排序方式: 共有158条查询结果,搜索用时 140 毫秒
151.
152.
Two culture modes, continuous and semi-continuous, of the decolorization fungus,Geotrichum candidum Dec 1, were compared to obtain a high treatment efficiency of molasses decolorization and a large productivity of peroxidase
(DyP) to simultaneously decolorize dyes and molasses. The continuous culture ofG. candidum Dec 1 using a 5-l jar-fermentor showed high DyP activity at a low dilution ratio of 0.005h−1, and decolorization ratio of molasses of 80% was obtained concomitantly. Therefore, a semi-continuous culture was performed
by repeated refill and draw. In this mode, approximately 1.5 liters of the culture broth was replaced per cycle when the decolorization
ratio of molasses was near 80%. The molasses medium (1.0 liter per day) was treated and the peroxidase productivity in the
drawn culture broth was 26.6 U/day, whereas the peroxidase productivity was 17.9 U/day in the continuous culture with a dilution
rate of 0.005 h−1. The semi-continuous treatment system was an efficient decolorization method for the strain,G. candidum Dec 1. 相似文献
153.
154.
Vijayakumar Halaburgi 《Biocatalysis and Biotransformation》2016,34(6):265-271
A dye-decolorizing bacterium was isolated from a coconut coir sample and identified as a new genus Kerstersia sp. by various biochemical tests and 16S rRNA gene sequencing. This bacterium was capable of degrading sulfonated azo dye Amaranth aerobically at 40?°C and pH 7.0. Tests conducted on intracellular crude enzyme extract identified an oxygen insensitive azoreductase. The optimum dye-decolorizing activity at pH 7.0 and 40?°C for the decolorization of dye was 0.091?U mL?1 (μmax 0.522?mg h?1). The Ks 104.51?μM?1 has been evaluated by plotting Lineweaver–Burk plot for the Amaranth dye. The dye degraded products were extracted and characterized by TLC, diazotization and Carbylamines test, which indicated that Amaranth was biotransformed into non-toxic aromatic metabolite without amine group. 相似文献
155.
Protein-inorganic hybrid nanoflowers are new multifunctional materials shown enhanced catalytic performance. Specially, they are used as catalyst and dye decolorizer via Fenton reaction. In this study, the Myoglobin-Zn (II) assisted hybrid nanoflowers (MbNFs@Zn) were fabricated by using myoglobin and zinc (II) ions in different synthesis conditions. The optimum morphology was characterized SEM, TEM, EDX, XRD, and FT-IR. The hemisphere and uniform morphology was obtained at pH 6 and 0.1 mg mL−1. The size of MbNFs@Zn are 5–6 μm. The encapsulation yield was ∼95 %. In the presence of H2O2, the peroxidase mimic activity of MbNFs@Zn was spectrophotometrically investigated in the different pH values (4–9). The highest peroxidase mimic activity was found as 3.378 EU/mg at pH 4. MbNFs@Zn was exhibited 0.28 EU/mg after eight cycles. MbNFs@Zn has lost about 92 % of its activity. The usability of MbNFs@Zn for decolorization of azo dyes such as Congo red (CR), and Evans blue (EB) was researched at different times, temperatures and concentrations. The decolorization efficiency was found maximum as 92.3 % and 88.4 % for EB and CR dyes, respectively. MbNFs@Zn has perfect properties such as enhanced catalytic performance, high decolorization efficiency, stability and reusability, and can be excellent potential materials for many industrial applications. 相似文献
156.
Abstract In this study, the decolorization efficiency of seven microalgae isolates; Nostoc muscorum, Nostoc humifusum, Spirulina platensis, Anabaena oryzae, Wollea saccata, Oscillatoria sp. and Chlorella vulgaris was investigated for dye decolorization. The highest decolorization percentages of Brazilwood, Orange G, and Naphthol Green B dyes (99.5%, 99.5%, and 98.5%, respectively) were achieved by Chlorella vulgaris. However, the maximum efficiency for dye decolorization percentages of CV and malachite green dyes were exhibited by A. oryzae (97.4%) and W. saccata (93.3%). Ligninolytic enzymes activity assay was carried out for laccase and lignin peroxidase enzymes, which revealed a high efficiency of the C. vulgaris, A. oryzae and W. saccata to lignin containing compound degradation. The highest laccase production recorded by C. vulgaris with Brazilwood, Orange G, and Naphthol Green B dyes (665.0, 678.6, and 659.5?U/ml, respectively). Similarly, C. vulgaris gave a high lignin peroxidase enzyme production with the above three dyes respectively (306.00, 298.34, and 311.45?U/ml). In addition, A. oryzae and W. saccata showed the highest production of the laccase enzyme (634.6 and 577.45?U/ml, respectively) with CV and malachite green dyes. The degradation products have been characterized after decolorization and verified using FTIR analysis. The high decolorization percentages achieved by C. vulgaris, A. oryzae and W. saccata make them potential candidates for bioremediation and pre-processing to remove dyes from textile effluents. 相似文献
157.
Soo-Young Kim Jin-Young An Byung-Woo Kim 《Biotechnology and Bioprocess Engineering》2007,12(3):222-227
A culture of anaerobic sludge was bioaugmented withDesulfovibrio desulfuricans for the color removal of authentic textile wastewater containing a substantial amount of sulfate, in order to improve the
decolorization process. The sulfide produced by sulfate respiration ofD. desulfuricans can chemically reduce azo bonds to produce a colorless metabolite in the form of aromatic amines. In the case where the culture
of anaerobic sludge was bioaugmented withD. desulfuricans, the decolorization of C.I. Reactive Black 5 showed an increase of more than 14% after 48 h in comparison with that in the
culture of anaerobic sludge alone. In the decolorization of authentic textile wastewater, the color removal (about 69.0%)
was improved by the mixed culture of anaerobic sludge andD. desulfuricans, compared with results obtained with only anaerobic sludge as reported in our previous work, suggesting that bioaugmentation
byD. desulfuricans can be useful for the decolorization of wastewater that contains complex dye compounds and sulfate. 相似文献
158.
Nine different polysaccharides were screened for conjugation with laccase and evaluated for pH and thermal stability. All the polysaccharides decreased the thermal and pH stability of laccase at 50 °C and 60 °C, where conjugation with gum Arabic showing the most pronounced effect. Thermal instability of gum Arabic conjugated laccase was affirmed by differential scanning calorimeter while the structural changes in the conjugated laccase responsible for thermal instability was analysed by fluorescence spectrophotometer. The gum Arabic conjugated laccase showed an unusually high tolerance to sodium chloride, thermal instability and lower stability in alkaline conditions. Gum Arabic conjugated laccase was found to decolorize Remazol brilliant blue R in the textile effluent at a slower rate without any microbial growth which was unlike that observed in effluent treated with free laccase. Further, effluent treated with conjugated laccase enabled its reuse as liquor for the dyeing to get desired shade. 相似文献