一株来源于土壤的横梗霉菌及其产羧甲基纤维素酶性质

从广州徐闻农垦丰收农场土壤样品中分离到一株产羧甲基纤维素酶菌株,结合菌株形态特征和ITS基因序列同源性分析结果,表明该菌株为Lichtheimia sp.的未定种,其系统分类学关系与横梗霉菌Lichtheimia ramosa isolate K12(MN190291.1)最近,故命名为:横梗霉菌XWNR1(Lichtheimia ramosa XWNR1),该菌种保藏号为CCTCC NO:M2018230。采用刚果红染色法发现该菌粗酶液能够降解羧甲基纤维素钠产生透明圈,初步确定该菌具有产羧甲基纤维素酶的能力。通过优化该菌发酵培养条件,结果表明:该菌株以2.0×10^6接种浓度、1%接种量,28℃180 r/min恒温振荡培养60 h时,菌株分泌的羧甲基纤维素酶具有最好的活力。酶学性质初步研究结果表明,该羧甲基纤维素酶在最适pH 7.0、最适反应温度40℃条件下具有较好的pH稳定性和热稳定性。     

Effect ofMyrothecium sp. cellulase on different types of cellulose and cellulosic materials

Three types of cellulase preparations were applied to different types of cellulose and cellulosic materials. The action of these types of cellulase on cellulose powder was increased with the increase of enzyme concentration. Both carboxymethyl cellulose (CMC) and sodium carboxymethyl cellulose (Na-CMC) released high amounts of reducing sugar as affected by cellulase application. Different types of paper pulp were moderately hydrolyzed, while agricultural wastes were slightly hydrolyzed. Vegetable and fruits cellulose were equally hydrolyzed but at low rate. Pretreatment of cellulose or cellulosic materials by grinding or by swelling with phosphoric acid gave rise to increased hydrolysis by the enzyme. Cellobiose was detected chromatographically as an intermediate product of hydrolysis of both cellulose and carboxymethyl cellulose with glucose.     

不同碳氮源对糙皮侧耳木质纤维素酶活性的影响

以糙皮侧耳Pleurotus ostreatus为材料,研究简单碳氮源及木质素纯品诱导条件对其木质纤维素酶活性的影响。结果表明,不同的碳源培养基和氮源培养基对糙皮侧耳漆酶活性、羧甲基纤维素酶活性和木聚糖酶活性均具有极显著的影响（P<0.001）,且对糙皮侧耳菌丝生物量也有极显著的影响（P<0.001）。以蔗糖作主要碳源诱导物时,有利于提高糙皮侧耳漆酶活性;以果糖作主要碳源诱导物时,有利于提高糙皮侧耳羧甲基纤维素酶活性和菌丝生物量的积累;以葡萄糖作主要碳源诱导物时,有利于提高糙皮侧耳木聚糖酶活性。以酵母浸粉作主要氮源诱导物时,有利于提高糙皮侧耳漆酶活性和菌丝生物量的积累;以硝酸钾作为主要氮源诱导物时,有利于提高糙皮侧耳羧甲基纤维素酶活性;以硫酸铵作为主要氮源诱导物时,有利于提高糙皮侧耳木聚糖酶活性。碱性木素的存在,有利于提高糙皮侧耳漆酶活性,但不利于菌丝生物量的积累。与此同时,碱性木素的存在对糙皮侧耳羧甲基纤维素酶和木聚糖酶活性并没有促进作用。     

Extracellular proteins secreted by the basidiomycete Schizophyllum commune in response to carbon source

The secretion of 1,4-beta-D-glucanases by the basidiomycete Schizophyllum commune in response to cellulose or cellobiose has been studied. The proteins were labeled with 35S, and the secretion of enzymes was measured by beta-glucosidase and carboxymethyl cellulase activities and by immunoprecipitation with specific antibodies. The antigen proteins used were a beta-glucosidase (Mr, 93,000), an avicelase (avicelase II; Mr, 64,000), and a carboxymethyl cellulose (carboxymethyl cellulase I; Mr 41,000). The beta-glucosidase was initially secreted as an Mr 110,000 form, which was followed later by lower-molecular-weight (88,000 to 93,000) forms. The avicelase II, which accounted for about 50% of the secreted labeled protein, had an Mr of 64,000. Secretion of the related avicelase I (Mr 61,000) followed later. The carboxymethyl cellulose I was secreted in two molecular weight forms, Mr 44,000 and 41,000. The evidence is consistent with the idea that three genes account for the secreted glucanase activities. Other species result from different glycosylation or proteolytic cleavage processing, which may occur during or after secretion. The beta-glucosidase secretion appears to be regulated differently than that of avicelase II or carboxymethyl cellulase I; the latter two were regulated coordinately under the conditions used in this work. No common immune determinants between the three antigens were observed.     

Molecular cloning and expression of cellulase genes of alkalophilic Bacillus sp. strain N-4 in Escherichia coli.

The genes for cellulases of alkalophilic Bacillus sp. strain N-4 were cloned in Escherichia coli with pBR322. Plasmids pNK1 and pNK2 were isolated from the transformants producing carboxymethyl cellulase, and the carboxymethyl cellulase genes cloned were in 2.0- and 2.8-kilobase-pair HindIII fragments, respectively. On the DNA level, the pNK1 fragment had a different restriction map from that of the pNK2 fragment, but the genomic hybridization experiments showed partial homology among these fragments. A total of 74 and 34% of the enzyme activities were observed in the periplasmic space of E. coli carrying the plasmids pNK1 and pNK2 , respectively. The carboxymethyl cellulase thus produced had broad pH activity curves (pH of 5 to 10.9) and was stable up to 75 degrees C.     

Yersinia kristensenii: A new species of enterobacteriaceae composed of sucrose-negative strains (formerly called atypicalYersinia enterocolitica orYersinia enterocolitica-Like)

Induction of cellulase was observed inFusarium sp. with reduction in lag period by lactose-pregrown cells as compared with glucose-pregrown cells. Insoluble cellulose (Sigmacell) induced maximum cellulase production in the induction medium. Supplementation of the culture growing on cellulose by cellobiose or glucose resulted in increased cellular growth and decreased cellulase production. Stepfeeding of cellobiose to the culture growting on carboxymethyl cellulose resulted in decreased cellulase production. Significant cellulase activity was detected in the culture filtrate of cells growing on Sigmacell supplemented with glucose, only when the glucose disappeared from the medium. This suggests that cellulase production may in part be regulated by catabolite repression.     

Properties of a genetically reconstructed Prevotella ruminicola endoglucanase.

A pUC19-derived plasmid was constructed that coded for a hybrid cellulase with the Thermomonospora fusca E2 cellulose-binding domain at its C terminus joined to the Prevotella ruminicola 40.5-kDa carboxymethyl cellulase (CMCase). The hybrid enzyme was purified and characterized enzymatically. It bound tightly to cellulose, and its specific activities on carboxymethyl cellulose, amorphous cellulose, and ball-milled cellulose were 1.5, 10, and 8 times that of the 40.5-kDa CMCase, respectively. Furthermore, the modified enzyme gave synergism with an exocellulase in the degradation of filter paper, while the 40.5-kDa CMCase did not.     

Properties of a genetically reconstructed Prevotella ruminicola endoglucanase.

A pUC19-derived plasmid was constructed that coded for a hybrid cellulase with the Thermomonospora fusca E2 cellulose-binding domain at its C terminus joined to the Prevotella ruminicola 40.5-kDa carboxymethyl cellulase (CMCase). The hybrid enzyme was purified and characterized enzymatically. It bound tightly to cellulose, and its specific activities on carboxymethyl cellulose, amorphous cellulose, and ball-milled cellulose were 1.5, 10, and 8 times that of the 40.5-kDa CMCase, respectively. Furthermore, the modified enzyme gave synergism with an exocellulase in the degradation of filter paper, while the 40.5-kDa CMCase did not.     

Isolation of Cellulolytic Anaerobic Extreme Thermophiles from New Zealand Thermal Sites

Avicel enrichment cultures from 47 thermal-pool sites in the New Zealand Rotorua-Taupo region were screened for growth and carboxymethyl cellulase activity at 75°C. Eight anaerobic cellulolytic cultures were obtained. The effect of temperature on carboxymethyl cellulase activity was measured, and bacteria were isolated from the five best cultures. Bacteria from two sources designated TP8 and TP10 grew at 75°C, accumulated reducing sugar in the growth medium and gave free cellulases with avicelase activity. Bacteria from sources designated Tok4, Tok8, and Wai21 grew at 75°C, accumulated no free sugars in the medium, and gave free carboxymethyl cellulases with virtually no avicelase activity. All were obligate anaerobic nonsporeforming rods which stained gram negative, grew on pentoses as well as hexoses, and gave ethanol and acetate as major fermentation end products. The isolated strain which produced the most active and stable cellulases (trivially designated TP8.T) had lower rates of free endocellulase accumulation at 75°C than did Clostridium thermocellum at 60°C, but its cellulase activity against avicel and filter paper in culture supernatants was comparable. Tested at 85°C, TP8.T carboxymethyl cellulases included components which were very stable, whereas C. thermocellum carboxymethyl cellulases were all rapidly inactivated. The TP8.T avicelase activity was relatively unaffected by Triton X-100, EDTA, and dithiothreitol. Evidence was obtained for the existence of unisolated, cellulolytic extreme thermophiles producing cellulases which were more stable and active than those from TP8.T.     

Multicomplex cellulase-xylanase system of Clostridium papyrosolvens C7.

The cellulase system of Clostridium papyrosolvens C7 was fractionated by means of ion-exchange chromatography into at least seven high-molecular-weight multiprotein complexes, each with different enzymatic and structural properties. The molecular weights of the complexes, as determined by gel filtration chromatography, ranged from 500,000 to 660,000, and the isoelectric points ranged from 4.40 to 4.85. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of the complexes showed that each complex had a distinct polypeptide composition. Avicelase, carboxymethyl cellulase, and xylanase activity profiles differed from protein complex to protein complex. Three of the complexes hydrolyzed crystalline cellulose (Avicel). Activity zymograms of gels (following electrophoresis under mildly denaturing conditions) revealed different carboxymethyl cellulase-active proteins in all complexes but xylanase-active proteins in only two of the complexes. The xylanase specific activity of these two complexes was more than eightfold higher than that of the unfractionated cellulase preparation. A 125,000-M(r) glycoprotein with no apparent enzyme activity was the only polypeptide present in all seven complexes. Experiments involving recombination of samples eluted from the ion-exchange chromatography column indicated that synergistic interactions occurred in the hydrolysis of crystalline cellulose by the cellulase system. We propose that the C. papyrosolvens enzyme system responsible for the hydrolysis of crystalline cellulose and xylan is a multicomplex system comprising at least seven diverse protein complexes.     

不同碳氮源对花脸香蘑胞外酶活性的影响

以花脸香蘑Lepista sordida为材料,研究其分别在9种碳源和11种氮源液体培养条件下不同阶段pH值和葡萄糖浓度的变化,以及不同碳氮源对其所分泌的木质素过氧化物酶、羧甲基纤维素酶、锰过氧化物酶和漆酶活性的影响。结果表明,pH值在不同碳源培养后期变化显著（P<0.05）,而在不同氮源培养阶段无明显变化（P>0.05）,葡萄糖浓度和菌丝量在不同碳氮源中也无显著差异（P<0.05）。不同碳源和氮源培养基对花脸香蘑木质素过氧化物酶、羧甲基纤维素酶、锰过氧化物酶和漆酶活性均具有影响（P<0.05）。木糖和米糠有利于花脸香蘑分泌羧甲基纤维素酶（P<0.05）,红糖和牛肉浸膏有利于其分泌漆酶（P<0.05）,白砂糖和豆粉有利于其分泌锰过氧化物酶（P<0.05）,木糖和尿素有利于其分泌木质素过氧化物酶（P<0.05）。本研究为选择合适培养基以提高花脸香蘑生物转化效率提供了理论基础。     

A method for the detection and differentiation of cellulase components in polyacrylamide gels

Endoglucanase and exoglucanase components of cellulase can be detected and differentiated after polyacrylamide gel electrophoresis by performing activity stains. Endoglucanase activity was visualized in carboxymethyl cellulose agar replicas of gels by staining with Congo red. General beta-1,4-glucanase activity was located by soaking the gel in a solution of NaBH4-reduced cellulooligosaccharides, and detecting the formation of reducing sugars by reaction with triphenyl tetrazolium chloride. Endoglucanases are active in both assays, while exoglucanases can be distinguished by their activity in the cellulo-oligosaccharide assay only. This methodology has facilitated the purification and characterization of cellulase components from Trichoderma reesei and Microbispora bispora.     

Use of mutation strategies applied toAspergillus terreus ATCC 52430 to obtain mutants with improved cellulase productivity

Summary Mutation studies were carried out onAspergillus terreus ATCC 52430 to increase cellulase production. Optimal treatment conditions for increasing cellulase activity by UV mutagenesis were observed by exposure of spores to a UV germicidal lamp, wavelength 250 nm at a distance of 30 cm for 1 min. Nitrosoguanidine mutagenesis was optimal with respect to development of high cellulase mutants when spores were exposed to 500 ug/ml nitrosoguanidine for 1 h. Mutants were isolated on agar containing Walseth cellulose and the catabolite repressor, glycerol. Successive UV and nitrosoguanidine treatments resulted in isolation of strain UNG1-40 having 3.5, 4.6 and 3.3-fold increases in filter paper, β-glucosidase and carboxymethyl cellulase activity, respectively, compared toA. terreus ATCC 52430.     

A Shortcut to the Optimization of Cellulase Production Using the Mutant Trichoderma reesei YC-108

Trichoderma reesei YC-108, a strain isolated by a kind of newly invented plate was found to over produce cellulase and it was then used as a cellulase producer. To get the maximum amount of cellulase, the combination of the medium ingredients, which has a profound influence on metabolic pathway was optimized using response surface methodology. The optimum composition was found to be 24.63 g/L wheat bran, 30.78 g/L avicel, and 19.16 g/L soya-bean cake powder. By using the optimized medium, the filter paper activity (FPA) increased nearly five times to 15.82 IU/mL in a 30 L stirred fermenter, carboxymethyl cellulase activity (CMCase) was increased from 83.02 to 628.05 IU/mL and the CMCase/FPA ratio was nearly doubled compared with the parent strain at initial medium.     

Partial purification and characterization of extracellular cellulase from a strain ofTrichoderma viride isolated from forest soil

Partial purification of extracellular cellulase ofTrichoderma viride isolated from forest soil was done by ammonium sulfate precipitation of culture supernatant, centrifugation at higher speed, solubilization of protein in sodium acetate buffer and dialysis. The specific activity of cellulase in the culture supernatant, was 136 nkat/mg which was increased by 172% after the completion of final step (234 nkat/mg). The recovery of enzyme was 70%. The enzyme was characterized by demonstration of optimum activity at 55°C and pH 5.0 with 1% carboxymethyl cellulose as substrate.     

Extracellular cellulase production by tropical isolates of Aureobasidium pullulans

Cellulase production by Aureobasidium pullulans from the temperate regions has remained speculative, with most studies reporting no activity at all. In the current study, tropical isolates from diverse sources were screened for cellulase production. Isolates were grown on a synthetic medium containing cell walls of Msasa tree (Brachystegia sp.) as the sole carbon source, and their cellulolytic activities were measured using carboxymethyl cellulose and alpha-cellulose as substrates. All isolates studied produced carboxymethyl cellulase (endoglucanase) and alpha-cellulase (exoglucanase) activity. Endoglucanase-specific activities of ten selected isolates ranged from 2.375 to 12.884 micromol glucose.(mg protein)-1.h-1, while activities on alpha-cellulose (exoglucanase activity) ranged from 0.293 to 22.442 micromol glucose.(mg protein)-1.day-1. Carboxymethyl cellulose induced the highest cellulase activity in the selected isolates, while the isolates showed variable responses to nitrogen sources. The current study indicates that some isolates of A. pullulans of tropical origin produce significant extracellular cellulolytic activity and that crude cell walls may be good inducers of cellulolytic activity in A. pullulans.     

Differential expression of cellulases and xylanases by <Emphasis Type="Italic">Cellulomonas flavigena</Emphasis> grown on different carbon sources

The diversity of cellulases and xylanases secreted by Cellulomonas flavigena cultured on sugar cane bagasse, Solka-floc, xylan, or glucose was explored by two-dimensional gel electrophoresis. C. flavigena produced the largest variety of cellulases and xylanases on sugar cane bagasse. Multiple extracellular proteins were expressed with these growth substrates, and a limited set of them coincided in all substrates. Thirteen proteins with carboxymethyl cellulase or xylanase activity were liquid chromatography/mass spectrometry sequenced. Proteins SP4 and SP18 were identified as products of celA and celB genes, respectively, while SP20 and SP33 were isoforms of the bifunctional cellulase/xylanase Cxo recently sequenced and characterized in C. flavigena. The rest of the detected proteins were unknown enzymes with either carboxymethyl cellulase or xylanase activities. All proteins aligned with glycosyl hydrolases listed in National Center for Biotechnology Information database, mainly with cellulase and xylanase enzymes. One of these unknown enzymes, protein SP6, was cross-induced by sugar cane bagasse, Solka-floc, and xylan. The differences in the expression maps of the presently induced cultures revealed that C. flavigena produces and secretes multiple enzymes to use a wide range of lignocellulosic substrates as carbon sources. The expression of these proteins depends on the nature of the cellulosic substrate.     

Production of Cellulase by Clostridium Papyrosolvens CFR-703

Clostridium papyrosolvens producing filter paperase, carboxymethyl cellulase and cellobiase under anaerobic cultivation conditions at 35 °C is described. Higher activities of filter paperase and carboxymethylcellulases were assayed in 48 h culture filtrate, while maximum cellobiase accumulated in the culture broth at 72 h. Filter paperase, carboxymethylcellulase and cellobiase activities were optimum at 35 °C and pH values of 7.0, 6.5 and 7.5 respectively. Cultivation of the strain in 1000 ml Hungate bottles with 1% cellulose at pH 6.5 and 35 °C produced carboxymethyl cellulase, filter paperase and cellobiase activities of 45, 35 and 20 IU/ml respectively. This revised version was published online in July 2006 with corrections to the Cover Date.     

Pathogenic cellulase assay of pine wilt disease and immunological localization

The pine wilt disease caused by Bursaphelenchus xylophilus (BX), also known as the pine wood nematode (PWN), is the most devastating disease of pine trees. In this work, a high molecular weight B. xylophilus cellulase antigen (BXCa) was purified from total homogenates of nematodes. BXCa was found to be able to hydrolyze carboxymethyl cellulose (CMC) efficiently (155.65 U/mg) and to have an approximate molecular mass of 58.9 kDa. We harvested anti-BXCa antibodies and performed immunocytochemical assays, which revealed the localization of cellulase pools in the esophageal gland cells of the PWN. It was also discovered that cellulase was secreted from the stylet and was used to hydrolyze cellulose to facilitate the PWN entering host cells. These results are consistent with other plant parasitical nematodes. Interestingly, strong fluorescence signals from cellulase staining were observed in tracheid cells in naturally infected pine wood, in addition to ray cells and the resin canal zone. These results strongly suggest that the cellulase released by the PWN is one of the pathogenic substances of pine wilt disease and is responsible for the development of the early symptoms of the disease.