Improvement of fermentative decolorization of olive mill wastewater by Lactobacillus paracasei by cheese whey's addition

The effect of the cheese whey's (CW) addition on the fermentative decolorization of olive mill wastewater (OMW) by Lactobacillus paracasei, with and without pH adjustment by lime, was investigated. Mixtures OMW/CW at different proportions were fermented. The highest colour removal (47%) and total phenolic reduction (22.7%) of OMW were obtained after cofermentation of OMW/CW at proportions of 10/90, respectively. The decrease of pH after cofermentation of the two wastewaters, induced the precipitation of whey proteins with phenolic compounds and, so, improves decolorization. These removal yields reached 64% and 34%, respectively after precipitation by adjustment of pH at 7 with lime at the end of cofermentation. These improvements were correlated to a clarification of wastewaters by precipitation of whey proteins with phenolic compounds. An enhanced decolorization (up to 93%) and a total phenolic reduction (50%) of the mixture were obtained when cofermentation sequentially pH corrected by lime addition was investigated.     

Roles of Lignin Peroxidase and Manganese Peroxidase from Phanerochaete chrysosporium in the Decolorization of Olive Mill Wastewaters

The relative contributions of lignin peroxidase (LiP) and manganese peroxidase (MnP) to the decolorization of olive mill wastewaters (OMW) by Phanerochaete chrysosporium were investigated. A relatively low level (25%) of OMW decolorization was found with P. chrysosporium which was grown in a medium with a high Mn(II) concentration and in which a high level of MnP (0.65 (mu)M) was produced. In contrast, a high degree of OMW decolorization (more than 70%) was observed with P. chrysosporium which was grown in a medium with a low Mn(II) concentration but which resulted in a high level of LiP activity (0.3 (mu)M). In this culture medium, increasing the Mn(II) concentration resulted in decreased levels of OMW decolorization and LiP activity. Decolorization by reconstituted cultures of P. chrysosporium was found to be more enhanced by the addition of isolated LiP than by the addition of isolated MnP. The highest OMW decolorization levels were obtained at low initial chemical oxygen demands combined with high levels of extracellular LiP. These data, plus the positive effect of veratryl alcohol on OMW decolorization and LiP activity, indicate that culture conditions which yield high levels of LiP activity lead to high levels of OMW decolorization.     

黄孢原毛平革菌对RBBR脱色降解及其降解机制

为研究白腐真菌对蒽醌染料的生物降解机制,以白腐真菌黄孢原毛平革菌为脱色降解菌株,分析了蒽醌染料活性艳蓝KN-R(RBBR)的浓度、金属离子及脱色参数对染料脱色的影响;采用紫外-可见光谱、红外光谱、气相色谱-质谱(GC-MS)分析和植物种子毒性实验进行降解产物分析,以揭示RBBR可能的降解路径及其产物的毒性结果表明:在p...     

Use of cheese whey to enhance <Emphasis Type="Italic">Geotrichum candidum</Emphasis> biomass production in olive mill wastewater

Geotrichum candidum is a yeast-like filamentous fungus that has attracted industrial interest. The present work investigated G. candidum biomass production in agro-industrial wastewaters (olive mill wastewater (OMW) and cheese whey (CW)) as the only substrate. Different solid media (Sabouraud dextrose agar (SDA), CW, OMW, and OMW/CW mixtures in different proportions) were tested. OMW/CW mixtures proved to be suitable for optimal mycelia growth of G. candidum with a very high hyphae density. The highest fungal and expansion rate growth of 83 ± 1 mm and 12.4 day⁻¹, respectively, were obtained on a 20:80 mixture of OMW/CW, which was incubated for 7 days. This optimal mixture was used to study the biomass production and the OMW decolorization ability of G. candidum in the presence of CW in liquid medium. Liquid cultures were also conducted in OMW and CW separately. After 5 days of incubation, fungal biomass reached 9.26 g l⁻¹ in the OMW/CW mixture and only 2.83 g l⁻¹ in CW, while no biomass production was observed in OMW alone. OMW decolorization and dephenolization by G. candidum also improved in the presence of CW with a decolorization efficiency of 54.5% and a total phenolic reduction of 55.3%, compared with the control which yielded values of about 10% and 15%, respectively. These results suggested that OMW/CW—as the only substrate—could be used as a cost-effective medium to produce G. candidum biomass, without the need for water dilution or supplementation with other nutriments.     

Scale down and optimization of olive mill wastewaters decolorization by Geotrichum candidum

Microbiol flora acclimated in continuous pilot scale bubble column fed with OMW was analysed. The most efficient isolated fungus was identified to white-rot fungus Geotrichum candidum. Decolorization of OMW by Geotrichum candidum was investigated by using Hadamard's matrix for screening the important parameters and optimize them in order to control the biological decolorization. Agitation favours the conversion of COD removed into Geotrichum candidum biomass especially with high arthoconodia and few mycelium. Dilution of OMW and aeration enhanced the mycelium growth and rammification which that allowed polyphenols hydrolysis and then a decolorization. The initial pH of OMW is suitable for its decolorization by Geotrichum candidum growth. Ammonium sulfate concentrations tested with different OMW dilutions showed that the COD:N:S ratio of 100:5:2 is suitable for higher black colour removal. With optimized conditions Geotrichum candidum growth on OMW in laboratory scale bubble column, the OD removal reached 70% and all fractions of polyphenolic compounds of OMW were oxidized.     

外源添加代谢中间体对产琥珀酸放线杆菌厌氧发酵制备丁二酸的影响

考察了外源添加中间代谢产物对菌体生长及发酵产酸的影响,结果表明添加0.5g/L磷酸烯醇式丙酮酸(PEP)时丁二酸产量最高。围绕产琥珀酸放线杆菌NJ113厌氧发酵产丁二酸的代谢网络进行代谢通量分析,发现添加PEP后己糖磷酸途径(HMP)与糖酵解途径(EMP)的通量比由39.4∶60.3提高至76.8∶22.6,解决了丁二酸合成过程中还原力不足的矛盾,导致PEP生成草酰乙酸的通量提高了23.8%,丁二酸代谢通量从99.8mmol/(gDCW·h)增至124.4mmol/(gDCW·h),而副产物乙酸及甲酸的代谢通量分别降低了22.9%、15.4%;关键酶活分析结果表明,添加0.5g/LPEP后PEP羧化激酶比酶活达到1910U/mg,与对照相比提高了74.7%,而丙酮酸激酶的比酶活降低了67.5%。最终丁二酸浓度为29.1g/L,收率达到76.2%,比未添加PEP时提高了11.0%。     

Activity and elution profile of laccase during biological decolorization and dephenolization of olive mill wastewater

The performance and enzymatic strategy exhibited by basidiomycete Euc-1, a laccase producing strain, was investigated during the biodegradation of olive mill wastewater (OMW). This strain yielded better decolorization of solidified OMW than Phanerochaete chrysosporium and removed 90% of phenols (initial concentration=800 mg l(-1)), 73% of color (initial A465=4.4), and 45% of chemical oxygen demand in batch cultures containing OMW. Since partial phenol removal occurred before the detection of enzymatic activity, no plausible correlation could be established between them. In contrast, decolorization occurred only after the detection of laccase activity and coincided with its production over time. Two laccase fractions (Lac1 and Lac2) were separated by chromatography. OMW strongly induced Lac2 that was almost absent in defined liquid medium. Furthermore, Lac2 was the main laccase fraction in the presence of OMW. This study pointed out that basidiomycete Euc-1 and its ligninolytic system could be a useful tool for the bioremediation of wastewater generated in the process of olive oil extraction.     

Decolorization of dyes using white-rot fungi and radical-generating reactions

Decolorization of synthetic dyes was performed using cultures of white-rot fungi producing ligninolytic enzymes and radical-generating reactions that could be involved in the mechanism of fungal decolorization. Among the white-rot fungi tested, Pleurotus ostreatus exhibited the highest decolorization rates, and also the highest production of laccase and Mn-peroxidase. P. ostreatus strain f6 gave 69% decolorization of Eosin Yellowish, 96% of Evans Blue, 75% of Phenol Red (all at 1 mM) and 88% of Poly B-411 (20 ppm) during a 14-day treatment. Treatment with Cu/succinic acid/H₂O₂ resulted in 96% decolorization of Evans Blue and Poly B-411 within 24 h. However, only 48% and 2% decolorization was achieved with Phenol Red and Eosin Yellowish, respectively. Similar decolorization rates were also obtained when Cu was replaced with Co. The results show that treatment of dye-containing solutions with both fungal cultures and biomimetic catalytic reactions results in decolorization.     

基于代谢通量分析的琥珀酸放线杆菌高产选育研究

在对产琥珀酸放线杆菌代谢分析的基础上选育出高产突变株对琥珀酸的工业生物转化有重要意义.在矩阵分析代谢通量基础上,围绕柔性节点下的副产物乙酸及乙醇的降低分别实施软X诱变及定点突变选育,并对比分析了突变株与出发株相关酶活及基因序列变化.针对出发株的流量分析显示产物琥珀酸的代谢通量为1.78(mmol/g/h),主要副产物乙酸与乙醇的代谢通量分别为(0.60mmol/g/h)和(1.04 mmol/g/h),并发现乙醇代谢加剧了琥珀酸合成中的H电子供体的不足;筛选出的氟乙酸抗性突变株S.JST1的乙酸代谢通量降低了96%,为0.024(mmol/g/h),酶活检测表明磷酸乙酰转移酶(Pta)的酶比活力从602降低到74,进一步的序列对比分析发现pta突变基因中产生了一个突变位点:adh定点复合突变株S.JST2的乙醇代谢通量降低了98%,为0.020(mmol/g/h),酶活检测表明Adh的酶比活力从585降低到62.最终突变株S.JST2琥珀酸累积产量达65.7 g/L.围绕产琥珀酸放线杆菌Pta及Adh酶活的降低实施定向选育,在降低副产物流量的同时,有助于改善细胞H供体代谢平衡进而提高琥珀酸的流量.所获突变株具有工业应用潜力.     

Decolorization of dyes using white-rot fungi and radical-generating reactions

Decolorization of synthetic dyes was performed using cultures of white-rot fungi producing ligninolytic enzymes and radical-generating reactions that could be involved in the mechanism of fungal decolorization. Among the white-rot fungi tested, Pleurotus ostreatus exhibited the highest decolorization rates, and also the highest production of laccase and Mn-peroxidase. P. ostreatus strain f6 gave 69% decolorization of Eosin Yellowish, 96% of Evans Blue, 75% of Phenol Red (all at 1 mM) and 88% of Poly B-411 (20 ppm) during a 14-day treatment. Treatment with Cu/succinic acid/H₂O₂ resulted in 96% decolorization of Evans Blue and Poly B-411 within 24 h. However, only 48% and 2% decolorization was achieved with Phenol Red and Eosin Yellowish, respectively. Similar decolorization rates were also obtained when Cu was replaced with Co. The results show that treatment of dye-containing solutions with both fungal cultures and biomimetic catalytic reactions results in decolorization.     

Actinobacillus succinogenes抗氟乙酸突变株的选育及其代谢流量分析

琥珀酸是一种用于合成树脂、可降解塑料及许多化学中间体的重要绿色化工原料。为了提高琥珀酸的发酵产率, 基于Actinobacillus succinogenes的代谢流量分布情况对其育种机制进行了研究。以Actinobacillus succinogenes CGMCC1593为原始菌株进行NTG诱变, 挑选在含有50~100 mmol/L氟乙酸平板生长较快的菌落, 经过初筛和复筛, 发现SF-9菌株产生更多琥珀酸且积累乙酸较少。以50 g/L的葡萄糖为碳源, 在5 L发酵罐上进行分批发酵, 该菌株发酵32 h时琥珀酸产量(34.8 g/L)提高了23.4%, 琥珀酸/乙酸比率为9:1, 副产物乙酸量比原始菌株降低了约50%。代谢流量分析(MFA)结果表明, PEP是影响琥珀酸合成的关键节点, PYR是影响乙酸等杂酸生成比例的关键节点, 并且这两个节点均非刚性节点。通过氟乙酸抗性诱变, 成功地筛选出了流向乙酸、甲酸和乳酸等杂酸的流量相对减少, 而流向琥珀酸的流量明显增强的突变菌株SF-9。     

Actinobacillus succinogenes抗氟乙酸突变株的选育及其代谢流量分析

琥珀酸是一种用于合成树脂、可降解塑料及许多化学中间体的重要绿色化工原料。为了提高琥珀酸的发酵产率, 基于Actinobacillus succinogenes的代谢流量分布情况对其育种机制进行了研究。以Actinobacillus succinogenes CGMCC1593为原始菌株进行NTG诱变, 挑选在含有50~100 mmol/L氟乙酸平板生长较快的菌落, 经过初筛和复筛, 发现SF-9菌株产生更多琥珀酸且积累乙酸较少。以50 g/L的葡萄糖为碳源, 在5 L发酵罐上进行分批发酵, 该菌株发酵32 h时琥珀酸产量(34.8 g/L)提高了23.4%, 琥珀酸/乙酸比率为9:1, 副产物乙酸量比原始菌株降低了约50%。代谢流量分析(MFA)结果表明, PEP是影响琥珀酸合成的关键节点, PYR是影响乙酸等杂酸生成比例的关键节点, 并且这两个节点均非刚性节点。通过氟乙酸抗性诱变, 成功地筛选出了流向乙酸、甲酸和乳酸等杂酸的流量相对减少, 而流向琥珀酸的流量明显增强的突变菌株SF-9。     

红平菇产漆酶条件优化及对孔雀绿染料脱色的研究

采用LNAS(低氮天冬酰胺-琥珀酸)培养基添加方式,对红平菇Pleurotus djamor HP1进行培养,检测不同时间培养液对不同底物的氧化作用,进而得到光密度值的变化情况,作为漆酶的产生及活性测定的主要依据。结果表明:在含Cu2+的培养液中漆酶最大酶活为235.4 U/L。含Cu2+的培养液添加底物木屑后漆酶最大酶活为458.8 U/L。提取经优化筛选后的培养基培养出的漆酶粗酶液,对4种具有不同化学结构的染料进行了脱色试验。结果表明:三苯基甲烷类的孔雀绿在6 h时脱色率为87.5%,蒽醌类的SN4R在24 h时脱色率为49.4%,偶氮类的甲基橙在24 h时脱色率为45%,杂环类的中性红在24 h时脱色率为23.6%。因此,显示出红平菇漆酶对孔雀绿染料脱色具有较大的应用潜力,进而对废水处理具有更好的应用前景。     

Ultrasonic pretreatment and acid hydrolysis of sugarcane bagasse for succinic acid production using Actinobacillus succinogenes

Immense interest has been devoted to the production of bulk chemicals from lignocellulose biomass. Diluted sulfuric acid treatment is currently one of the main pretreatment methods. However, the low total sugar concentration obtained via such pretreatment limits industrial fermentation systems that use lignocellulosic hydrolysate. Sugarcane bagasse hemicellulose hydrolysate is used as the carbon and nitrogen sources to achieve a green and economical production of succinic acid in this study. Sugarcane bagasse was ultrasonically pretreated for 40 min, with 43.9 g/L total sugar obtained after dilute acid hydrolysis. The total sugar concentration increased by 29.5 %. In a 3-L fermentor, using 30 g/L non-detoxified total sugar as the carbon source, succinic acid production increased to 23.7 g/L with a succinic acid yield of 79.0 % and a productivity of 0.99 g/L/h, and 60 % yeast extract in the medium could be reduced. Compared with the detoxified sugar preparation method, succinic acid production and yield were improved by 20.9 and 20.2 %, respectively.     

耐铵型产琥珀酸放线杆菌的选育及铵离子对其生长代谢的影响

经硫酸二乙酯(DES)诱变,在含61～242mmol/LNH4+梯度平板中,筛选到一株耐铵型突变株YZ25,该菌株在含121mmol/LNH4+发酵培养基中,琥珀酸产量达32.68g/L,转化率为65.4%,比出发菌提高了180.5%。进一步考察了不同形态铵盐对YZ25生长的影响,结果表明添加少量铵盐能够提高突变菌的生长速率,但当超过一定量后菌株生长受到抑制,不同铵盐对菌株的抑制程度不同,硫酸铵、碳酸氢铵、氯化铵和硝酸铵对突变株YZ25的半抑制浓度分别为:215mmol/L、265mmol/L、235mmol/L、210mmol/L。为了考察铵离子对YZ25发酵产琥珀酸的影响过程,在3.0L发酵罐以氨水作为pH的调控剂发酵,结果表明在稳定期前菌株生长基本不受铵离子抑制,生物量能够达到正常水平,但是进入稳定期后铵离子抑制作用越来越明显,导致菌株生长提前结束,耗糖不完全,产酸受阻。最后结合产琥珀酸放线杆菌Actinobacillus succinogenes代谢途径分析了铵离子对菌株抑制作用的机理。     

烟管孔菌G14产锰过氧化物酶条件优化及其对染料的脱色

利用组织分离从未成熟有机蓝莓的表皮中分离出菌株G14,根据其菌落形态、ITS序列对比及系统发育树的分析,鉴定菌株G14为一株烟管孔菌Bjerkandera adusta.菌株G14可以分泌漆酶(laccase,Lac)、木质素过氧化物酶(lignin peroxidase,LiP)和锰过氧化物酶(manganese p...     

木薯粉同步糖化发酵(SSF)产丁二酸

【目的】通过优化产琥珀酸放线杆菌GXAS137同步糖化发酵木薯粉产丁二酸的发酵培养基,提高丁二酸产量,降低生产成本。【方法】在单因素试验的基础上,先利用Plackett-Burman试验设计筛选出影响丁二酸发酵的重要参数,再采用正交试验确定重要参数的最佳水平。【结果】价格低廉玉米浆可用作氮源,影响丁二酸产量的重要参数是木薯粉、玉米浆、碱式碳酸镁和糖化酶浓度。最佳条件为(g/L):木薯粉100,玉米浆14,糖化酶2.0 AGU/g底物,碱式碳酸镁75。优化后丁二酸产量达到69.31 g/L,丁二酸得率为90.01%,生产强度为1.44 g/(L·h)。与初始条件(52.34 g/L)相比,丁二酸浓度提高了32.42%。并利用1.3 L发酵罐对SSF与SHF两种发酵工艺进行了比较,SSF丁二酸产量(72.21 g/L)远高于SHF(56.86 g/L)。【结论】产琥珀酸放线杆菌同步糖化发酵木薯粉丁二酸产量高,生产成本低,具有较好的工业化应用前景。     

Decolorization of synthetic textile dyes by lignin peroxidase of Phanerochaete chrysosporium

Neem hull waste (containing a high amount of lignin and other phenolic compounds) was used for lignin peroxidase production byPhanerochaete chrysosporum under solid-state fermentation conditions. Maximum decolorization achieved by partially purified lignin peroxidase was 80% for Porocion Brilliant Blue HGR, 83 for Ranocid Fast Blue, 70 for Acid Red 119 and 61 for Navidol Fast Black MSRL. The effects of different concentrations of veratryl alcohol, hydrogen peroxide, enzyme and dye on the efficiency of decolorization have been investigated. Maximum decolorization efficiency was observed at 0.2 and 0.4 mmol/L hydrogen peroxide, 2.5 mmol/L veratryl alcohol and pH 5.0 after a 1-h reaction, using 50 ppm of dyes and 9.96 mkat/L of enzyme.     

Decolorization of synthetic melanins by crude laccases of Lentinus polychrous L��v.

Melanins are complex natural pigments that darken the skin and are difficult to degrade. This study evaluated synthetic melanin decolorization by the crude laccase from fungus Lentinus polychrous in the absence and presence of selected redox mediators. The greatest melanin decolorization activity was 87?% at pH?6.5 within 3?h in the presence of 2,2-azinobis (3-ethylbenzothiazoline-6-sulfonate) diammonium salt (ABTS), whereas only about 22?% melanin decolorized at pH?5.0 in case of no mediator. The optimum temperatures for melanin decolorization in the absence and presence of ABTS were 55 and 35°C, respectively. Using a natural redox mediator, 1.0?mmol/L vanillin leads to 45?% melanin decolorization. Our results suggest the possibility of applying vanillin for L. polychrous laccase-catalyzed decolorization of melanin.     

发酵产丁二酸过程中废弃细胞的循环利用

对厌氧发酵产丁二酸后的废弃细胞进行破壁处理,考察了以细胞水解液作为有机氮源重新用于丁二酸发酵的可行性。比较了超声破碎、盐溶、酶解3种方法破碎细胞获得的水解液作为氮源发酵产丁二酸的效果,结果表明酶解制得的细胞水解液效果最佳。以总氮含量为1.11g/L的酶解液(相当于10g/L酵母膏)作为氮源发酵,丁二酸产量可达42.0g/L,继续增大酶解液用量对耗糖、产酸能力没有显著提高。将细胞酶解液与5g/L酵母膏联用发酵36h后,丁二酸产量达75.5g/L,且丁二酸生产强度为2.10g/(L·h),比使用10g/L酵母膏时提高了66.7%。因此,厌氧发酵产丁二酸结束后的废弃细胞酶解液可以替代原培养基中50%的酵母膏用于发酵。