排序方式: 共有25条查询结果,搜索用时 15 毫秒
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从产L-丝氨酸菌株假单胞菌N-13中纯化了丝氨酸羟甲基转移酶,并对其性质进行了研究.结果表明,丝氨酸羟甲基转移酶酶活力在pH=7.0~9.0间稳定,最适宜pH=8.0;酶的最适温度为35℃,在30~40℃水浴30 min酶活力未见明显下降.磷酸吡哆醛的最适添加浓度为25 μmol·L-1.研究了不同金属离子对酶活力的影... 相似文献
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以一株黄假单胞属(Pseudomonas flava)菌株A3为出发菌株,经过紫外(UV)诱变和硫酸二乙酯(DES)逐级诱变处理和选育,选育出一株能够以甲醇为唯一碳源的兼性甲基营养型菌JW-01(MthR、GlyR)。在含甘氨酸30g/L、甲醇1%的发酵培养基中发酵3d后L-丝氨酸产量为6.2g/L,较出发菌株提高了67.6%。该菌具有较好的传代稳定性。 相似文献
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以一株由自然界筛选获得的能够利用糖质原料直接产L-丝氨酸的谷氨酸棒杆菌Corynebacterium glutamicum SYPS-062为研究对象,考察了一碳单元循环中的辅因子—叶酸和维生素B12对菌株生长、蔗糖消耗及L-丝氨酸生成的影响,同时对处于对数生长期的菌株进行了代谢流量分析。结果发现,添加扰动因子叶酸和维生素B12对磷酸戊糖途径(HMP)碳流影响较大,碳源主要用于细胞生长及合成能量,而流向目的产物L-丝氨酸的碳流减少。同时在添加维生素B12时,增大了G3P节点的L-丝氨酸合成途径的分流比,但造成三羧酸循环(TCA)的流量不足,需要大量回补,从而限制了产物合成速率的进一步提高。 相似文献
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维生素对谷氨酸棒杆菌SYPS-062直接发酵合成L-丝氨酸的影响 总被引:3,自引:1,他引:2
研究了VB1,生物素,VB6,VB2,叶酸和VB12对一株谷氨酸棒杆菌(Corynebacterium glutamicum)SYPS-062直接利用糖质原料发酵生产L-丝氨酸的影响,并且初步分析了这几种维生素对菌株SYPS-062发酵积累L-丝氨酸的调控机制。添加一定量的生物素,VB1和VB6表现出对L-丝氨酸积累分别为35%,28%和11%的促进;添加VB2实现了L-丝氨酸和生物量的等幅提高;而叶酸和VB12则通过促进菌株SYPS-062中1C单元循环的效率使L-丝氨酸的积累量分别提高了39%和82%,并且实现了产物转化率(YP/S)及单位细胞产率(YP/X)的显著提高。将六种维生素在其分别的最优浓度下复配,添加在发酵培养基中,结果发现发酵周期有6 h左右的缩短,并且达到的最大生物量及L-丝氨酸的积累分别为11 g/L和9.0 g/L。 相似文献
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L-丝氨酸生产菌的选育及不同碳源对发酵的影响 总被引:2,自引:0,他引:2
以一株黄假单胞属(Pseudomonas flava)菌株A3为出发菌株,经过紫外(UV)诱变和硫酸二乙酯(DES)逐级诱变处理和选育,选育出一株能够以甲醇为唯一碳源的兼性甲基营养型菌JW-01(Mth~R、Gly~R)。在含甘氨酸30g/L、甲醇1%的发酵培养基中发酵3d后L-丝氨酸产量为6.2g/L,较出发菌株提高了67.6%。该菌具有较好的传代稳定性。 相似文献
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从广西隆安县沼气池里的残渣中筛选到一株能以甲醇为唯一碳源生长的MB200菌株。根据常规形态特征、生理生化性状及16S rDNA基因序列分析将其鉴定为甲基杆菌属(M ethylobacteriumsp.)。其最佳生长条件为:温度32℃、pH值8.0、甲醇体积分数1.25%。建立了MB200生成L-丝氨酸的静息细胞培养系统。确定静息细胞培养的条件为:甘氨酸质量浓度为10 g.L-1,甲醇50 g.L-1,菌体质量浓度为30 g.L-1,pH8.9,于摇床250 r.m in-1,32℃静息培养48 h,L-丝氨酸产量为7.2 g.L-1。 相似文献
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目的:研究L-丝氨酸对大鼠脑缺血/再灌注损伤保护作用的时间窗,并对其作用机制进行初探。方法:SD雄性大鼠随机分为假手术组、对照组、L-丝氨酸3h治疗组、6h治疗组、12h治疗组、24h治疗组。采用大脑中动脉栓塞(MCAO)建立大鼠局灶性脑缺血模型,2h后拔出栓线形成再灌注,各组分别于术后相应的时间点给予L-丝氨酸200mg/kg腹腔注射2次,对照组注射等剂量的生理盐水,所有动物再灌注后48h观测神经行为学评分、脑梗死体积。另取假手术组、对照组、L-丝氨酸6h治疗组,分别测定MCAO后脑内超氧化物歧化酶(SOD)活性、丙二醛(MDA)含量,炎症细胞因子TNF-α、IL-6水平以及观察细胞超微结构改变。结果:与对照组相比,术后3h、6h给予L-丝氨酸治疗能显著降低大鼠神经行为学评分,减少脑梗死体积(P〈0.01或P〈0.05),12h仅能降低神经行为学评分(P〈0.05),而24h与对照组间均无差异;L-丝氨酸能提高MCAO后脑内SOD活性,降低MDA以及TNF-α、IL-6的水平,同时改善细胞超微结构。结论:在一定时间窗内,L-丝氨酸对大鼠MCAO具有明显的神经保护作用,其机制可能与降低氧自由基损伤,减轻炎症反应有关。 相似文献
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Darya V. Urusova Michail N. IsupovSvetlana Antonyuk Galina S. KachalovaGalina Obmolova Alexei A. VaginAndrey A. Lebedev Gleb P. BurenkovZbigniew Dauter Hans D. BartunikVictor S. Lamzin William R. Melik-AdamyanThomas D. Mueller Klaus D. Schnackerz 《Biochimica et Biophysica Acta - Proteins and Proteomics》2012,1824(3):422-432
D-Serine dehydratase from Escherichia coli is a member of the β-family (fold-type II) of the pyridoxal 5′-phosphate-dependent enzymes, catalyzing the conversion of D-serine to pyruvate and ammonia. The crystal structure of monomeric D-serine dehydratase has been solved to 1.97 Å-resolution for an orthorhombic data set by molecular replacement. In addition, the structure was refined in a monoclinic data set to 1.55 Å resolution. The structure of DSD reveals a larger pyridoxal 5′-phosphate-binding domain and a smaller domain. The active site of DSD is very similar to those of the other members of the β-family. Lys118 forms the Schiff base to PLP, the cofactor phosphate group is liganded to a tetraglycine cluster Gly279-Gly283, and the 3-hydroxyl group of PLP is liganded to Asn170 and N1 to Thr424, respectively. In the closed conformation the movement of the small domain blocks the entrance to active site of DSD. The domain movement plays an important role in the formation of the substrate recognition site and the catalysis of the enzyme. Modeling of D-serine into the active site of DSD suggests that the hydroxyl group of D-serine is coordinated to the carboxyl group of Asp238. The carboxyl oxygen of D-serine is coordinated to the hydroxyl group of Ser167 and the amide group of Leu171 (O1), whereas the O2 of the carboxyl group of D-serine is hydrogen-bonded to the hydroxyl group of Ser167 and the amide group of Thr168. A catalytic mechanism very similar to that proposed for L-serine dehydratase is discussed. 相似文献
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The photorespiratory enzyme L-serine:glyoxylate amino- transferase (SGAT; EC 2.6.1.45) was purified from Arabidopsis thaliana leaves. The f'mal enzyme was approximately 80 % pure as revealed by sodium dodecyl sulfatepolyacrylamide gel electrophoresis with silver staining. The identity of the enzyme was confirmed by LC/MS/MS analysis. The molecular mass estimated by gel filtration chromato- graphy on Sephadex G-150 under non-denaturing conditions, mass spectrometry (matrix-assisted laser desorption/ ionization/time of flight technique) and sodium dodecyl sulfate-polyacrylamide gel electrophoresis was 82.4 kDa, 42.0 kDa, and 39.8 kDa, respectively, indicating dimer as the active form. The optimum pH value was 9.2. The enzyme activity was inhibited by aminooxyacetate and β-chloro-L-alanine both compounds reacting with the carbonyl group of pyridoxal phosphate. The enzyme's transaminating activity with L-alanine and glyoxylate as substrates was approximately 55 % of that observed with L-serine and glyoxylate. The lower Kmvalue (1.25 mM) for L-alanine, compared with that of other plant SGATs, and the kcat/Km(Ala) ratio being approxi- mately 2-fold higher than kcat/Km(Ser) suggested that, during photorespiration, Ala and Ser are used by Arabidopsis SGAT with equal efficiency as amino group donors for glyoxylate. The equilibrium constant (Keq), derived from the Haldane relation, for the transamination reaction between L-serine and glyoxylate with the formation of hydroxypyruvate and glycine was 79.1, strongly favoring glycine synthesis. However, it was accompanied by a low Km value of 2.83 mM for glycine. A comparison of some kinetic properties of the studied enzymes with the recombinant Arabidopsis SGATs previously obtained revealed substantial differences. The ratio of the velocity of the transamination reaction with L-alanine and glyoxylate as substrates versus that with L-serine and glyoxylate was 1:1.8 for the native enzyme, whereas it was 1:7 for the recombinant SGAT. Native SGAT showed a much lower Km value for L-alanine compared to the recombinant enzyme. 相似文献