 1,CaCl2 0.05条件下,LGOX酶活为0.14 U/mL。LGOX的生化特征为最适pH 8.5、温度35℃,Mn2+是激活剂。对LGOX转化L-谷氨酸生产α-KG的条件进行优化,在最优条件下转化24 h,α-KG产量为38.1 g/L,转化率为81.4%。研究结果为开发LGOX酶法转化生产α-KG的工业化奠定了坚实的基础。  相似文献   

11.
淡水鱼内脏蛋白质的营养评价   总被引:2,自引:0,他引:2  
淡水鱼内脏蛋白质占干物质的23%以上。其赖氨酸含量高(7.6%),含硫氨基酸为第一限制氨基酸,氨基酸组成模式较平衡。鱼内脏蛋白的蛋白质功效比(PER)为2.0,净蛋白质比(NPR)为2.27.鱼内脏蛋白与羽毛粉蛋白、血粉蛋白以5:3:2混合,对大鼠生长有较好的增重作用,混合蛋白的PER和NPR分别为2.27和2.65,较鱼内脏蛋白有所提高。  相似文献   

12.
L-苏氨酸与L-赖氨酸是L-天冬氨酸家族氨基酸(AFAAs)中的重要成员,近年来由于其在食品、化妆品、动物饲料添加剂等方面的广泛应用而备受关注,市场需求逐年上升。运用代谢工程手段构建高产菌,可有效地提高L-苏氨酸和L-赖氨酸的生产水平。本文详述了L-苏氨酸与L-赖氨酸的合成途径、调控机制以及两种氨基酸高产菌株的构建策略。  相似文献   

13.
The endogenous neuropeptide N-acetyl-L-aspartyl-L-glutamate (NAAG) fulfills several criteria required to be accepted as a neurotransmitter. NAAG inactivation may proceed through enzymatic hydrolysis into N-acetyl-L-aspartate and glutamate by an N-acetylated-alpha-linked acidic dipeptidase (NAALADase). Therefore, some properties of NAALADase activity were investigated using crude membranes from the rat forebrain. Kinetic parameters of the hydrolysis of [Glu-3H]NAAG were determined first (Km = 0.40 +/- 0.05 microM; Vmax = 155 +/- 20 pmol/min/mg of protein). The enzymatic activity, i.e., NAALADase, was inhibited noncompetitively by the glutamatergic agonist quisqualate (Ki = 1.9 +/- 0.3 microM), and competitively by N-acetyl-L-aspartyl-beta-linked L-glutamate (beta-NAAG; Ki = 0.70 +/- 0.05 microM). To determine whether glutamate-containing dipeptides, such as NAAG, beta-NAAG, N-acetyl-L-aspartyl-D-glutamate, L-aspartyl-L-glutamate, L-alanyl-L-glutamate, L-glutamyl-L-glutamate, and L-glutamyl-gamma-linked L-glutamate, were substrates of NAALADase, rat brain membranes were immobilized on a C-8 column. Thus, endogenous trapped glutamate was washed away and formation of unlabelled glutamate could be estimated using an o-phthaldialdehyde/reverse-phase HPLC detection procedure. beta-NAAG was shown to be a nonhydrolyzable competitive inhibitor of NAALADase. L-Aspartyl-L-glutamate was hydrolyzed faster than NAAG, suggesting that the acetylated moiety is not essential for NAALADase specificity. Rat brain membranes also contained nonspecific peptidase activities (insensitive to both quisqualate and beta-NAAG), which, in the case of L-alanyl-L-glutamate, for instance, accounted for all observed hydrolysis.  相似文献   

14.
This review summarizes data on the properties of L-lysine -oxidase, an enzyme that belongs to the group of oxidases of L-amino acids. This enzyme acts virtually only on L-lysine with a rather low K m yielding -keto--aminocaproic acid. The decrease in the level of the essential amino acid L-lysine and the formation of hydrogen peroxide during the reaction possibly provide the basis for the unique properties of L-lysine -oxidase: cytotoxic, antitumor, antimetastatic, antiinvasive, antibacterial, and antiviral activities, as well as an immunomodulating effect. Native L-lysine -oxidase and its immobilized forms are promising tools for determination of concentration of L-lysine in various biological materials.  相似文献   

15.
An automated method for rapid and convenient measurement of L-glutamate has been developed by using a discrete analyzer, EEL Auto Chemist. It is based on the colorimetric measurement of NADH produced on a mole-mole basis by enzymatic dehydrogenation of L-glutamate using L-glutamate dehydrogenase from bovine liver. The values of L-glutamate obtained by this method were well agreed with those obtained by the routine Waruburg mano-metric method using L-glutamate decarboxylase from Escherichia coli.  相似文献   

16.
L-谷氨酸氧化酶的研究进展   总被引:1,自引:0,他引:1  
L-谷氨酸氧化酶(L-glutamate oxidase,GLOD)是一种以FAD为辅基的黄素蛋白酶类,可以专一性地氧化谷氨酸生成过氧化氢、氨和α-酮戊二酸,广泛应用于食品、医药、发酵等领域。从谷氨酸氧化酶的微生物来源、酶学性质、发酵条件、分离纯化及分析应用等方面进行阐述,并对其研究前景进行展望。  相似文献   

17.
The enzyme involved in the reduction of Δ 1-piperideine-6-carboxylate (P6C) to L-pipecolic acid (L-PA) has never been identified. We found that Escherichia coli JM109 transformed with the lat gene encoding L-lysine 6-aminotransferase (LAT) converted L-lysine (L-Lys) to L-PA. This suggested that there is a gene encoding “P6C reductase” that catalyzes the reduction of P6C to L-PA in the genome of E. coli. The complementation experiment of proC32 in E. coli RK4904 for L-PA production clearly shows that the expression of both lat and proC is essential for the biotransformation of L-Lys to L-PA. Further, We showed that both LAT and pyrroline-5-carboxylate (P5C) reductase, the product of proC, were needed to convert L-Lys to L-PA in vitro. These results demonstrate that P5C reductase catalyzes the reduction of P6C to L-PA. Biotransformation of L-Lys to L-PA using lat-expressing E. coli BL21 was done and L-PA was accumulated in the medium to reach at an amount of 3.9 g/l after 159 h of cultivation. It is noteworthy that the ee-value of the produced pipecolic acid was 100%.  相似文献   

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