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41.
Realizing the importance of xylitol as a high‐valued compound that serves as a sugar substitute, a new, one step thin layer chromatographic procedure for quick, reliable, and efficient determination of xylose and xylitol from their mixture was developed. Two hundred and twenty microorganisms from the laboratory stock cultures were screened for their ability to produce xylitol from D ‐xylose. Amongst these, an indigenous yeast isolate no.139 (SM‐139) was selected and identified as Debaryomyces hansenii on the basis of morphological and biochemical characteristics and (26S) D1/D2 r DNA region sequencing. Debaryomyces hansenii produced 9.33 gL?1 of xylitol in presence of 50.0 gL?1 of xylose in 84 h at pH 5.5, 30°C, 200 rpm. In order to utilize even higher concentrations of xylose for maximum xylitol production, a xylose enrichment technique was developed. The strain of Debaryomyces hansenii was obtained through xylose enrichment technique in a statistically optimized medium containing 0.3% yeast extract, 0.2% peptone, 0.03% MgSO4.7H2O along with 1% methanol. The culture was inoculated with 6% inoculum and incubated at 30°C and 250 rpm. A yield of 0.6 gg?1 was obtained with a xylitol volumetric productivity of 0.65 g/L h?1 in the presence of 200 gL?1 of xylose although up to 300 gL?1 of xylose could be tolerated through batch fermentation. Through this technique, even higher concentrations of xylose as substrate could be potentially utilized for maximum xylitol production. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2012 相似文献
42.
Glucose repressed xylose utilization inCandida tropicalis pre-grown on xylose until glucose reached approximately 0–5 g l–1. In fermentations consisting of xylose (93 g l–1) and glucose (47 g l–1), xylitol was produced with a yield of 0.65 g g–1 and a specific rate of 0.09 g g–1 h–1, and high concentrations of ethanol were also produced (25 g l–1). If the initial glucose was decreased to 8 g l–1, the xylitol yield (0.79 g g–1) and specific rate (0.24 g g–1 h–1) increased with little ethanol formation (<5 g l–1). To minimize glucose repression, batch fermentations were performed using an aerobic, glucose growth phase followed by xylitol production. Xylitol was produced under O2 limited and anaerobic conditions, but the specific production rate was higher under O2 limited conditions (0.1–0.4 vs. 0.03 g g–1 h–1). On-line analysis of the respiratory quotient defined the time of xylose reductase induction. 相似文献
43.
Candida guilliermondii grew on the d- and l-isomers of arabinose, xylose, ribose and lyxose. Xylose reductase was extracted from xylose-grown cells and the enzyme was purified to homogeneity. The purified enzyme used NADPH as a cosubstrate, had a molecular weight of 36000 Da and pI of 4.5. It reduced the d- and l-forms of all the above pentoses. 相似文献
44.
Evaluation of xylitol production from corn cob hemicellulose hydrolysate by Candida parapsilosis 总被引:3,自引:0,他引:3
Candida parapsilosis was grown for 59 h in a medium containing corn cob hydrolysate consisting of 50 g xylose l–1, 3.0 g glucose l–1, 2.0 g arabinose l–1, and 0.9 g acetic acid l–1. A biomass of 9.1 g l–1 was produced with 36 g xylitol l–1 and 2.5 g ethanol l–1. In a medium containing 50 g xylose l–1 instead of corn cob hydrolysate, the concentrations of cells, xylitol, and ethanol were 8.6 g l–1, 33 g l–1, and 0.2 g l–1, respectively. The differences between two cultures were due to the glucose and arabinose in the corn cob hydrolysate stimulating growth and the low concentration of acetic acid stimulating xylitol production. 相似文献
45.
Analysis and optimization of a two-substrate fermentation for xylitol production using Candida tropicalis 总被引:1,自引:0,他引:1
Xylitol, a functional sweetener, was produced from xylose using Candida tropicalisATCC 13803. A two-substrate fermentation was designed in order to increase xylitol yield and volumetric productivity. Glucose
was used initially for cell growth followed by conversion of xylose to xylitol without cell growth and by-product formation
after complete depletion of glucose. High glucose concentrations increased volumetric productivity by reducing conversion
time due to high cell mass, but also led to production of ethanol, which, in turn, inhibited cell growth and xylitol production.
Computer simulation was undertaken to optimize an initial glucose concentration using kinetic equations describing rates of
cell growth and xylose bioconversion as a function of ethanol concentration. Kinetic constants involved in the equations were
estimated from the experimental results. Glucose at 32 g L−1 was estimated to be an optimum initial glucose concentration with a final xylose concentration of 86 g L−1 and a volumetric productivity of 5.15 g-xylitol L−1 h−1. The two-substrate fermentation was performed under optimum conditions to verify the computer simulation results. The experimental
results were in good agreement with the predicted values of simulation with a xylitol yield of 0.81 g-xylitol g-xylose−1 and a volumetric productivity of 5.06 g-xylitol L−1 h−1.
Received 16 June 1998/ Accepted in revised form 28 February 1999 相似文献
46.
Debaryomyces hansenii exhibited yeast-to-mycelium dimorphism in the continuous fermentation of xylose-containing media made from acid hydrolyzates of barley bran. The lower the dilution rate, the earlier the yeast-to-mycelia transition occurred. Within a selected range of dilution rates, the yeast morphology was reversibly affected by the dissolved O2: low aeration caused the transition from oval cells to hyphae, and further increases in dissolved O2 concentration resulted in recuperation of the oval shape. Under the operational conditions assayed, xylitol was the major fermentation product when the yeast was in both morphological forms, whereas the production of ethanol was increased when the yeast grew under hyphal morphology and oxygen limitation. The lower xylose consumption corresponded to the yeast-to-mycelia transition. In media made with commercial sugars (xylose or glucose), the yeast-to-mycelia transition was induced by adding selected amounts of acid-soluble lignin. 相似文献
47.
Xylitol production from aspenwood hemicellulose hydrolysate by Candida guilliermondii 总被引:3,自引:0,他引:3
The production of xylitol by the yeast Candida guilliermondii was investigated in batch fermentations with aspenwood hemicellulose hydrolysate and compared with results obtained in semi-defined media with a mixture of glucose and xylose. The hemicellulose hydrolysate had to be supplemented by yeast extract and the maximum xylitol yield (0.8 g g–1) and productivity (0.6 g l–1 h–1) were reached by controlling oxygen input. 相似文献
48.
代谢工程改善野生酵母利用木糖产乙醇的性能 总被引:1,自引:0,他引:1
从256个自然样品中筛选得到1株可高效转化D-木糖的酵母。通过生理生化和分子生物学方法鉴定, 证实该菌株是属于Candida tropicalis。以该酵母为研究对象, 增加木糖醇脱氢酶表达量, 通过改变代谢流以达到提高酒精产率的目的。以pXY212-XYL2质粒为基础载体, 构建了含有潮霉素抗性的pYX212-XYL2-Hygro, 电击转化进入野生型C. tropicalis, 潮霉素抗性筛选, 得到含高拷贝木糖醇脱氢酶基因的重组菌株C. tropicalis XYL2-7。重组菌的比酶活达到0.5 u/mg protein, 比原始菌株提高了3倍。实验表明, 重组菌木糖醇得率比原始菌株降低了3倍, 酒精得率提高了5倍。首次通过实验验证了热带假丝酵母利用木糖产乙醇的可行性, 这对研究酵母利用秸秆、麦糠、谷壳等纤维质农业废弃物生产燃料乙醇具有重要启示。 相似文献
49.
AIMS: To inhibit xylitol dehydrogenase (XDH) in Trichoderma reesei by antisense inhibition strategy and construct novel strains capable of accumulating xylitol. METHODS AND RESULTS: The xdh1 antisense expression plasmid pGTA-xdh was constructed by inserting xdh1 DNA fragment inversely between the gpdA promoter and the trpC terminator from Aspergillus nidulans into a pUC19 plasmid backbone. Trichoderma reesei protoplasts were co-transformated with pGTA-xdh and hygromycin B resistance plasmid pAN7-1. Of 20 transformants screened from the selective medium, one transformant with the highest xylitol accumulation, designated ZY15, showed a distinct reduction (c. 52%) in XDH activity compared with the original strain Rut-C30. The results of Southern hybridization and PCR assay showed that the antisense expression cassette of xdh1 was integrated into the genome of T. reesei. The RT-PCR analysis proved that antisense RNA effectively inhibited XDH expression (c. 65%). Xylitol accumulation (2.37 mg ml(-1)) of ZY15 was five times higher than that (0.46 mg ml(-1)) of the original strain Rut-C30. CONCLUSIONS: Strain ZY15 successfully downregulated XDH production and exhibited xylitol accumulation in xylose liquid medium. SIGNIFICANCE AND IMPACT OF THE STUDY: This study contributed to the budding field of fungal genetics in two points. First, it confirmed that antisense RNA strategy could be used as a means of reducing gene expression in the filamentous fungus T. reesei. Secondly, it verified that the strategy appears most promising for creating novel filamentous fungi strains capable of accumulating intermediary metabolites. 相似文献
50.
一株高效利用木糖的酵母菌的分离及鉴定 总被引:3,自引:0,他引:3
从256个自然试样中筛选到1株高效转化D-木糖为木糖醇的酵母菌株441-28—1。初始木糖质量浓度为90g/L的条件下,24h内的木糖利用效率为3.0g/(L·h)。通过高效液相分析,菌株441-28—1的主要代谢产物为木糖醇。在初始木糖质量浓度为65g/L的条件下,摇瓶分批发酵,木糖醇生成速率达1.1g/(L·h),木糖醇转化率为70%。经过形态、生理生化特征测定,以及ITS序列分析(GenBank的登记号为EU121523),将441-28—1菌株鉴定为热带假丝酵母(Candida tropicalis)。Candida tropicalis(热带假丝酵母)已保存于中国高校工业微生物资源数据平台,保藏编号CICIM Y0092。 相似文献