Identification and characterization of chitinolytic bacteria isolated from a freshwater lake

To develop a novel type of biocontrol agent, we focus on bacteria that are characterized by both chitinase activity and biofilm development. Chitinolytic bacteria were isolated from sediments and chitin flakes immersed in the water of a sand dune lake, Sakata, in Niigata, Japan. Thirty-one isolates from more than 5100 isolated strains were examined chitinase activity and biofilm formation. Phylogenetic analysis of these isolates based on the 16S rRNA gene sequences revealed that most isolates belonged to the family Aeromonadaceae, followed by Paenibacillaceae, Enterobacteriaceae, and Neisseriaceae. The specific activity of chitinase of four selected strains was higher than that of a reference strain. The molecular size of one chitinase produced by Andreprevotia was greater than that of typical bacterial chitinases. The dialyzed culture supernatant containing chitinases of the four strains suppressed hyphal growth of Trichoderma reesei. These results indicate that these four strains are good candidates for biocontrol agents.     

Effects of carbon and nitrogen sources on the induction and repression of chitinase enzyme from<Emphasis Type="Italic">Metarhizium anisopliae</Emphasis> isolates

Metarhizium anisopliae, an entomopathogenic hyphomycete, is being used effectively in Integrated Pest Management (IPM) system. Foliar application of these fungi is quite satisfactory as it invades its host by adhering to insect cuticles and formation of penetration structures called appresoria, which produces various extracellular enzymes, including chitinase that causes the insect cuticle breaching. The induction and repression mechanism of chitinase activity is not entirely understood and activity of this enzyme is different in response to different carbon and nitrogen sources. This report illustrates the effect of two carbon sources viz. colloidal chitin and dextrose and a nitrogen source, yeast extract on the chitinase production of fourteenM. Anisopliae isolates. The chitinase activity varied among the isolates and the different media used. A high enzymatic activity was observed in the medium containing an extra nitrogen source (yeast extract) followed by the medium containing colloidal chitin as a sole source of carbon and nitrogen. The exochitinase activity and the chitinase activity gel were also studied for the isolates showing high chitinase enzyme production. An array of chitinase isozymes were observed on chitinase activity gel with a common 14.3 kDa enzyme for all the isolates.     

Carbon Requirements of Some Nematophagous, Entomopathogenic and Mycoparasitic Hyphomycetes as Fungal Biocontrol Agents

Thirty-three carbon sources were evaluated for their effects on spore germination, hyphal growth and sporulation of 11 fungal biocontrol agents, i.e. the nematophagous fungi Paecilomyces lilacinus, Pochonia chlamydosporia, Hirsutella rhossiliensis, H. minnesotensis and Arkansas Fungus 18, the entomopathogenic fungi Lecanicillium lecanii, Beauveria bassiana and Metarhizium anisopliae, and the mycoparasitic fungus Trichoderma viride. Variations in carbon requirements were found among the fungal species or strains tested. All strains studied except for T. viride grew on most carbon sources, although B. bassiana had more fastidious requirements for spore germination. Monosaccharides and disaccharides were suitable for fungal growth. For most isolates, d-glucose, d-mannose, sucrose and trehalose were superior to pectin and soluble starch among the polysaccharides and lactic acid among the organic acids. Both ethanol and methanol could accelerate growth of most isolates but not biomass. d-mannose, d-fructose and d-xylose were excellent carbon sources for sporulation, while d-glucose, sucrose, cellobiose, trehalose, chitin, dextrin, gelatin and lactic acid were better for some isolates. Neither sorbic acid nor linoleic acid could be utilized as a single carbon source. These findings provided a better understanding of the nutritional requirements of different fungal biocontrol agents that can benefit the mass production process.     

Some properties of chitinase produced by a potent Aspergillus carneus strain

Summary Seven fungal isolates characterized by high chitinolytic activity were isolated from soil and identified. Aspergillus carneus in a 7-day-old shaken culture was the most promising chitinase producer. The use of chitin as a carbon source favoured production of extracellular chitinase enzymes. Maximum chitinase activity was reached at 10 g chitin/1. An initial pH value of the culture medium of 5.0 gave the highest chitinolytic activity. Some properties of the crude enzyme produced by A. carneus were studied. Maximal enzyme activity was reached at pH 4.5 and 40° C after 30 min. Thermal treatments at 70° C and pH 4.5 had the most adverse effect on enzyme activity.Offprint requests to: M. A. Abd El-Naby     

Comparative physiology of nitrogenase activity and vesicle development for Frankia strains CpI1, ACN1 ag,EAN1pec and EUN1f

The relationship between nitrogen fixation and development of a specialized cell structure, called the vesicle, was studied using four Frankia isolates. Nitrogenase activity was repressed in all four strains during growth with ammonia. Strain CpI1 formed no vesicles during NH₄ growth. Strains ACN1 ^ag , EAN1_pec and EUN1_f produced low numbers of vesicles in the presence of ammonia. Following transfer to nitrogen-free media, a parallel increase in nitrogenase activity and vesicle numbers occurred with all four isolates. Appearance of nitrogenase activity was more rapid in those strains that possessed some vesicles at the time of shift to N₂ as a nitrogen source. The ratio of vesicle numbers to level of nitrogenase activity varied widely among the four strains and in response to different growth conditions and culture age of the individual strains. Optimum conditions of temperature, carbon and energy source, nitrogen source and availability of iron and molybdenum were different for each of the four strains. Those conditions that significantly reduced nitrogenase activity were always associated with decreased numbers of vesicles.     

Microbial utilization of the industrial wastewater pollutants 2-ethylhexylthioglycolic acid and <Emphasis Type="Italic">iso</Emphasis>-octylthioglycolic acid by aerobic Gram-negative bacteria

Industrial wastewater from the production of sulfur containing esters and the resulting products of this synthesis, 2-ethylhexylthioglycolic acid (EHTG) and iso-octylthioglycolic acid (IOTG), were deployed in this study to enrich novel bacterial strains, since no wastewater and EHTG or IOTG degrading microorganisms were hitherto described or available. In addition, nothing is known about the biodegradation of these thiochemicals. The effect of this specific wastewater on the growth behaviour of microorganisms was investigated using three well-known Gram-negative bacteria (Escherichia coli, Pseudomonas putida, and Ralstonia eutropha). Concentrations of 5% (v/v) wastewater in complex media completely inhibited growth of these three bacterial strains. Six bacterial strains were successfully isolated, characterized and identified by sequencing their 16S rRNA genes. Two isolates referred to as Achromobacter sp. strain MT-E3 and Pseudomonas sp. strain MT-I1 used EHTG or IOTG, respectively, as well as the wastewater as sole source of carbon and energy for weak growth. More notably, both isolates removed these sulfur containing esters in remarkable amounts from the cultures supernatant. One further isolate was referred to as Klebsiella sp. strain 58 and exhibited an unusual high tolerance against the wastewater’s toxicity without utilizing the contaminative compounds. If cultivated with gluconic acid as additional carbon source, the strain grew even in presence of more than 40% (v/v) wastewater. Three other isolates belonging to the genera Bordetella and Pseudomonas tolerated these organic sulfur compounds but showed no degradation abilities.     

Production and regulation of extracellular chitinase from the entomopathogenic fungus Isaria fumosorosea

Extracellular chitinase production by the entomopathogenic fungus, Isaria fumosorosea IF28.2 was studied by using submerged fermentation. Maximum chitinase production (178.34±3.91 mU/mL) was obtained when fermentation was carried out at 25°C for 120 h using 72-h-old mycelium in a medium. The effect of inoculum size on chitinase activity was also observed and maximum chitinase activity (159.41±2.91 mU/mL) was obtained with an inoculum size of 3 discs while an incubation period of 96 h proved the most active inducer of chitinase production yielding a chitinase activity of 186.14±3.81 mU/mL. Colloidal chitin (1.5%, w/v) proved to be the best concentration. The optimum pH for chitinase production was 5.7 while 25°C proved to be the best temperature for chitinase production. Supplementation of additional carbon source like 1.5% N-acetylglucosamine (GlcNAc) showed further enhancement in chitinase production. The divalent metal salts, CaCl₂, MgCl₂ and ZnSO₄, inhibited chitinase activity at 10 and 100 mM concentration, whereas inhibition of chitinase activity by KCl, FeSO₄ and EDTA was observed only at higher concentrations. The results presented in this study increase the knowledge on chitinase production in I. fumosoroseus opening new avenues for the study of the role of this enzyme in virulence against different insect pests during the infection process.     

Efficacy ofTrichoderma chitinases againstRhizoctonia solani, the rice sheath blight pathogen

Thirty-five strains ofTrichoderma viride andT. harzianum were screened for their antagonistic ability against the rice sheath blight pathogen,Rhizoctonia solani. The strains that inhibited/overgrew the phytopathogenic fungus were considered effective. Light microscopic studies showed the antagonism of the hyphae of effectiveTrichoderma strains towards their host hyphae. Chitinase activity ofTrichoderma culture filtrates was enhanced, when colloidal chitin was used as the sole carbon source, instead of glucose. Chitinase pattern differed among the four select strains. The chitinase isoforms are induced differentially by carbon sources. The chitin affinity column fraction ofTrichoderma culture filtrate inhibited,in vitro, the growth ofR. solani.     

Biodegradation of γ-hexachlorocyclohexane (Lindane) by a non-white rot fungus conidiobolus 03-1-56 isolated from litter

Biodegradation of chlorinated pesticide γ-hexachlorocyclohexane (lindane) by a nonwhite rot fungus Conidiobolus 03-1-56 is reported for the first time. Conidiobolus 03-1-56, a phycomyceteous fungus isolated from litter, completely degraded lindane on the 5th day of incubation in the culture medium, and GC-ECD studies confirmed that lindane removal did not occur via adsorption on the fungal biomass. Degradation studies using different medium compositions showed that nitrogen/carbon limiting conditions (stress conditions) and presence of veratryl alcohol, induced the secretion of extracellular oxidative enzymes, which enhanced the rate of lindance biodegradation. Under optimum nutrient-limiting conditions, GC-ECD and GC-MS analysis showed complete absence of any degradation metabolite, indicating that lindane was completely mineralized. Assays for tannic acid utilization and lignin peroxidase showed similar enzymatic profiles between Conidiobolus 03-1-56 and standard white rot fungi Pleurotus ostreatus 1200 and Trametes versicolor 1086. Although Conidiobolus 03-1-56 showed a reduced enzyme activity compared to white rot fungi, preliminary evidence indicates that enzymes responsible for lignin degradation by white rots play a key role in lindane degradation by Conidiobolus 03-1-56.     

New bacilli from shallow hydrothermal vents of Panarea Island (Italy) and their biotechnological potential

Aims: To characterize bacilli isolated from shallow hydrothermal vents of Panarea Island (Italy) and evaluate their biotechnological potential. Methods and Results: Fifteen isolates were characterized by culture and molecular methods. Eleven isolates were thermophilic, six isolates were alkalophilic and four of them were haloalkalophilic. After 16S rRNA gene sequencing, four strains, exhibiting sequence similarity below 95% with deposited strains, may represent novel species of bacilli. One strain was strictly related to Geobacillus subterraneus, but shared phenotypic characteristics for which it could be considered a new strain of this species. Four strains were affiliated with different Bacillus spp. Most isolates produced gelatinase, lipases and amylase, and some were mercury tolerant. Exopolysaccharides (EPS) production was tested adding different sugars (glucose, sucrose, trehalose, fructose, ribose, xylose and mannose, 1% w/v) as a carbon source in a minimal medium. The highest EPS yield (185 mg l^?1) was reached by strain 1A70 utilizing ribose as a carbon source. Conclusions: Novel strains of Geobacillus and indigenous ribotypes of Bacillus with biotechnological potential inhabit shallow vents of Panarea Island. Significance and Impact of the Study: New strains of thermophilic bacilli from Panarea are producers of useful biomolecules for industrial purposes as well as environmental and biotechnological applications.     

Production of extracellular enzymes and degradation of biopolymers by saprotrophic microfungi from the upper layers of forest soil

Production of extracellular enzymes participating in the degradation of biopolymers was studied in 29 strains of nonbasidiomycetous microfungi isolated from Quercus petraea forest soil based on the frequency of occurrence. Most of the isolates were ascomycetes and belonged to the genera Acremonium, Alternaria, Cladosporium, Geomyces, Hypocrea, Myrothecium, Ochrocladosporium, and Penicillium (18 isolates), and two isolates were zygomycetes. Only six isolates showed phenol oxidation activity which was low and none of the strains were able to degrade humic acids. Approximately half of the strains were able to degrade cellulose and all but six degraded chitin. Most strains produced significant amounts of the cellulolytic enzymes cellobiohydrolase and ??-glucosidase and the chitinolytic enzymes chitinase, chitobiosidase, and N-acetylglucosaminidase. The highest cellulase activities were found in Penicillium strains, and the highest activity of chitinolytic enzymes was found in Acremonium sp. The production of the hemicellulose-degrading enzymes ??-galactosidase, ??-galactosidase, and ??-mannosidase was mostly low. The microfungal strains were able to produce significant growth on a range of 41?C87, out of 95 simple C-containing substrates tested in a Biolog? assay, monosaccharides being for all strains the most rapidly metabolized C-sources. Comparison with saprotrophic basidiomycetes from the same environment showed that microfungi have similar cellulolytic capabilities and higher chitinase activities which testifies for their active role in the decomposition of both lignocellulose and dead fungal biomass, important pools of soil carbon.     

A genetic discontinuity in root-nodulating bacteria of cultivated pea in the Indian trans-Himalayas

Evolutionary relationships of 120 root‐nodulating bacteria isolated from the nodules of Pisum sativum cultivated at 22 different locations of the trans‐Himalayan valleys of Lahaul and Spiti in the state of Himachal Pradesh of India were studied using 16S rRNA gene PCR‐RFLP, ERIC‐PCR, sequencing of 16S rRNA, atpD, recA, nodC and nifH genes, carbon‐source utilization pattern (BIOLOG?), and whole‐cell fatty acid profiling. The results demonstrated that all isolates belonged to Rhizobium leguminosarum symbiovar viciae (Rlv). Isolates from the two valleys were clearly separated on the basis of ERIC fingerprints, carbon‐source utilization pattern, and whole‐cell fatty acid methyl esters. Phylogenetic analysis of atpD, recA, nodC and nifH genes revealed a common Rlv sublineage in Spiti valley. Lahaul valley isolates were represented by three sequence types of atpD and recA genes, and four sequence types of nodC and nifH genes. Genotypes from the two valleys were completely distinct, except for two Lahaul isolates that shared nodC and nifH sequences with Spiti isolates but were otherwise more similar to other Lahaul isolates. Isolates from the two highest Spiti valley sites (above 4000 m) had a distinctive whole‐cell fatty acid profile. Spiti valley isolates are closely related to Rlv sublineages from Xinjiang and Shanxi provinces in China, while Lahaul valley isolates resemble cosmopolitan strains of the western world. The high mountain pass between these valleys represents a boundary between two distinct microbial populations.     

Effect of Carbon Source on Production of Lytic Enzymes by the Sclerotial Parasites Trichoderma atroviride and Coniothyrium minitans

Three isolates of Trichoderma atroviride and two isolates of Coniothyrium minitans known to efficiently degrade sclerotia of Sclerotinia sclerotiorum were cultured on minimal medium with sucrose, carboxymethyl cellulose (CMC), xylan, laminarin, colloidal chitin or powdered sclerotia as carbon source. The activity of endochitinase, endo‐β‐1,3‐glucanase, endoxylanase and endocellulase in culture filtrates was determined after 7 and 15 days of culture using dye‐labelled substrates. The strongest inducers of chitinase were colloidal chitin and sclerotia powder. Chitinase activity appeared to be faster induced in the isolates of T. atroviride than in the isolates of C. minitans, but the maximum level of activity present in culture filtrates of the two species was similar. With CMC and xylan as carbon source, concurrent production of the corresponding enzymes was observed for the Trichoderma isolates. The isolates of C. minitans produced cellulase on xylan but not on CMC, whereas xylanase was produced on both carbon sources. Laminarin induced the formation of glucanases in the three isolates of T. atroviride but not the isolates of C. minitans. However, in the sclerotia‐containing cultures of C. minitans glucanase activity was even higher than in the respective cultures of the Trichoderma isolates. During the 31‐day study period, the pattern of enzyme production in shake cultures containing sclerotia powder was very similar for the isolates of T. atroviride and C. minitans. Glucanase activity generally reached a peak 24 days after inoculation of the flasks, whereas the activity of chitinase, cellulase and xylanase remained fairly constant throughout the experiment.     

Aerobic biodegradation of methyl tert-butyl ether (MTBE) by pure bacterial cultures isolated from contaminated soil

Summary Methyl tert-Butyl Ether (MTBE) has been used in gasoline as a substitute for lead-based additives, which have been demonstrated to be toxic. MTBE however, is persistent in soil and water, showing high affinity for water and low affinity for soil, and has become an important contaminant. Therefore, the aim of this work was to isolate and identify soil microorganisms capable of degrading MTBE. Two samples were taken from a gasoline-contaminated soil at a service station and 59 different bacterial strains were isolated by enrichment culture with three consecutive selective transfers. Biochemical and morphological characterization of the bacterial isolates classified them into the following groups: Bacillus, Rhodococcus, Micrococcus, Aureobacterium and Proteus. Twelve strains were selected for evaluation of MTBE biodegradation depending on visual growth and biomass production of the isolates in minimal salt broth. Six strains significantly reduced MTBE concentration (22–37%) compared to an abiotic control after 5 days of incubation. Although it has been considered that MTBE is degraded mainly by cometabolism, our results demonstrate that these microorganisms are able to reduce MTBE concentration when MTBE is the sole source of carbon.     

Genetic diversity of phthalic acid esters-degrading bacteria isolated from different geographical regions of China

Thirty-two strains of phthalic acid ester (PAEs)-degrading bacteria were isolated from thirteen geographically diverse sites by enrichment using mixtures of PAEs as the sole source of carbon and energy. Sequence analyses of the 16S rRNA gene indicated that these isolates were from six genera (Arthrobacter, Gordonia, Rhodococcus, Acinetobacter, Pseudomonas, and Delftia). To evaluate the genetic diversity among them, the molecular typing method rep-PCR with primers based on enterobacterial repetitive intergenic consensus, repetitive extragenic palindromes, and BOXAIR sequences was performed. Strain-specific and unique genotypic fingerprints were distinguished for most of these isolates. In addition, utilization of various PAEs and the central intermediate phthalic acid by representative isolates suggested inter-isolate differences in the substrate utilization and degradation pathways. Furthermore, HPLC analysis showed that the rate of dimethyl phthalate degradation varied from 48.32 to 100% between strains. These results suggest a high level of genetic diversity among PAEs-degrading bacteria in the natural environment and their great potential to clean up phthalates-contaminated environments.     

Phenotypic characteristics of root-nodulating bacteria isolated from Acacia spp. grown in Libya

Thirty isolates of root-nodulating bacteria obtained from Acacia cyanophylla, A. karroo, A. cyclops, A. tortilis (subsp.raddiana), Faidherbia albida and Acacia sp., grown in different regions of Libya, were studied by performing numerical analysis of 104 characteristics. Three fast- and one slow-growing reference strains from herbaceous and woody legumes were included. Five distinct clusters were formed. The fast-growing reference strains were separated from the isolates whereas the slow-growing was included in cluster 4. With the exception of one cluster, the majority of clusters were formed regardless of the host plant or site of origin. Based on plant tests, generation times, acid production and carbon utilization the isolates were diverse (fast and slow-growing isolates). Like slow-growing isolates, most of the fast-growing isolates appeared to be non-specific, nodulated many species from the same genus notably F. albida, known to nodulate only with slow-growing strains. Most clusters grew at temperatures 35 °C and 37 °C; some grew at temperatures above 40 °C. The majority of isolates grew at acid and alkaline pH and only one isolate grew below pH 4. Most isolates were able to utilize many amino acids as nitrogen sources and to reduce nitrate. Urea was hydrolysed by all clusters. Monosaccharides and polyols were used by slow and fast-growing isolates as the only carbon sources whereas assimilation of disaccharides varied: Some isolates, like slow-growing isolates, failed to utilize these carbon sources. Most isolates were unable to utilize polysaccharides. Regarding tolerance to NaCl on agar medium, the majority of isolates were unable to grow at a concentration of 2% NaCl, but some were highly resistant and there was one isolate which grew at 8% NaCl. Most isolates were resistant to heavy metals and to antibiotics.     

Fusant Trichoderma HF9 with enhanced extracellular chitinase and protein content

Strain improvement was carried out to obtain higher chitinase and protein by inter-specific protoplast fusion between Trichoderma harzianum and Trichoderma viride. Fusant HF9 and parental strains of Trichoderma were compared for chitinase and protein production. 1% of glucose, sucrose and fungal cell wall (Rhizoctonia solani), were used as carbon source for cultivation of Trichoderma and fungal cell wall was the best to induce chitinase and protein. Usage of 0.5% colloidal chitin for the fungal growth under aerated conditions at pH 6.5 and 28°C led to higher chitinase and protein production. In these conditions fusant Trichoderma HF9 in comparison with parent strains had 3-, 2.5- and 1.5-fold increase of total chitinase, specific chitinase and protein, respectively. SDS-PAGE analysis revealed that it had 9 major protein bands with up-regulation compared to parent strains. Amino acid analysis showed that protein of culture filtrate of T. harzianum, T. viride and fusant Trichoderma HF9 had 8, 6 and 10 amino acids, respectively. The results obtained suggested that fusant HF9 could be an integration of T. harzianum and T. viride through protoplast fusion.     

Glycogen in Methanolobus and Methanococcus

Abstract Ultraviolet light and nitrosoguanidine were used to mutagenize a red pigmented culture of Serratia marcescens , strain EB415, which produced chitinase. After mutagenesis, a stable, non-pigmented mutant designated BL40 was isolated which produced larger colonies and zones of clearing on solid medium containing colloidal chitin.
In liquid medium with colloidal chitin as the sole carbon source both strains grew similarly but BL40 produced 160 units/ml of chitinase compared with 60 units/ml for EB 415, an increase of 167%. When chitin concentration was increased in the medium, chitinase production also increased. Chitinase appeared to be extracellular, since the supernatant from washed, sonicated cells for both strains showed no detectable amount of chitinolytic activity.     

Selection of Bacterial Antagonists Using Enrichment Cultures for the Control of Summer Patch Disease in Kentucky Bluegrass

A continuous enrichment culture procedure was used to isolate bacteria from various soil sources capable of suppressing summer patch disease of turfgrass. Cultures consisted of a minimal salts medium supplemented with the mycelium of Magnaporthe poae, the causal agent of summer patch, as the sole carbon source. Percentages of chitinolytic bacteria increased in all enrichments over time. Approximately 30% of randomly selected isolates from enrichment cultures significantly reduced summer patch symptom development compared with untreated controls. Six isolates consistently suppressed summer patch in Kentucky bluegrass by more than 50% compared with controls in repeated experiments. All six isolates colonized the turfgrass rhizosphere in high populations. The six isolates ranged in the spectrum of extracellular enzymes that they expressed. The best disease-suppressing isolate, N4-7, expressed chitinase, glucanase, lipase, and protease activity, and inhibited the growth of M. poae in vitro.