Screening for alkaline keratinolytic activity in fungi isolated from soils of the biosphere reserve “Parque Costero del Sur” (Argentina)

A screening was carried out on 69 fungal strains isolated from alkaline-calcareous, neutral and alkaline-sodic soils, as well as from their associated plant material, to determine their ability to grow at alkaline pH. A total of 32 fungi were selected for their ability to produce alkaline keratinase activity in submerged shaken cultures supplemented with soybean meal (SM) and tryptone and on cow hair (CH) under solid state fermentation conditions. Although several fungal strains produced keratinolytic activity on both SM and CH, they differed in the levels detected. Among them, Aspergillus niger, Cladosporium cladosporioides, Metarrhizium anisopliae, Neurospora tetrasperma and Westerdikella dispersa were the best producers, with levels higher than 1.2 U ml⁻¹. Different fungal species are here reported for the first time for their ability to produce keratinolytic activity at alkaline pH.     

Screening and isolation of halophilic bacteria producing extracellular hydrolyses from Howz Soltan Lake,Iran

Screening of bacteria from different areas of Howz Soltan playa, a hypersaline lake in the central desert zone of Iran, led to the isolation of 231 moderately halophilic bacteria, which were able to grow optimally in media with 5–15% of salt, and 49 extremely halophilic microorganisms that required 20–25% of salt for optimal growth. These isolates produced a great variety of extracellular hydrolytic enzymes. A total of 195, 177, 100, 95, 92, 68, 65, 33, and 28 strains produced lipases, amylases, proteases, inulinases, xylanases, cellulases, pullulanases, DNases, and pectinases, respectively. In comparison with gram-negative bacteria, the gram-positive halophilic rods, showed more hydrolytic activities. Several combined activities were showed by some of these isolates. One strain presented 9 hydrolytic activities, 4 strains presented 8 hydrolytic activities, 10 strains presented 7 hydrolytic activities and 29 strains presented 6 hydrolytic activities. No halophilic isolate without hydrolytic activity has been found in this study. According to their phenotypic characteristics and comparative partial 16S rRNA sequence analysis, the halophilic strains were identified as members of the genera: Salicola, Halovibrio, Halomonas, Oceanobacillus, Thalassobacillus, Halobacillus, Virgibacillus, Gracilibacillus, Salinicoccus, and Piscibacillus. Most lipase and DNase producers were members of the genera Gracilibacillus and Halomonas, respectively, whereas most of the isolates able to produce hydrolytic enzymes such as amylase, protease, cellulose (CMCase) and inulinase, belonged to gram-positive genera, like Gracilibacillus, Thalassobacillus, Virgibacillus, and Halobacillus.     

Studies on the Lipoprotein Lipases of Microorganisms

About 2000 strains of microorganisms were examined for lipoprotein lipase producibilities and some microorganisms were found to produce lipases similar to animal lipoprotein lipases.

Microorganisms were cultured on solid media containing a serum-activated olive oil emulsion, and strains which formed a clear zone around the colony were collected. The collected microorganisms were cultured on liquid media containing 0.5% of olive oil by shaking and the culture filtrates were tested for lipoprotein lipase activity by a turbidity method. The superior lipoprotein lipase producers obtained belonged to genera of Serratia, Pseudomonas, Mucor, and Streptomyces.     

Construction of a promoter collection for genes co-expression in filamentous fungus Trichoderma reesei

Trichoderma reesei is the preferred organism for producing industrial cellulases. However, cellulases derived from T. reesei have their highest activity at acidic pH. When the pH value increased above 7, the enzyme activities almost disappeared, thereby limiting the application of fungal cellulases under neutral or alkaline conditions. A lot of heterologous alkaline cellulases have been successfully expressed in T. reesei to improve its cellulolytic profile. To our knowledge, there are few reports describing the co-expression of two or more heterologous cellulases in T. reesei. We designed and constructed a promoter collection for gene expression and co-expression in T. reesei. Taking alkaline cellulase as a reporter gene, we assessed our promoters with strengths ranging from 4 to 106 % as compared to the pWEF31 expression vector (Lv D, Wang W, Wei D (2012) Construction of two vectors for gene expression in Trichoderma reesei. Plasmid 67(1):67–71). The promoter collection was used in a proof-of-principle approach to achieve the co-expression of an alkaline endoglucanase and an alkaline cellobiohydrolase. We observed higher activities of both cellulose degradation and biostoning by the co-expression of an endoglucanase and a cellobiohydrolase than the activities obtained by the expression of only endoglucanase or cellobiohydrolase. This study makes the process of engineering expression of multiple genes easier in T. reesei.     

Urease and extracellular nucleases of yeasts

Fifty-five representatives of yeast genera and 745 strains of large genera were tested with respect to the production of urease, extracellular RNAase and DNAase. The results made it possible to set up eight taxonomical classes of the yeasts. The taxonomical significance of the classification of these 8 classes is discussed.     

西南地区高山湖泊中可培养细菌多样性及其所产胞外活性物质的特性

【目的】研究西南不同地区的高山湖泊中可培养细菌的多样性及其产胞外蛋白酶、纤维素酶和胞外多糖的能力。【方法】以西南4个不同地区的高山湖泊:雷波的马湖(LB)、中缅边境的凯邦亚湖(ZM)、沙德的莲花湖(SD)、腾冲的青海湖(TC)的水样为研究对象,利用稀释涂布平板方法对可培养细菌进行分离筛选,然后通过对可培养细菌的生理生化指标和16S r RNA基因序列进行分析,初步确定细菌属别;对分离得到的菌株进行产胞外蛋白酶和纤维素酶活性测定和产胞外多糖能力检测。【结果】从西南地区4个湖泊中共分离筛选得到41株细菌,其中LB 15株、ZM 13株、SD 7株、TC 6株。根据16S r RNA基因序列的系统进化分析,4个地区可培养细菌的组成和丰度存在明显差异,其中LB和ZM的优势菌属是芽孢杆菌属(Bacillus),其次是气单胞菌属(Aeromonas)和假单胞菌属(Pseudomonas),分离的TC菌株全部属于芽孢杆菌属(Bacillus),分离的SD菌株特异性较强。进一步酶活性和胞外多糖检测表明,分离得到的41株细菌中有28株菌的发酵产物具有蛋白酶活性,6株具有纤维素酶活性,17株可产胞外多糖(Exopolysaccharides,EPS)。其中有2株细菌同时产蛋白酶、纤维素酶和胞外多糖,10株细菌同时产蛋白酶和胞外多糖,2株细菌同时产蛋白酶和纤维素酶,1株细菌同时产纤维素酶和胞外多糖。【结论】西南4个高山湖泊中存在丰富的微生物菌种资源,且4个湖泊中筛选的可培养细菌受所处环境的影响大。其中莲花湖由于高海拔和较偏僻等特点,人为干扰小,分离得到的细菌类群与其他湖泊相比明显不同;而马湖、凯邦亚湖和青海湖3个湖泊的海拔相对较低,受人类活动影响较大,分离得到的细菌均较常见。此外高山湖泊中的可培养细菌具有分泌多种胞外活性物质特性,为工业化应用奠定了资源基础,极具更深入的开发和研究价值。     

The ubiquity of natural adsorbable organic halogen production among basidiomycetes

 Recently, several species of basidiomycetes were shown to produce de novo high concentrations of chloroaromatic metabolites. Since these lignocellulose-degrading fungi play a major role in the ecosphere, the purpose of this study was to determine the ubiquity of organohalogen production among basidiomycetes. A total of 191 fungal strains were monitored for adsorbable organic halogen (AOX) production when grown on defined liquid media. Approximately 50% of the strains tested and 55% of the genera tested produced AOX. A low production of 0.1–0.5 mg AOX/l was observed among 25% of the strains, a moderate production of 0.5–5.0 mg AOX/l was observed among 16% of the strains and 9% of the strains produced high levels (5–67 mg AOX/l). The latter group was dominated by species belonging to the genera Hypholoma, Mycena and Bjerkandera, showing specific AOX productions in the range 1074–30893 mg AOX/kg dry weight of mycelial biomass. Many highly ecologically significant fungal species were identified among the moderate to high producers. These species were also able to produce AOX when cultivated on natural lignocellulosic substrates. Hypholoma fasciculare and Mycena metata respectively produced up to 132 mg and 193 mg AOX/kg dry weight of forest litter substrate in 6 weeks. Received: 5 October 1995/Received revision: 28 December 1995/Accepted: 12 February 1996     

Exogenous cellulases of thermophilic micromycetes. Part I. Selection of producers

More than 600 micromycetes – representatives of different genera have been investigated for their ability to produce exogenous cellulases. Most of the investigated cultures were found to produce these enzymes, 24 cultures being thermophilic, and 18 thermotolerant. Cellulase or its derivatives proved to be the most favourable carbon source for cellulase secretion. None of the thermophilic cultures studied manifested the ability of exogenous exoglucanase biosynthesis. Using UV-rays as mutagen, a mutant strain A. terreus T-49 has been obtained being characterized by an increased endo-glucanase and cellobiase activity, as compared to the initial strains. The cellulase preparations of thermophilic micromycetes contain one cellulasic component: endo-glucanase, or two: endo-glucanase and cellobiase.     

Use of a packed-column bioreactor for isolation of diverse protease-producing bacteria from antarctic soil

Seventy-five aerobic heterotrophs have been isolated from a packed-column bioreactor inoculated with soil from Antarctica. The column was maintained at 10 degrees C and continuously fed with a casein-containing medium to enrich protease producers. Twenty-eight isolates were selected for further characterization on the basis of morphology and production of clearing zones on skim milk plates. Phenotypic tests indicated that the strains were mainly psychrotrophs and presented a high morphological and metabolical diversity. The extracellular protease activities tested were optimal at neutral pH and between 30 and 45 degrees C. 16S ribosomal DNA sequence analyses showed that the bioreactor was colonized by a wide variety of taxons, belonging to various bacterial divisions: alpha-, beta-, and gamma-Proteobacteria; the Flexibacter-Cytophaga-Bacteroides group; and high G+C gram-positive bacteria and low G+C gram-positive bacteria. Some strains represent candidates for new species of the genera Chryseobacterium and Massilia. This diversity demonstrates that the bioreactor is an efficient enrichment tool compared to traditional isolation strategies.     

Screening for Ligninolytic Enzyme Production by Diverse Fungi from Tunisia

Summary This work represents the first report on the ability of autochthonous fungi from Tunisia to produce ligninolytic enzymes. Three hundred and fifteen fungal strains were isolated from different Tunisian biotopes. These fungal strains were firstly screened on solid media containing Poly R-478 or ABTS as indicator compounds that enabled the detection of lignin-modifying enzymes as specific color reactions. Of the 315 tested strains, 49 exhibited significant ABTS-oxidation activity expressed within the first week of incubation and only 18 strains decolorized the Poly R-478. Liquid cultivations and laccase, manganese peroxidase and lignin peroxidase activity assays of positive strains confirmed that eight efficient enzyme producers were found in the screening. These strains were attributed to the most closely related species using PCR amplification and sequencing of the internal transcribed spacer ‘ITS’ regions of the ribosomal DNA. The identification results showed fungal genera such as Oxyporus, Stereum and Trichoderma which have been only rarely reported as ligninolytic enzyme producers in the literature. Culture conditions and medium composition were optimized for the laccase producer Trametes trogii CTM 10156. This optimization resulted in high laccase production, 367 times more than in non-optimized conditions and which reached 110 U ml^-1 within 15 days of incubation.     

Separation and quantification of cellulases and hemicellulases by capillary electrophoresis

Cellulases and hemicellulases are two classes of enzymes produced by filamentous fungi and secreted into the cultivation medium. Both classes of enzymes consist of a subset of classes of which the fungi produce several enzymes with varying molecular mass and pI but similar enzymatic activities. Current methods are limited in their ability to quantify all of these enzymes when all are present simultaneously in a mixture. Five different cellulases (two cellobiohydrolases and three endoglucanases) and one hemicellulase (endoxylanase) were separated using capillary electrophoresis (CE) in a fused silica capillary at pH values close to neutral. The improvement of the separation of these six proteins by the addition of alpha,omega-diaminoalkanes with chain lengths from three to seven carbon units was investigated. Dynamically coating the capillary with 1,3-diaminopropane resulted in separation of the six enzymes and the reproducibility of the migration times was between 0.6 and 1.9%. Two cases-quantitative determination of the enzyme concentrations in cultivation samples and investigation of adsorption of the enzymes onto cellulose-demonstrated the advantages and perspectives of CE analysis of these broad groups of enzymes.     

Unique diversity of carotenoid-producing bacteria isolated from Misasa,a radioactive site in Japan

We obtained carotenoid-producing microorganisms at a high frequency from water samples collected at Misasa (Tottori, Japan), a region known for its high natural radioactivity content. A comprehensive 16S rRNA gene-based phylogenetic analysis revealed that the 104 potential carotenoid producers isolated from Misasa could be classified into 38 different species belonging to seven bacterial classes (Flavobacteria, Sphingobacteria, alpha-Proteobacteria, gamma-Proteobacteria, Deinococci, Actinobacteria, and Bacilli). Of these 38 species, 14 showed sequence similarities less than 97% to their closest identified relatives, and 9 were related to genera that have not been described earlier in terms of carotenoid production. The red-pigmented isolates belonging to Deinococci showed marked resistance to gamma rays and UV irradiation, while those related to Sphingomonas showed weak resistance. The carotenoids produced by the isolates were zeaxanthin (6 strains), dihydroxyastaxanthin (24 strains), astaxanthin (27 strains), canthaxanthin (10 strains), and unidentified molecular species that were produced by the isolates related to Deinococcus, Exiguobacterium, and Flectobacillus. UV irradiation would be useful for the selective isolation of carotenoid-producing microorganisms, and that new microbial producers and other molecular species of carotenoids may potentially be identified from radioactive environments.     

Identification of hepatotoxin-producing cyanobacteria by DNA-chip

We developed a new tool to detect and identify hepatotoxin-producing cyanobacteria of the genera Anabaena , Microcystis , Planktothrix , Nostoc and Nodularia . Genus-specific probe pairs were designed for the detection of the microcystin ( mcyE ) and nodularin synthetase genes ( ndaF ) of these five genera to be used with a DNA-chip. The method couples a ligation detection reaction, in which the polymerase chain reaction (PCR)-amplified mcyE / ndaF genes are recognized by the probe pairs, with a hybridization on a universal microarray. All the probe pairs specifically detected the corresponding mcyE / ndaF gene sequences when DNA from the microcystin- or nodularin-producing cyanobacterial strains were used as template in the PCR. Furthermore, the strict specificity of detection enabled identification of the potential hepatotoxin producers. Detection of the genes was very sensitive; only 1–5 fmol of the PCR product were needed to produce signal intensities that exceeded the set background threshold level. The genus-specific probe pairs also reliably detected potential microcystin producers in DNA extracted from six lake and four brackish water samples. In lake samples, the same microcystin producers were identified with quantitative real-time PCR analysis. The specificity, sensitivity and ability of the DNA-chip in simultaneously detecting all the main hepatotoxin producers make this method suitable for high-throughput analysis and monitoring of environmental samples.     

Comparative study of cellulases and hemicellulases from four fungi: mesophiles Trichoderma reesei and Penicillium sp. and thermophiles Thielavia terrestris and Sporotrichum cellulophilum

The enzymes produced by two thermophilic fungi claimed to produce heat-stable cellulases [see 1,4-(1,3;1,4)-β-d-glucan 4-glucanohydrolase, EC 3.2.1.4] have been compared to those of two mesophilic fungi on the basis of the following criteria: polysaccharolytic spectrum, heat and pH effects on stability and on activity of the different enzymes, and the ability to hydrolyse raw natural substrates. The cellulases produced by one of the thermophiles, Sporotrichum cellulophilum, appeared to be as heat-labile as those from the mesophile Trichoderma reesei; moreover, the former enzyme preparation is the least efficient of the four tested. Thielavia terrestris enzymes are the most thermostable; on the basis of the other properties tested, T. terrestris enzymes are comparable to, or in some cases better than, those from mesophilic strains. However, the differences are not so great as to compensate for the much lower productivity of T. terrestris compared to the improved T. reesei and Penicillium sp. strains.     

Intracellular alkaline proteases produced by thermoacidophiles: detection of protease heterogeneity by gelatin zymography and polymerase chain reaction (PCR)

In this study 24 thermoacidophilic archeal and bacterial strains isolated from hot-springs and hot-soils were screened for their ability to produce intracellular alkaline proteases. The protease activities of the strains, based on azocasein hydrolysis, showed a variation from 0.6 to 5.1 U. The cell extracts of three most potent producers were further examined and it was found that their proteases exhibited maximum activity at 60-70 degrees C and showed a pH optimum over a range of pH 7.0-8.5. Gelatin zymography revealed that two of the selected archeal strains produced multiple active SDS-resistant proteases. On the other hand, PCR amplification of alkaline serine protease gene sequences of total DNA from all isolates yielded four distinct amplification fragments of 650, 450, 400 and 300 bp, which might have been derived from different serine protease genes.     

Diversity of Heterotrophic Halophilic Bacteria Isolated from Coastal Solar Salterns,Bulgaria and Their Ability to Synthesize Bioactive Molecules with Biotechnological Impact

Investigations on the microbial life in several coastal solar salterns have revealed the presence of novel organisms and synthesis of unusual molecules active in extreme conditions which might be useful in different biotechnological industries. Biodiversity of heterotrophic aerobic bacteria isolated from two salterns, Pomorie salterns and Burgas salterns located at Burgas Bay, Black Sea coast, Bulgaria, as well as ability of the isolates to synthesize biotechnologically valuable compounds were investigated. The results revealed high taxonomic and metabolic bacterial diversity—we isolated 20 morphologically different moderately halophilic and two halotolerant strains affiliated with 11 species from eight genera referred to the phyla Proteobacteria, Firmicutes, and Actinobacteria. Gram-negative bacteria belonged to the genera Halomonas, Chromohalobacter, Salinivibrio, Cobetia, and Nesiotobacter, and gram-positive strains were representatives of the genera Virgibacillus, Salinicoccus, and Brevibacterium. All isolates were found to be alkalitolerant, and 41% of them were psychrotolerant. The strains degraded nine of the tested 18 substrates; polygalacturonase, catalase, phytase, and lipase producers were predominant. This is the first reported detection of xanthan lyase, gellan lyase, arabinase, and phytase activities in halophilic bacteria. Nine of the strains belonging to five different genera were found to produce exopolysaccharides (EPS). The highest level of EPS was observed in Chromohalobacter canadensis strain 28. More than a half of the strains displayed antimicrobial activity against one to five test bacteria and yeasts. The present study is the first report on halophilic bacteria isolated from salterns at the Black Sea coast indicating that the investigated area is an untapped resource of halophilic bacteria with biotechnological potential.     

Application of cellulases from Acrophialophora nainiana and Penicillium echinulatum in textile processing of cellulosic fibres

New cellulases from the fungi Acrophialophora nainiana and Penicillium echinulatum were used in the finishing of knitted cotton fabrics (biopolishing) and compared with the well established enzymes from Trichoderma reesei. Both cellulases reduced the pilling tendency with a lower weight loss than T. reesei cellulases. Cellulases from P. echinulatum were also studied in stonewashing of denim fabrics to obtain the fashionable aged look in indigo dyed jeans ware and were found to remove more colour from denim fabrics and produce less indigo dye redeposition (back-staining) than commercial acid or neutral cellulases under the test conditions. Efficiency was found to be influenced by pH during textile processing and the substrate used for the production of cellulases. Cellulases produced by P. echinulatum grown on cellulose showed better stonewashing results (higher colour removal and less back-staining) than cellulases produced on sugar cane bagasse. The substrate used during enzyme production of P. echinulatum cellulases seems to have a significant influence on cellulose composition, which affects textile processing results.     

Toxic misfolding of Arabidopsis cellulases in the secretory pathway of Pichia pastoris

Plants produce a large number of cellulases that are either secreted or anchored in the plasma membrane where they likely function in various aspects of cellulose synthesis, modification and degradation during plant growth and development. Very few of these enzymes have been characterized in any detail, however. Here we attempted to produce two Arabidopsis modular cellulases, which contain a catalytic domain belonging to glycoside hydrolase family 9 (GH9) and a carbohydrate binding module (CBM), in the yeast Pichia pastoris. Neither of the intact modular enzymes was detectably produced, although the independently expressed GH9 catalytic domain of one enzyme was secreted when the protein was expressed at low temperature. Expression of intact and truncated cellulases at the standard temperature caused extensive cell lysis, with release of high concentrations of endogenous proteins into the culture medium. Cell lysis appeared to result from misfolding of cellulase proteins within the Pichia secretory pathway. The toxicity of these misfolded cellulases potentially could be exploited to derive host strains with enhanced capability to fold recombinant secretory proteins.     

Biochemistry and genetics of actinomycete cellulases.

The order Actinomycetales includes a number of genera that contain species that actively degrade cellulose and these include both mesophilic and facultative thermophilic species. Cellulases produced by strains from two of the genera containing thermophilic organisms have been studied extensively: Microbispora bispora and Thermomonospora fusca. Fractionation of M. bispora cellulases has identified six different enzymes, all of which were purified to near homogeneity and partially characterized. Two of these enzymes appear to be exocellulases and gave synergism with each other and with the endocellulases. The structural genes of five M. bispora cellulases have been cloned and one was sequenced. Fractionation of T. fusca cellulases has identified five different enzymes, all of which were purified to near homogeneity and partially characterized. One of the T. fusca enzymes gives synergism in the hydrolysis of crystalline cellulose with several T. fusca endocellulases and with Trichoderma reesei CBHI but not with T. reesei CBHII. Each T. fusca cellulase contains distinct catalytic and cellulose binding domains. The structural genes of four of the T. fusca endoglucanases have been cloned and sequenced, while three cellulase genes have been cloned from "T. curvata". The T. fusca cellulase genes are expressed at a low level in Escherichia soli, but at a high level in Streptomyces lividans. Sequence comparisons have shown that there are no significant amino acid homologies between any of the catalytic domains of the four T. fusca cellulases, but each of them shows extensive homology to several other cellulases and fits in one of the five existing cellulase gene families. There have been extensive studies of the regulation of the synthesis of these cellulases and a number of regulatory mutants have been isolated. This work has shown that the different T. fusca cellulases are coordinately regulated over a 100-fold range by two independent controls; induction by cellobiose and repression by any good carbon source.     

A screening technique to isolate bacterial strains producing high molecular weight bacteriocins

Summary Bacterial strains producing high molecular weight bacteriocins can be easily and rapidly screened in two-steps procedure. The first one uses the lyspgenic property of bacteriocin production and the identification of the lysogenic cells by simple colorimetric detection of alkaline phosphatase in the culture medium after mitomycin C treatment The presence of high molecular weight bacteriocins is determined in the second step by examination in transmission electron microscopy. This procedure is tested with 302 different strains, 3 of them are identified as high molecular weight bacteriocins producers.