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1.
Summary Eleven microbial strains were tested for their ability to produce xylonic acid from xylose. The production of xylonic acid by one of the strains,Pseudomonas fragi ATCC 4973, was further studied in laboratory fermenter scale. The yield of xylonic acid was 92 % of original sugar. Xylonic acid production seemed to be growth associated and it was found to be very sensitive to the decrease of pH.  相似文献   

2.
Summary Previously steam explosion had been used to enhance the enzymatic hydrolysis of lignocellulosic substrates to glucose. The conditions for pretreating aspen wood chips were optimized so that highest amounts of undegraded hemicellulose could be obtained after washing the steam exploded chips. The hemicellulose rich water soluble fractions showing highest pentosan yields were then acid hydrolysed to their composite sugars. Approximately 65–75% of the total reducing sugars detected in the wood hydrolysates were in the form of monosaccharides with D-xylose being the major component. Klebsiella pneumoniae was grown in media containing these wood hydrolysates as the substrate and 2,3-butanediol yields of 0.4–0.5 g per g of monosaccharide utilised were obtained.  相似文献   

3.
【背景】D-1,2,4-丁三醇(D-1,2,4-butanetriol,BT)是一种重要的四碳多元醇,应用范围广,以木糖为底物的四步生化反应是目前最高效的BT生物合成路线。但大肠杆菌宿主存在严重的碳代谢抑制,限制了工程菌在木糖葡萄糖混合糖下的生长和BT合成。然而克雷伯氏菌具有生长速度更快、葡萄糖木糖混合糖利用效果好等优点。【目的】在碳代谢抑制效应较弱的克雷伯氏菌中构建以木糖为底物的BT合成途径,以提高混合糖下BT合成能力。【方法】将来源于Clostridium crescenti的木糖脱氢酶基因xdh和来源于Lactococcus lactis的2-酮异戊酸脱羧酶基因kivD及来源于Escherichia coli W3110的木糖酸脱水酶基因yjhG克隆至KlebsiellapneumoniaeZG25,得到重组菌K.pneumoniae ZG25-BT,对重组菌进行培养条件和培养基优化,进一步敲除xylA以提高BT产量。【结果】在37°C、200 r/min、接种量1%、诱导时间2 h、添加10.0 g/L CaCO3控制pH条件下,敲除xylA的重组菌在1.5倍LB培养基中以30.0 g/L木糖和10.0 g/L葡萄糖为底物,BT的产量达到4.52 g/L,摩尔转化率为0.21mol/mol,收率为15%,较优化前分别提高150%、62%和67%。【结论】实现了BT在K.pneumoniaeZG25中的发酵生产,同时通过培养条件和培养基的优化及xylA的敲除提高了BT合成能力,为进一步实验奠定了基础。  相似文献   

4.
Klebsiella pneumoniae H12 produced a newly identified extracellular polysaccharide in an ethanol medium with a yield of 3.0 g/l. The molar composition of the polysaccharide was 56.04% galactose, 25.92% glucose, 10.92% galacturonic acid, 3.71% mannose, and 3.37% glucuronic acid. The addition of 0.5%-1.5% NaCl increased production. The polysaccharide flocculated with kaolin clay in suspension at the concentration of 1 ppm in a 300-ppm solution of CaCl2. Almost all bacterial species cells aggregated in the polysaccharide solution. The ability to flocculate with kaolin clay changed with the pH and with the concentrations of coexisting cation and anion species. The polysaccharide flocculant may participate in in vivo bacterial aggregation or adherence to host organisms.  相似文献   

5.
Cheng KK  Zhang JA  Liu DH  Sun Y  Yang MD  Xu JM 《Biotechnology letters》2006,28(22):1817-1821
Broth containing 152 g glycerol l−1 from Candida krusei culture was converted to 1,3-propanediol by Klebsiella pneumoniae. Residual glucose in the broth promoted growth of K. pneumoniae while acetate was inhibitory. After desalination treatment of glycerol broth by electrodialysis, the acetate in the broth was removed. A fed-batch culture with electrodialytically pretreated broth as␣substrate was developed giving 53 g 1,3- propanediol l−1 with a yield of 0.41 g g−1 glycerol and a productivity of 0.94 g l−1 h−1.  相似文献   

6.
Klebsiella pneumoniae CGMCC 1.6366 is a bacterium isolated for 1,3-propanediol or 2,3-butanediol production previously. K. pneumoniae ΔbudA, a 2,3-butanediol synthesis pathway truncated mutant with the gene deletion of budA which encodes alpha-acetolactate decarboxylase, was found to execrate an unknown chemical at a high titer when grown in the broth using glucose as carbon source. Later this chemical was identified to be 2-ketogluconic acid, which was formed through the glucose oxidation pathway in K. pneumoniae. It was found that 2-ketogluconic can also be produced by the wild strain. The fermentation studies showed that the production of this metabolite is strictly pH dependent, when the fermenting broth was maintained at pH 6–7, the main metabolite produced by K. pneumoniae CGMCC 1.6366 was 2,3-butanediol, or some organic acids in the budA mutated strain. However, if the cells were fermented at pH 4.7, 2-ketogluconic acid was formed, and the secretion of all other organic acids or 2,3-butanediol were limited. In the 5L bioreactors, a final level of 38.2 and 30.2 g/L 2-ketogluconic acid were accumulated by the wild type and the budA mutant K. pneumoniae, respectively, in 26 and 56 h; and the conversion ratios of glucose to 2-ketogluconic acid reached 0.86 and 0.91 mol/mol for the wild and the budA mutant, respectively.  相似文献   

7.
Catabolism of 3- and 4-hydroxyphenylacetic acid by Klebsiella pneumoniae   总被引:3,自引:0,他引:3  
Klebsiella pneumoniae catabolizes both 4-hydroxyphenylacetic acid and 3-hydroxyphenylacetic acid via meta-cleavage of 3,4-dihydroxyphenylacetic acid, ultimately yielding pyruvate and succinate. The organism can synthesize two hydroxylases catalysing 3,4-dihydroxyphenylacetic acid formation, which differ in substrate specificity, cofactor requirement, kinetics and regulation. Five enzymes sequentially involved in the catabolism of 3,4-dihydroxyphenylacetic acid are encoded on a 7 kbp fragment of the K. pneumoniae chromosome that has been isolated in a recombinant plasmid.  相似文献   

8.
The pduP gene encodes a propionaldehyde dehydrogenase (PduP) was investigated for the role in 3-hydroxypropionic acid (3-HP) glycerol metabolism in Klebsiella pneumoniae. The enzyme assay showed that cell extracts from a pduP mutant strain lacked measurable dehydrogenase activity. Additionally, the mutant strain accumulated the cytotoxic intermediate metabolite 3-hydroxypropionaldehyde (3-HPA), causing both cell death and a lower final 3-HP titer. Ectopic expression of pduP restored normal cell growth to mutant. The enzymatic property of recombinant protein from Escherichia coli was examined, exhibiting a broad substrate specificity, being active on 3-HPA. The present work is thus the first to demonstrate the role of PduP in glycerol metabolism and biosynthesis of 3-HP.  相似文献   

9.
D-Xylulose and L-xylulose were produced biologically by the oxidation of a corresponding pentitol. A Klebsiella pneumoniae mutant was constructed for the oxidation of D-arabitol to D-xylulose. This mutant constitutively synthesized the D-arabitol permease system and D-arabitol dehydrogenase but was unable to produce the D-xylulokinase of the D-arabitol pathway or the D-xylose isomerase and D-xylulokinase of the D-xylose pathway. An Erwinia uredovora mutant which constitutively synthesized a novel xylitol-4-dehydrogenase but could not synthesize L-xylulokinase was used for the oxidation of xylitol to L-xylulose. Washed cell suspensions of either mutant incubated with 0.5% pentitol would oxidize 60 to 65% of the pentitol to the corresponding ketopentose in 18 h and excrete the ketopentose into the medium. Ketopentoses were rapidly purified from the remaining pentitol by hydroxyl affinity chromatography.  相似文献   

10.
On the basis of the idea that DNA sequences encoding cell surface-exposed regions of outer membrane proteins are genus or species specific, two oligonucleotide probes which were based on the PhoE protein of Klebsiella pneumoniae were evaluated. In slot blot hybridizations and in polymerase chain reactions, no cross-hybridizations were observed with non-Klebsiella strains. When the probes were tested on 75 different K-antigen reference Klebsiella strains, 16 strains were not recognized although they did produce PhoE protein under phosphate starvation. To determine whether these 16 strains belong to (a) different species, the reference strains were also tested for the ability to produce indole and to grow at 10 degrees C and their whole-cell fatty acid patterns were analyzed by gas chromatography. A strong correlation was observed among (i) reaction with the probes, (ii) the inability to produce indole, (iii) the inability to grow at 10 degrees C, and (iv) the presence of the hydroxylated fatty acid C14:0-2OH. From these results we conclude that the two oligonucleotides are specific for the species K. pneumoniae. Furthermore, analysis of fatty acid patterns appears to be a useful tool to distinguish K. pneumoniae from other Klebsiella species.  相似文献   

11.
研究了克雷伯肺炎杆菌(Klebsiella pneumoniae)批式流加发酵生产1,3-丙二醇的发酵工艺,根据1,3-丙二醇的生产和菌体生长相关的特点,采用营养基质限制性流加的发酵工艺,通过控制氮源氯化铵以保持细胞稳定生长。结果表明:过低的氮源浓度,细胞生长受到限制,影响产物1,3-PD的合成;过高的氮源浓度,细胞比生长速率增加,但1,3-PD关于消耗甘油的得率降低,用于生长和维持代谢所消耗的甘油量增加。以0.41 g/(L·h)的氮源流加速率,残余氯化铵浓度在0.1 g/L时,转化率和生产强度最高。发酵25 h~28 h后,1,3-丙二醇最终浓度达到52.03 g/L,生产强度为2.04 g/(L·h),相对于甘油的摩尔转化率为0.66,分别比氮源限制前提高了28.0 %、35.1 %及29.4 %。通过限制性流加氯化铵,控制细胞的比生长速率,使底物甘油有效转变为发酵的目标产物1,3-PD,有效实现产物1,3-PD的高生产强度以及对甘油的高转化率。  相似文献   

12.
A gram-negative rod-shaped bacterium capable of utilizing acrylonitrile as the sole source of nitrogen was isolated from industrial sewage and identified as Klebsiella pneumoniae. The isolate was capable of utilizing aliphatic nitriles containing 1 to 5 carbon atoms or benzonitrile as the sole source of nitrogen and either acetamide or propionamide as the sole source of both carbon and nitrogen. Gas chromatographic and mass spectral analyses of culture filtrates indicated that K. pneumoniae was capable of hydrolyzing 6.15 mmol of acrylonitrile to 5.15 mmol of acrylamide within 24 h. The acrylamide was hydrolyzed to 1.0 mmol of acrylic acid within 72 h. Another metabolite of acrylonitrile metabolism was ammonia, which reached a maximum concentration of 3.69 mM within 48 h. Nitrile hydratase and amidase, the two hydrolytic enzymes responsible for the sequential metabolism of nitrile compounds, were induced by acrylonitrile. The optimum temperature for nitrile hydratase activity was 55°C and that for amidase was 40°C; both enzymes had pH optima of 8.0.Abbreviations PBM phosphate buffered medium - GC gas chromatography - GC/MS gas chromatography/mass spectrometry  相似文献   

13.
Klebsiella pneumoniae was engineered to produce 2-butanol from crude glycerol as a sole carbon source by expressing acetolactate synthase (ilvIH), keto-acid reducto-isomerase (ilvC) and dihydroxy-acid dehydratase (ilvD) from K. pneumoniae, and α-ketoisovalerate decarboxylase (kivd) and alcohol dehydrogenase (adhA) from Lactococcus lactis. Engineered K. pneumonia, ?ldhA/pBR-iBO (ilvIHilvC–ilvD–kivd–adhA), produced 2-butanol (160 mg l?1) from crude glycerol. To increase the yield of 2-butanol, we eliminated the 2,3-butanediol pathway from the recombinant strain by inactivating α-acetolactate decarboxylase (adc). This further engineering step improved the yield of 2-butanol from 160 to 320 mg l?1. This represents the first successful attempt to produce 2-butanol from crude glycerol.  相似文献   

14.
Klebsiella pneumoniae M5a1 has been shown to possess an inducible transport system for 4-hydroxyphenylacetate (4-HPA). This transport system has a Kt of 16.3 microM and a maximal velocity of 31.2 nmol/min (milligrams dry weight). The transport system has been inhibited by inhibitors of energy metabolism with a concomitant decrease in cellular ATP concentrations, and the 4-HPA binding activity has been detected in the crude shock extracts. All these observations indicate that 4-HPA uptake is an active transport which involves a periplasmic binding protein and it seems to be energized by phosphate bond energy.  相似文献   

15.
D-Xylulose and L-xylulose were produced biologically by the oxidation of a corresponding pentitol. A Klebsiella pneumoniae mutant was constructed for the oxidation of D-arabitol to D-xylulose. This mutant constitutively synthesized the D-arabitol permease system and D-arabitol dehydrogenase but was unable to produce the D-xylulokinase of the D-arabitol pathway or the D-xylose isomerase and D-xylulokinase of the D-xylose pathway. An Erwinia uredovora mutant which constitutively synthesized a novel xylitol-4-dehydrogenase but could not synthesize L-xylulokinase was used for the oxidation of xylitol to L-xylulose. Washed cell suspensions of either mutant incubated with 0.5% pentitol would oxidize 60 to 65% of the pentitol to the corresponding ketopentose in 18 h and excrete the ketopentose into the medium. Ketopentoses were rapidly purified from the remaining pentitol by hydroxyl affinity chromatography.  相似文献   

16.
Summary Xylonic acid was produced by Pseudomonas fragi ATCC 4973 on 15% xylose medium with a yield of 96% of the theoretical. In the middle of the fermentation, growth was inhibited due to formation of inhibitory xylono--lactone. The spontaneous, non-enzymatic hydrolysis of lactone accounted for only 19% of the hydrolysis demand, thus explaining the accumulation of xylonolactone in the broth. It appeared that high amounts of xylono--lactone induced xylonolactonase enzyme, which brought about the total hydrolysis of xylonolactone.  相似文献   

17.
目的观察绿原酸联合左氧氟沙星对肺炎克雷伯菌生物膜的体外抑制现象。方法收集广州市中医医院临床分离的肺炎克雷伯菌株(排除同一患者同一部位重复菌株),应用半定量结晶紫法进行生物膜形成能力测定;选取3株生物膜强阳性的菌株,采用微量肉汤稀释法,对绿原酸、左氧氟沙星用MH肉汤倍比稀释,测定两者的最低抑菌浓度;棋盘稀释法测定绿原酸与左氧氟沙星的协同抑菌浓度;建立体外生物膜模型,经药物干扰,观察药物对生物膜形态的影响。结果在62株菌中共有33株为生物膜阳性,占53.2%,绿原酸对实验菌株的MIC分别是2 048、2 048和2 048μg/mL,左氧氟沙星的MIC分别是32、64和32μg/mL,两药联合作用,部分抑菌浓度指数(FIC)是0.5、0.5和0.5,提示两药呈协同作用,经体外建模及药物干扰,镜下药物组的黑色絮状物较未处理组明显减少。结论绿原酸具有抑制肺炎克雷伯菌生物膜作用,与左氧氟沙星联合,作用效果更显著。  相似文献   

18.
19.
产1,3-丙二醇菌株的诱变和筛选   总被引:5,自引:0,他引:5  
为提高克雷伯氏肺炎杆菌产1,3-丙二醇的能力,以离子束、紫外线和氯化锂为复合诱变法,建立了产酸圈和产物耐受相结合的平板筛选方法,获得可耐受高浓度1,3-丙二醇并且副产物中乙醇含量较少的优良突变菌株2株。与出发菌株相比,两株高产突变菌株Klebsiella pneumoniae LM 03和Klebsiella pneumoniae LM05的1,3-丙二醇产量分别提高了33% 和30% ,达到66.74 g/L和65.12 g/L;乙醇产量分别降低了38% 和24% ,降低为6.59 g/L和8.05 g/L。同时测定了诱变前后还原途径中甘油脱水酶(GDHt)和1,3-丙二醇氧化还原酶(PDOR)的酶活变化,研究表明诱变对GDHt有明显的促进作用,而对PDOR的影响不明显。该诱变和筛选方法目标明确、易操作、效率高,在1,3-PD工业规模的生物法生产中将具有良好的应用价值,而且对于其他具有工业应用价值的菌株筛选工作也具有一定的借鉴意义。  相似文献   

20.
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