亮氨酸脱氢酶偶联NADH再生体系合成L-2-氨基丁酸

文中以大肠杆菌BL21(DE3)为宿主,构建两株分别共表达亮氨酸脱氢酶(LDH,来源蜡样芽孢杆菌)/甲酸脱氢酶(FDH,来源水生弯杆菌)和亮氨酸脱氢酶(LDH,来源蜡样芽孢杆菌)/醇脱氢酶(ADH,来源红球菌)的重组大肠杆菌。通过偶联两种不同NADH再生体系,以L-苏氨酸为起始原料,利用苏氨酸脱氨酶(L-TD)与LDH-FDH或LDH-ADH一锅法合成L-2-氨基丁酸,并对LDH-FDH工艺和LDH-ADH工艺进行对比优化。LDH-FDH工艺的最适反应pH为7.5,最适反应温度为35℃,通过加入50 g/L甲酸铵、0.3 g/L NAD+、10%LDH-FDH粗酶液(V/V)和7 500 U/L的L-TD酶液,对L-苏氨酸进行分批补加,以便控制2-丁酮酸浓度小于15 g/L,反应28 h,实现了L-2-氨基丁酸的产量为161.8 g/L,产率97%。LDH-ADH工艺的最适pH为8.0,最适反应温度为35℃,通过加入0.3 g/L NAD+、10%LDH-ADH粗酶液(V/V)及7 500 U/L的L-TD酶液,分批补加L-苏氨酸及1.2倍摩尔量异丙醇,以便控制2-丁酮酸浓度小于15g...     

PHYSIOLOGICAL CHARACTERISTICS OF PHOTOSYNTHESIS IN PORPHYRIDIUM CRUENTUM: EVIDENCE FOR BICARBONATE TRANSPORT IN A UNICELLULAR RED ALGA1

Various physiological characteristics of photosynthesis in the unicellular red alga Porphyridium cruentum Naegeli have been investigated. The rate of photosynthesis was optimal at 25° C and pH 7.5 and was not inhibited by 21% oxygen over a temperature range of 5 to 35° C. Kinetics of whole cell photosynthesis as a function of substrate concentration gave a K_1/2, (CO₂) of 0.3 μM. CO₂ compensation point, measured in a closed system at pH 7.5, was a constant 6.7 m?L · L^?1 over the temperature range 15 to 30° C and was unaffected by O₂ concentration. Whole cell photosynthesis, measured in a closed system at alkaline pH, showed that the rates of oxygen evolution were greatly in excess of the rate of CO₂ supply from the spontaneous dehydration of HCO₃^? in the medium. This indicates that bicarbonate is utilized by the cell to support this photosynthetic rate. These physiological characteristics of Porphyridium cruentum are consistent with the hypothesis that this alga transports bicarbonate across the plasmalemma.     

Biodegradation of feather wastes and the purification and characterization of a concomitant keratinase from Paecilomyces lilacinus

Paecilomyces lilacinus strain PL-HN-16 was found to have the ability to degrade feathers. During the degradation process, the broth initially turned as sticky as gelatin and then turned into fluid that means the feathers can be hydrolyzed completely. Keratinolytic protein (Ker) of aforementioned strain was purified using ammonium sulphate precipitation, HiTrap? Butyl FF chromatography and Sephacryl S-200 gel filtration. The Ker of P. lilacinus PL-HN-16 had molecular mass of 33 kDa, the optimum pH 8.0 and temperature optimum at 40°C. It used the soluble keratin as substrate. The enzyme showed high activity and stability over a wide range of pH (6.0 to 10.0) and temperature (30°C to 60°C) values but was completely inhibited by PMSF. Ker of P. lilacinus PL-HN-16 exhibited stability toward SDS. These promising properties make the enzyme a potential candidate for future applications in biotechnological processes as keratin hydrolysis and dehairing during leather processing.     

Effect of temperature and pH on the kinetics of methane production, organic nitrogen and phosphorus removal in the batch anaerobic digestion process of cattle manure

A study of the effect of temperature and pH on the kinetics of methane production and organic nitrogen and phosphorus degradation in the anaerobic digestion process of cattle manure was carried out. Two laboratory-scale batch completely mixed reactors, operating at 35v°C (mesophilic temperature), and other two, operating at 60v°C (thermophilic temperature) were used. For each temperature selected, the influent pH values were 7.6 (initial pH of the waste used) and 7.0. The apparent kinetic constants of the biomethanization process increased 2.3 times when the initial pH of the influent was increased from 7.0 to 7.6 at mesophilic temperature. The values found at thermophilic temperature were similar. The kinetic constants of methane production decreased 2.6 and 7.2 times when the operating temperature increased from 35 °C to 60v°C for the experiments carried out at initial pH of 7.0 and 7.6, respectively. The methane yield coefficient (l CH₄ STP/g VS removed) also decreased when the temperature increased from 35v°C to 60v°C for the two initial pH values studied. This behaviour agreed with the major inhibition level observed at thermophilic temperature as a result of the higher organic nitrogen removal and ammonia nitrogen production observed at 60v°C. Specifically, the specific rate constants for organic nitrogen removal and ammonia nitrogen production increased 3.6 and 12 times when the temperature was increased from 35v°C to 60v°C for the experiments carried out at initial pH values of 7.0 and 7.6, respectively. In the same way, the values of the kinetic constant for phosphorus removal were 44% and 80% higher than those obtained at 35v°C for the two initial pH values above-mentioned, respectively. Finally, the experimental values of organic nitrogen and phosphorus concentrations were reproduced with deviations equal to or less than 10% and 15% in every case, respectively.     

Partial characterization of digestive proteases in Totoaba (Totoaba macdonaldi)

ABSTRACT

The objective of this study was to characterize the digestive proteases of totoaba (Totoaba macdonaldi). Fish were sacrificed to obtain the multienzymatic extracts from the stomach and intestine, and determine the stability and optimum pH and temperature values. Residual activity and number of isoforms were determined with some inhibitors. Optimal pH of stomach proteases was 2, with stability above 100% at that same pH. Optimum pH of intestinal proteases was between 9 and 11, with stability above 100% between 8-12. Optimum temperature for stomach proteases was 35°C and remained highly stable, while optimum temperature for intestinal proteases was 45°C, with high stability between 35-55°C. Pepstatin A totally inhibited acid protease activity and revealed a single band. SDS-PAGE zymogram revealed 8 bands in the intestine, where phenanthroline inhibited 80% of the total activity. The digestive capacity of T. macdonaldi is characteristic of a strict carnivore, similar to other marine fish species.     

Effect of environmental parameters on decolorization of textile wastewater using Phanerochaete chrysosporium

Effect of various parameters such as size of inoculum, temperature, carbon source on decolorization of textile wastewater by Phanerochaete chrysosporium was investigated. Textile wastewater decolorization occurred during the primary phase of growth and secondary metabolism in carbon and nitrogen limited medium, respectively. It was found that glucose concentration up to 0.3 g/l has considerable effect on decolorisation rate. Further, it was also found that the concentration of the organic nitrogen of the effluent stream was sufficient to furnish the decolorisation process. It was observed that the inoculum size in this case within 10% increased the decolorisation rate rapidly. It was found that the temperature rise from 20 to 38 °C enhanced the rate of decolorization. The optimum temperature for decolorisation was found to be about 35 °C. Effect of pH from 2-4 on decolorization was also investigated. It is concluded that using Phanerochaete chrysosporium, decolorization of the azo dye containing effluent of the textile industry was achieved to about 96% within 28 h of operation.     

Purification and properties of an acidic β-glucosidase from Acidobacterium capsulatum

Acidobacterium capsulatum, an acidophilic, mesophilic and chemoorganotrophic bacterium, produced an inducible, acidic β-glucosidase in the cellobiose medium. The enzyme was successively purified 109 times by CM-Sepharose, Sephacryl S-200 chromatography and preparative discontinuous polyacrylamide gel electrophoresis. Polyacrylamide gel electrophoresis of the purified enzyme gave a single band at pH 4.3. The enzyme had an optimum pH of 3.0 and optimum reaction temperature of 55°C, being stable from pH 1.5 to 6.0 and at temperatures from 20 to 45°C. No activity was detected above pH 6.5 or above 65°C. The molecular weight of 90,000 was estimated by gel filtration and the enzyme had an isoelectric point of 7.0. The enzyme hydrolyzed aryl-β-glycosides and β-linked disaccharides.     

氯嘧磺隆降解菌株LW-3的分离及生物学特性研究

从长期受氯嘧磺隆污染的土壤中分离到一株氯嘧磺隆高效降解菌株,命名为LW-3,菌株LW-3可以氯嘧磺隆为唯一氮源生长,接种量为2%时,50 mg/L氯嘧磺隆经过7 d,降解率达70%～80%.生理生化实验和16S rDNA序列同源性分析,将菌株LW-3归属于假单胞茵属(Pseudomonas sp.);菌株的适宜降解条件为;温度30℃～35℃,pH 6.5～7.2,pH对菌株LW-3降解氯嘧磺隆有明显地影响.     

来源于葡萄球菌的N-乙酰神经氨酸裂合酶的基因克隆及性质

葡萄球菌Staphylococcus hominis来源的N-乙酰神经氨酸裂合酶基因shnal(GenBank Accession No.EFS20452.1)构建至pET-28a质粒并在大肠杆菌中得到表达.通过目的蛋白的纯化和酶学性质研究发现,ShNAL是一个四聚体,裂解方向的最适反应pH为8.0;合成方向的最适反应pH为7.5,最适反应温度为45℃.在45℃下孵育2h对ShNAL的活力基本无影响,高于45℃时,活力迅速下降.该酶在pH 5.0～10.0的环境中比较稳定,4℃下放置24 h酶的残余活力在70％以上.ShNAL对N-乙酰神经氨酸(Neu5Ac)、N-乙酰甘露糖胺(Man)和丙酮酸(Pyr)的Km值分别是(4.0±0.2) mmol/L、(131.7±12.1)mmol/L和(35.14±3.2) mmol/L,kcat/Km值分别为1.9 L/(mmol·s)、0.08 L/(mmol·s)和0.08 L/(mmol·s).     

Production and regulation of extracellular proteases from the entomopathogenic fungus Isaria fumosoroseus (Cordycipitaceae; Hypocreales) in the presence of diamondback moth,Plutella xylostella cuticle

Extracellular proteases of entomopathogenic fungi have been implicated as components of the insect infection process. To elucidate their role in the infection process, it is essential to characterize these enzymes. During the current studies synthesis and regulation of extracellular proteases (Pr1 and Pr2) by Isaria fumosoroseus (Cordycipitaceae; Hypocreales) isolate IF28.2 were investigated as a function of carbon source (with special reference to diamondback moth cuticle), temperature and pH. The highest level of Pr1 and Pr2 activity were found in the supernatants from 1% glucose plus 1% diamondback moth cuticle (18.83±1.25 and 12.44±1.36 U/mg per h for Pr1 and Pr2, respectively). Maximum Pr1 production by the depressed mycelia was observed from the supernatants having diamondback moth cuticle as a nutrient source, whereas depressed mycelia showed maximum Pr2 activity from the cultures having chitin as the basic nutrient. The optimum pH for Pr1 and Pr2 activity was 8 while 35°C was the best temperature for protease production.     

Production and Properties of a Soymilk-clotting Enzyme System from a Microorganism

Some microorganisms, including some bacteria isolated from soil, were found to secrete an extracellular soymilk-clotting enzyme. Among them, strain No. K-295G-7 showed the highest soymilk-clotting activity and stability of the production of the soymilk-clotting enzyme. The enzyme system (culture filtrate) coagulated protein in soymilk, a curd being formed at pH 5.8~6.7 and at 55~75°C. The optimum temperature for the soymilk-clotting activity was 75°C and the enzyme system was stable at temperatures below 50°C down to 35°C. About 80~100% of the original activity remained after 1 hr at pH 5~7 and 35°C.     

Factors affecting the synthesis of penicillins by the immobilized penicillin acylase from Escherichia coli

The effect of pH, temperature, reactant concentration, and reaction time has been investigated for the synthesis of N-benzhydryl-N′-acetamidopiperazyl-6-penicillanic acid and N-benzyl-N′-acetamidopiperazyl-6-penicillanic acid from 6-aminopenicillanic acid by the immobilized penicillin acylase from Escherichia coli. The synthesis of penicillins from carboxylic acids proceeds most rapidly at pH 5; with ethyl ester derivatives of carboxylic acids the pH optimum is higher (6–7). The most rapid synthesis of penicillins was obtained with ethyl ester derivatives of carboxylic acids. The optimum temperatures were 25–35°C.     

Optimization of enzymatic hydrolysis of mango kernel starch by response surface methodology

Amyloglucosidase (EC 3.2.1.3) from Aspergillus niger was employed for the saccharification of mango (Mangifera indica Linn) kernel starch. Response surface methodology based on a three-level three-factor Box-Behnken design was employed to optimize the important process variables such as substrate concentration (137.5-412.5 mg), enzyme concentration (4-12 mg) and temperature (35-55 °C). The sugar yield increased with both enzyme concentration and temperature, and decreased with substrate concentration. The response surface model indicated optimum conditions (substrate, 137.5 mg; enzyme, 12 mg; temperature, 55 °C) for obtaining 0.4851 mg sugar/mg substrate, which was also verified experimentally.     

Cysteine enhances activity and stability of immobilized papain

Immobilization of papain on Sepharose 6B in the presence of different concentrations of cysteine affected the enzyme activity depending on cysteine concentration. The maximum specific activity was observed when papain was immobilized with 200 mM cysteine. The immobilization process brought significant enhancement of stability to temperature and extreme pH values with respect to free papain. After immobilization, the optimum temperature of papain activity increased by 20°C (from 60 to 80°C) and its optimum pH activity shifted from 6.5 to 8.0. Catalytic efficiency (k_cat/K_m) and specific activity of the immobilized enzyme do not significantly change after immobilization. The temperature profile of this form of immobilized papain showed a broad range of activity compared with both free and immobilized form of papain in the absence of cysteine. This significant behavior in terms of activation energy is also discussed.     

牛筋草离孺孢生物学特性及代谢产物活性测定

对牛筋草离孺孢属(Bipolaris sorokiniana)NJ-08菌株的生物学特性及代谢产物除草活性测定结果表明：此菌株的菌丝体生长速度慢, 但产孢量大, 致病性强。菌丝体生长最适温度25°C, 致死温度是55°C/10 min, 最适pH值为8, 碳源以葡萄糖最佳, 供试氮源则不利于菌丝体生长。产生分生孢子最适温度25°C, 最适pH值为8, 碳源以葡萄糖最好, 氮源以硝酸钠产孢量最高。分生孢子萌发温度在20°C~35°C之间没有差异, 适宜pH值为5~7, 碳源以D-木糖的孢子萌发率最高, 氮源以蛋白胨的孢子萌发率最高, 不同处理间存在明显差异。NJ-08菌株产生的代谢产物作用于牛筋草, 可使叶片黄化或枯死, 代谢产物对指示植物及杂草如柱花草、地桃花、猪屎豆和辣椒的胚根胚芽生长都有明显的抑制作用, 抑制率均超过了90%, 显示出很好的除草活性。     

Effect of culture conditions of Kluyveromyces marxianus on its autolysis, and process optimization

Cultivation of the lactose-metabolizing yeast Kluyveromyces marxianus var. marxianus (formerly K.?fragilis) on supplemented whey permeate resulted in cellular yield little affected by culture conditions in the ranges pH?=?2.3–5 and T?=?30–40?°C. When autolysis was induced only by energy source deficiency and thermal shock, cellular material solubilization depended slightly on autolysis temperature in the range T?=?45–60?°C. On the contrary, the process was under tight control of culture conditions; when autolysis was carried out at 50?°C with an initial dry cellular concentration of 50?g l^?1, a clear optimum was observed for cells cultivated at pH?=?4.5 and T?=?35?°C. So the critical step of the autolytic process consisted in biosynthesis of lytic enzymes (during cell growth) rather than enzymatic progress (during autolysis). These results were compatible with a model previously proposed for Saccharomyces cerevisiae [1].     

Influence of pH on butyrate uptake and solvent fermentation by a mutant strain of Clostridiumacetobutylicum

The effect of pH (between 4.4 and 6.6) on butyrate uptake by the mutant strain of Clostridium acetobutylicum was studied using the fermentation broth from fermentor-2 (solventogenic stage) of a two-fermentor continuous system. Low pH (?1 butyrate, under batch incubation at 30?°C, was not inhibited at pH?>?5.2, however, at pH??1. Batch incubation at relatively higher temperatures (35° and 37?°C) indicated a similar trend i.e., a pH of >5.5 was required for uptake of >8?g l^?1 butyrate. Optimization studies for butyrate uptake by C. acetobutylicum suggested a direct correlation between minimum pH and butyrate concentration or temperature. The role of undissociated butyric acid appears to be critical in regulation of butyrate uptake.     

Comparative Assessment of the Artificial Neural Network and Response Surface Modelling Efficiencies for Biohydrogen Production on Sugar Cane Molasses

This study comparatively evaluates the modelling efficiency of the Response Surface Methodology (RSM) and the Artificial Neural Network (ANN). Twenty-nine biohydrogen fermentation batches were carried out to generate the experimental data. The input parameters consisted of a concentration of molasses (50–150 g/l), pH (4–8), temperature (35–40 °C) and inoculum concentration (10–50 %). The obtained data were used to develop the RSM and ANN models. The ANN model was a committee of networks with a topology of 4-(6-10)-1 structured on multilayer perceptrons. RSM and ANN models gave R ² values of 0.75 and 0.91, respectively, with predicted optimum conditions of 150 g/l, 8 and 35 °C for molasses, pH and temperature, respectively, with differences in inoculum concentrations (10.11 and 15 %) for RSM and ANN, respectively. Upon validation, 15.12 and 119.08 % prediction errors on hydrogen volume were found for ANN and RSM, respectively. These findings suggest that ANN has greater accuracy in modelling the relationships between the considered process inputs for fermentative biohydrogen production and thus, is more reliable to navigate the optimization space.     

Estimates of Frankia growth under various pH and temperature regimes

Summary The growth of Frankia isolates was monitored by dry weight, total protein and total ATP measurements under different temperature and pH regimes. Significant correlations (P<0.01) were found among all growth measures which meant that similar general conclusions were reached irrespective of the study method involved. The assessment of protein was the method of choice for regular assessments of Frankia growth due to its facility and relatively high sensitivity. The optimum temperature for growth of isolate LDAgp1 and AvcI1 was about 30°C while for CpI1 it lay between 30° and 35°C. No growth was observed at 40°C but some growth was observed at 10°C with isolate CpI1 and LDAgp1 over an extended growth period of 39 days. The range of pH favouring growth lay between 6 and 8. The optimum for LDAgp1 lay between 6.5 and 7, that for AvcI1 and CpI1 is close to 6.5. The pH response was medium dependent. Increases in biomass were observed for some isolates at 4.6 and above 8.0 on some media.     

Differential response of varying salinity and temperature on zoospore induction, regeneration and daily growth rate in Ulva fasciata (Chlorophyta, Ulvales)

Seaweed cultivation is imperative to augment increasing industrial demand. Ulva fasciata Delile is a potential seaweed for cultivation with applications in food industries. There is a renewed interest in large-scale aquaculture of this species in India due to its envisaged demand in snack food products. In the present study, we have successfully demonstrated the possibility of inducing zoospores in vegetative tissue, effective regeneration and improved growth in this seaweed by manipulating salinity (from 15 to 30 psu) and temperature (from 15 to 35°C). The optimum salinity and temperature requirement for zoospores induction were found to be 15 psu and 25°C, respectively. The quadriflagellate zoospores showed negative phototaxis and the settlement and germination pattern similar to several other green seaweeds. The optimum regeneration (78.53?±?10.05%) was recorded at 25°C and 30 psu salinity. The maximum daily growth rate (16.1?±?0.28%) was at 25°C and 30 psu salinity which corresponded to the field conditions. This method could be further refined at nursery culture to achieve artificial seeding essential for the success of commercial cultivation of this seaweed.