Suppression by Zygorrhynchus moelleri of Growth and Sclerotium Production by Rhizoctonia solani and Sclerotinia sclerotiorum

As indicated by reduced cellulolysis, Zygorrhynchus moelleri suppressed mycelial growth in Rhizoctonia solani and Sclerotinia sclerotiorum. Sclerotium production by both pathogenic fungi was also reduced by Z. moelleri in dual sand-oatmeal cultures. The viability of sclerotia produced by S. sclerotiorum, but not those produced by R. solani, was greatly reduced. Sclerotium production by S. sclerotiorum on celery and tomato segments was reduced to a much greater extent when Z. moelleri was applied to the plant tissue 24 h before the pathogen than when applied at the same time or 24 h after the pathogen.     

Antifungal Hydrolases in Pea Tissue : II. Inhibition of Fungal Growth by Combinations of Chitinase and beta-1,3-Glucanase

Chitinase and β-1,3-glucanase purified from pea pods acted synergistically in the degradation of fungal cell walls. The antifungal potential of the two enzymes was studied directly by adding protein preparations to paper discs placed on agar plates containing germinated fungal spores. Protein extracts from pea pods infected with Fusarium solani f.sp. phaseoli, which contained high activities of chitinase and β-1,3-glucanase, inhibited growth of 15 out of 18 fungi tested. Protein extracts from uninfected pea pods, which contained low activities of chitinase and β-1,3-glucanase, did not inhibit fungal growth. Purified chitinase and β-1,3-glucanase, tested individually, did not inhibit growth of most of the test fungi. Only Trichoderma viride was inhibited by chitinase alone, and only Fusarium solani f.sp. pisi was inhibited by β-1,3-glucanase alone. However, combinations of purified chitinase and β-1,3-glucanase inhibited all fungi tested as effectively as crude protein extracts containing the same enzyme activities. The pea pathogen, Fusarium solani f.sp. pisi, and the nonpathogen of peas, Fusarium solani f.sp. phaseoli, were similarly strongly inhibited by chitinase and β-1,3-glucanase, indicating that the differential pathogenicity of the two fungi is not due to differential sensitivity to the pea enzymes. Inhibition of fungal growth was caused by the lysis of the hyphal tips.     

Role of β-1,3-glucanase in postmeiotic microspore release

Stage-specific extracts of Lilium anthers undergoing meiosis exhibited sharp peaks of both endolytic and exolytic β-1,3-glucanase activity at the time of in situ callose breakdown. The endo- and exo-β-1,3-glucanase activities, attributable to different enzymes, were found to have molecular weights of 32,000 and 62,000, respectively. The majority of exoglucanase activity was found in the outer somatic layers of the anther, whereas the majority of endoglucanase activity was located in the immediate surroundings of the meiocytes. The action of both glucanase activities on callose wall removal was monitored. It was shown that endo-β-1,3-glucanase, but not exoglucanase, was able to effect callose wall removal. To the extent that detection of glucanase activity in extracts reflects its activity in vivo, the endoglucanase enzyme may be considered as the immediate agent of callose wall breakdown and, hence, as a critical regulator in the initiation of the development of the gametophyte stage.     

Purification and characterization of a β-1,3-glucanase from the novel mycoparasite <Emphasis Type="Italic">Periconia byssoides</Emphasis>

An extracellular β-1,3-glucanase with antifungal properties was secreted by the novel mycoparasite, Periconia byssoides. The glucanase has a molecular mass of 35 kDa estimated by SDS-PAGE. Its optimum activity was at pH 6.0 and 50°C (over 2 h). The purified β-1,3-glucanase was capable of degrading cell walls, and inhibiting mycelia growth and spore germination of plant pathogenic fungi including Fulvia fulva, Fusarium sp. and Rhizoctonia solani. The N-terminal amino acid residues of the purified β-1,3-glucanase are LKNGGPSFGA, which do not have any homology with previously described glucanases, suggesting it may be a novel member of the fungal β-1,3-glucanases. Chao Lin and Jinkui Yang contributed equally to this work.     

Production of Chitinases and β-1,3-Glucanases by Stachybotrys elegans, a Mycoparasite of Rhizoctonia solani

The in vitro production of chitinases and β-1,3-glucanases by Stachybotrys elegans, a mycoparasite of Rhizoctonia solani, was examined under various culture conditions, such as carbon and nitrogen sources, pH, and incubation period. Production of both enzymes was influenced by the carbon source incorporated into the medium and was stimulated by acidic pH and NaNO₃. The activity of both enzymes was very low in culture filtrates from cells grown on glucose and sucrose compared with that detected on chitin (for chitinases) and cell wall fragments (for β-1,3-glucanases). Protein electrophoresis revealed that, depending on the carbon source used, different isoforms of chitinases and β-1,3-glucanases were detected. S. elegans culture filtrates, possessing β-1,3-glucanase and chitinase activities, were capable of degrading R. solani mycelium.     

Antifungal potential of extracellular metabolites produced by Streptomyces hygroscopicus against phytopathogenic fungi

Indigenous actinomycetes isolated from rhizosphere soils were assessed for in vitro antagonism against Colletotrichum gloeosporioides and Sclerotium rolfsii. A potent antagonist against both plant pathogenic fungi, designated SRA14, was selected and identified as Streptomyces hygroscopicus. The strain SRA14 highly produced extracellular chitinase and β-1,3-glucanase during the exponential and late exponential phases, respectively. Culture filtrates collected from the exponential and stationary phases inhibited the growth of both the fungi tested, indicating that growth suppression was due to extracellular antifungal metabolites present in culture filtrates. The percentage of growth inhibition by the stationary culture filtrate was significantly higher than that of exponential culture filtrate. Morphological changes such as hyphal swelling and abnormal shapes were observed in fungi grown on potato dextrose agar that contained the culture filtrates. However, the antifungal activity of exponential culture filtrates against both the experimental fungi was significantly reduced after boiling or treatment with proteinase K. There was no significant decrease in the percentage of fungal growth inhibition by the stationary culture filtrate that was treated as above. These data indicated that the antifungal potential of the exponential culture filtrate was mainly due to the presence of extracellular chitinase enzyme, whereas the antifungal activity of the stationary culture filtrate involved the action of unknown thermostable antifungal compound(s).     

Evaluation of β-1,3-glucanase and β-1,4-glucanase enzymes production in some Trichoderma species

Trichoderma species have become the important means of biological control for fungal diseases. This research was carried on to access the high β-1,3-glucanase and β-1,4-glucanase enzyme producer of Trichoderma species isolates using two different carbon sources for finding a method to obtain more concentrate culture filtrates. Therefore, 14 Trichoderma isolates belonging to species: Trichoderma ceramicum, T. virens, T. pseudokoningii, T. koningii, T. koningiosis, T. atroviridae, T. viridescens, T. asperellum, T. harzianum1, T. orientalis, T. harzianum2, T. brevicompactum, T. viride and T. spirale were cultured in Wiendling’s liquid medium plus 0.5% glycerol or 0.5% Phytophthora sojae-hyphe as the carbon source in shaking and non-shaking (stagnant) statuses. Enzyme activity rate and total protein were evaluated in raw, acetony and lyophilized concentrated culture filtrates and the specific enzyme activity of β-1,3-glucanase and β-1,4-glucanase were measured by milligramme glucose equivalent released per minute per milligramme total protein in culture filtrates. The results showed that using Phytophthora – hyphe in medium increased the enzyme activities as compared to glycerol at all Trichoderma species which suggested that these substrates can also act as inducer for synthesis of lytic enzymes, in addition the most enzymes activity was observed in the lyophilised concentrated culture filtrate. The most successful species in β-1,3-glucanase and β-1,4-glucanase enzymes activities were T. brevicompactum and T. virens and these species can be used for mass production of these enzymes which are supposed to be used in commercial formulation and also will be able to control P. sojae directly.     

Biological Control of Stem Canker and Black Scurf on Potato by Date Palm Compost and its Associated Fungi

The suppressive effects of two different types of date palm composts and some of their indigenous microorganisms were evaluated in vitro and on potato plants inoculated with Rhizoctonia solani. Fungi isolated from composts screened against R. solani by dual cultural assays on PDA showed a significant inhibition of pathogen mycelium growth as compared with untreated control. The type of hyphal interactions between R. solani and each tested antagonist was observed by light microscopy. Microscopic observations carried out at the confrontation zone of both agents showed different mechanisms of actions: mycelia lyses, mycoparasitism and/or formation of mycelia cords via anatomosis between mycelia filaments. Unsterilized and sterilized compost extracts were tested for efficacy against R. solani using agar‐well diffusion method or by pouring the extracts on PDA. Two sterilization methods were used: a filtration through a microfilter of 0.22 microns or autoclaving. Results showed that compost extract lost its activity after heating or filtration, confirming that chemical factors in compost had no direct inhibiting effect on the pathogen. The suppressiveness of composts was mainly due to their biotic component. Series of greenhouse trials showed that black scurf and stem canker incidence and severity were significantly reduced in peat–sand amended with compost compared with the untreated control. However, the potential suppressive effect of cattle manure and date palm compost (CMC) was higher than sheep manure and date palm compost (SMC). On potato seed tubers pre‐inoculated with the selected fungal isolates from compost, there was variability in the reduction of disease severity among treatments. Plant growth was unaffected by the application of fungal antagonists or by CMC amendment; however, an increase in the total yield was observed by the SMC potting mix compared with untreated control.     

Antagonism against Rhizoctonia solani and fungitoxic metabolite production by some Penicillium isolates

A number of Penicillium isolates were recovered in association to Rhizoctonia solani strains pathogenic on tobacco and from soil on plates pre-colonized by the pathogen itself. Their antagonism toward R. solaniAG-2-1 was evaluated in dual cultures in vitro. Inhibition of growth was evident to some extent in most pairings, while hyphal interactions referable to mycoparasitic relationships were not observed. However, the occurrence of plasmolysis and/or vacuolisation and the induction of monilioid cells were indicative of the release of bioactive compounds. Therefore, production of fungitoxic metabolites was tested by adding concentrated culture filtrates of each Penicillium isolate to the growth medium of R. solani. Complete and lasting inhibition was incited by culture filtrates of some isolates belonging to P. brevicompactum, P. expansum, and P. pinophilum. Three purified compounds, respectively mycophenolic acid, patulin and 3-O-methylfunicone, which were extracted from culture filtrates, were able to inhibit R. solani in vitro. Their production was also detected in dual cultures of the same Penicilliumstrains with R. solani prepared in sterilized soil and when the Penicilliumstrains were cultured directly on R. solani mycelium harvested from liquid cultures. The possible role of such metabolites in antagonism of the above-mentioned Penicilliumspecies against R. solani is discussed.     

Extracellular beta-1,3-Glucanases in Stem Rust-Affected and Abiotically Stressed Wheat Leaves : Immunocytochemical Localization of the Enzyme and Detection of Multiple Forms in Gels by Activity Staining with Dye-Labeled Laminarin

Endo-β-1,3-glucanase activity in intercellular washing fluid (IWF) from leaves of wheat (Triticum aestivum) increased 10-fold 4 days after leaves were infected with the wheat stem rust fungus (Puccinia graminis f.sp. tritici), while exo-β-1,3-glucanase activity remained unchanged at a low level. Heat and ethylene stress had no effect, whereas mercury treatment resulted in a 2-fold increase in endo-β-1,3-glucanase activity. With a new method of activity staining using laminarin-Remazol brilliant blue as substrate in overlay gels, 18 electrophoretic forms of endo-β-1,3-glucanase were detected in IWF from unstressed leaves and up to 24 forms in IWF from stem rust-infected leaves. Most of the increase in β-1,3-glucanase activity and in the number of β-1,3-glucanases after rust infection was due to a nonspecific, stress-related effect on the plant, but two major forms of the enzyme probably originated from the fungus. β-1,3-Glucanase was localized cytochemically with anti-barley-β-1,3-glucanase antibodies. With preembedding labeling, the enzyme was demonstrated on the outside of host and fungal cell walls. Postembedding labeling localized the enzyme in the host plasmalemma and in the domain of host cell walls adjoining the plasmalemma, throughout walls of intercellular hyphal cells and haustoria, in the fungal cytoplasm, and in the extrahaustorial matrix. Cross-reactivity of β-1,3-glucanases from wheat and germinated uredospores of the rust fungus with the anti-barley-β-1,3-glucanase antibodies was confirmed in dot blot assays and on Western blots.     

Antifungal effect of Trichoderma spp. β-1,3-glucanase on Phytophthora parasitica: Hyphal morphological distortions

Phytopathogenic fungi devastate agricultural crops worldwide. The biological agents, such as Trichoderma spp., antagonize phytopathogenic fungi by secreting various cell wall-degrading enzymes, for example, endochitinase and β-1,3-glucanase that target glycosidic linkages in β-glucan and chitin polymers of fungal cell walls, thus inhibiting pathogen growth. In this study, two antifungal genes endochitinase and β-1,3-glucanase cloned from local Trichoderma spp. were ligated in pET28a+ expression vector individually to generate two recombinant vectors. The vectors were mobilized into Escherichia coli host strain Rosetta-gami 2 for protein expression, and the 6xHis-tagged recombinant proteins were purified through Ni-NTA affinity chromatography. The purified proteins were individually confronted in vitro with pure cultures of Phytophthora parasitica (destructive pathogen affecting several hundred plant species worldwide) for analyzing their effect on pathogen growth. In vitro confrontation assay revealed P. parasitica growth inhibition by purified β-1,3-glucanase. The pathogen growth inhibition was due to hyphal morphological distortions, such as breakages, swelling, and holes evinced through electron micrography confirming direct role of β-1,3-glucanase in pathogen structural degradation.     

Induction of pathogenesis-related proteins during biocontrol of <Emphasis Type="Italic">Rhizoctonia solani</Emphasis> with <Emphasis Type="Italic">Pseudomonas aureofaciens</Emphasis> in soybean (<Emphasis Type="Italic">Glycine max</Emphasis> L. Merr.) plants

To investigate the biocontrol effectiveness of the antibiotic producing bacterium, Pseudomonas aureofaciens 63–28 against the phytopathogen Rhizoctonia solani AG-4 on Petri plates and in soybean roots, growth response and induction of PR-proteins were estimated after inoculation with P. aureofaciens 63–28 (P), with R. solani AG-4 (R), or with P. aureofaciens 63–28 + R. solani AG-4 (P + R). P. aureofaciens 63–28 showed strong antifungal activity against R. solani AG-4 pathogens in Petri plates. Treatment with P. aureofaciens 63–28 alone increased the emergence rate, shoot fresh weight, shoot dry weight and root fresh weight at 7 days after inoculation, when compared to R. solani AG-4; P + R treatment showed similar effects. Peroxidase (POD) and β-1,3-glucanase activity of P. aureofaciens 63–28 treated roots increased by 41.1 and 49.9%, respectively, compared to control roots. POD was 26% greater in P + R treated roots than R. solani treated roots. Two POD isozymes (59 and 27 kDa) were strongly induced in P + R treated roots. The apparent molecular weight of chitinase from treated roots, as determined through SDS-PAGE separation and comparison with standards, was about 29 kDa. Five β-1,3-glucanase isozymes (80, 70, 50, 46 and 19 kDa) were observed in all treatments. These results suggest that inoculation of soybean plants with P. aureofaciens 63–28 elevates plant growth inhibition by R. solani AG-4 and activates PR-proteins, potentially through induction of systemic resistance mechanisms.     

Wide-range antifungal antagonism of Paenibacillus ehimensis IB-X-b and its dependence on chitinase and beta-1,3-glucanase production

Previously, we isolated a strain of Bacillus that had antifungal activity and produced lytic enzymes with fungicidal potential. In the present study, we identified the bacterium as Paenibacillus ehimensis and further explored its antifungal properties. In liquid co-cultivation assays, P. ehimensis IB-X-b decreased biomass production of several pathogenic fungi by 45%-75%. The inhibition was accompanied by degradation of fungal cell walls and alterations in hyphal morphology. Residual medium from cultures of P. ehimensis IB-X-b inhibited fungal growth, indicating the inhibitors were secreted into the medium. Of the 2 major lytic enzymes, chitinases were only induced by chitin-containing substrates, whereas beta-1,3-glucanase showed steady levels in all carbon sources. Both purified chitinase and beta-1,3-glucanase degraded cell walls of macerated fungal mycelia, whereas only the latter also degraded cell walls of intact mycelia. The results indicate synergism between the antifungal action mechanisms of these enzymes in which beta-1,3-glucanase is the initiator of the cell wall hydrolysis, whereas the degradation process is reinforced by chitinases. Paenibacillus ehimensis IB-X-b has pronounced antifungal activity with a wide range of fungi and has potential as a biological control agent against plant pathogenic fungi.     

In vitro antifungal activity of chitinolytic enzymes produced by bio-agents against root rot pathogenic fungi

A study was carried out using simple laboratory techniques to examine the influence of the antagonistic isolates of Trichoderma harzianum, T. viride, Bacillius subtilis and Pseudomons flourescence and their culture filtrates on selected soil-borne root rot pathogens Rhizoctonia solani and Fusarium solani. Testing procedures were standardised using two different methods. The experiments were based on the principle of dual culture and agar diffusion techniques. The experiment involved the recording of the percentage of reduction in growth and inhibition zones formed by various filtrates of antagonistic culture growth. The results showed that the antagonists tested had the ability to reduce the linear growth of fungal pathogens. Also, the cultures filtrates of antagonists had antifungal activities by forming inhibition zones. Culture filtrates have shown a strong clear inhibition zone which increases in diameter as the incubation period of antagonists increases. This observation was related to the increase in the activity of chitinolytic enzymes as secondary metabolic compounds produced in growth media by prolonging the period of incubation. The study has proved that such enzymes can be effectively used for suppression of soil-borne pathogens and that it can evolve as a potential biocide.     

Characterization of a new acid stable exo-β-1,3-glucanase of Rhizoctonia solani and its action on microbial polysaccharides

A new acid stable exo-β-1,3-glucanase of Rhizoctonia solani purified from a commercial source ‘Kitarase-M’, by a combination of ammonium sulfate precipitation, ion-exchange and gel filtration methods, had specific activity of 0.26 U/mg protein, K_m and V_max values of 0.78 mg/ml and 0.27 mM/min/mg protein, respectively. It had molecular weight of 62 kDa with optimum activity at 40 °C temperature and pH 5.0, with high stability at pH of 3–7. Unique amino acid sequence was found at N-terminal end. The substrate specificity studies confirmed that it is an exo-β-1,3-glucanase. It could hydrolyze curdlan powder to release glucose.     

Purification and characterization of a 1,3-β-d-glucanase from Streptomyces torulosus PCPOK-0324

A hydrolytic enzyme designated as a 1,3-β-d-glucanase having an antifungal activity was purified and characterized from Streptomyces torulosus PCPOK-0324. Fungal growth inhibitors in the culture filtrates from an antagonistic S. torulosus PCPOK-0324 exhibited higher antifungal activity against the hyphal growth of Phytophthora capsici and Rhizoctonia solani. The 1,3-β-d-glucanase was purified by four chromatographic steps from culture supernatant. The molecular weight of the purified enzyme was estimated to be 31.5 kDa. The optimal pH and temperature were 7.5 and 50 °C. Both the purified enzyme and the antibiotic extract inhibited R. solani and P. capsici with minimal inhibitory concentration values of 12.50 and 6.25 mU ml⁻¹ and 3.95 and 1.94 μg ml⁻¹, respectively. Our findings collectively show that the 1,3-β-d-glucanase in combination with the antibiotic extract have strong synergistic antifungal activity against the hyphal growth of both fungi causing root rot disease in pepper plants.     

Pseudomonas stutzeri YPL-1 Genetic Transformation and Antifungal Mechanism against Fusarium solani, an Agent of Plant Root Rot

An actively antagonistic bacterium that could be used as a biocontrol agent against Fusarium solani, which causes root rots with considerable losses in many important crops, was isolated from a ginseng rhizosphere and identified as a strain of Pseudomonas stutzeri. In several biochemical tests with culture filtrates of P. stutzeri YPL-1 and in mutational analyses of antifungal activities of reinforced or defective mutants, we found that the anti-F. solani mechanism of the bacterium may involve a lytic enzyme rather than a toxic substance or antibiotic. P. stutzeri YPL-1 produced extracellular chitinase and laminarinase when grown on different polymers such as chitin, laminarin, or F. solani mycelium. These lytic extracellular enzymes markedly inhibited mycelial growth rather than spore germination and also caused lysis of F. solani mycelia and germ tubes. Scanning electron microscopy revealed degradation of the F. solani mycelium. Abnormal hyphal swelling and retreating were caused by the lysing agents from P. stutzeri YPL-1, and a penetration hole was formed on the hyphae in the region of interaction with the bacterium; the walls of this region were rapidly lysed, causing leakage of protoplasm. Genetically bred P. stutzeri YPL-1 was obtained by transformation of the bacterium with a broad-host-range vector, pKT230. Also, the best conditions for the transformation were investigated.     

Regulation of 36-kDa beta-1,3-glucanase synthesis in Trichoderma harzianum

The effect of carbon sources on the level of beta-1,3-glucanases in the culture filtrates of Trichoderma harzianum (Tc) was investigated. Enzyme activity was detected in all carbon sources, but highest levels were found when laminarin and purified cell walls were used. Three isoforms of beta-1,3-glucanase were produced during growth of the fungus on purified cell walls. Two isoforms were produced on chitin, chitosan, N-acetylglucosamine and laminarin, while only one was detected when the fungus was grown on cellulose and glucose. A 36-kDa beta-1,3-glucanase (GLU36) was secreted from T. harzianum (Tc) grown on all carbon sources tested as demonstrated by Western blot analysis. We found that a significant increase in the level of GLU36 in the culture filtrate follows glucose exhaustion, suggesting that this enzyme is controlled by carbon catabolite repression.     

Subcellular localization of β-1,3-glucanase in Puccinia recondita f.sp. tritici-infected wheat leaves

An antiserum raised against the purified 33-kDa β-1,3-glucanase of wheat (Triticum aestivum L.) was employed to investigate the ultrastructural localization of the enzyme in wheat leaves infected with Puccinia recondita Rob. ex Desm. f.sp. tritici Eriks. and Henn. using a post-embedding immunogold labelling technique. In both compatible and incompatible interactions, β-1,3-glucanase was detected in the host plasmalemma and in the domain of the host cell wall near the plasmalemma of the mesophyll cells, but higher concentrations of the enzyme were detected in infected resistant wheat leaves than in infected susceptible ones. β-1,3-Glucanase was also found in the secondary thickening of xylem vessels and in the walls of guard cells, epidermal cells and phloem elements, while no labelling was observed in host organelles, viz. vacuoles, mitochondria, endoplasmic reticulum, Golgi bodies, nuclei and chloroplasts. A low concentration of the enzyme was detected on the intercellular hyphal wall and in the hyphal cytoplasm. In the compatible interaction, β-1,3-glucanase was demonstrated to accumulate predominantly in the haustorial wall and extrahaustorial matrix. In the incompatible interaction, strong labelling for β-1,3-glucanase was found in host cell wall appositions, in the extracellular matrix in the intercellular space, and in electron-dense structures of host origin which occurred in the incompatible interaction only. Received: 22 July 1997 / Accepted: 16 August 1997     

Degradation of Uredospores of the Soybean Rust Fungus (Phakopsora pachyrhizi Syd.) by Cell-Free Culture Filtrates of the Mycoparasite Verticillium Psalliotae Treschow

Verticillium psalliotae isolates Taiw and Thai C are effective parasites of the soybean rust fungus. Cell-free culture filtrates of these fungi, prepared after growth on autoclaved uredospores, contained β-1,3-glucanase, chitinase and protease activities and caused degradations, when rust spores were treated with them for 24 or 72 h. During these lytic processes carbohydrates, amino compounds and N-acetylhexosamine were released. The carbohydrate fraction was composed of mannitol, arabitol, trehalose, glucose and unidentified substances showing low R_f-values during thin layer chromatography. The amino compounds consisted of 10 amino acids (leucine and/or isoleucine, phenylalanine, glutamic acid, valine, arginine, asparagine, glutamine, serine, aspartic acid, histidine) and 5—7 substances which could not be identified. Verticillium lecanii isolate Konz is a weak parasite of soybean rust. During growth on uredospores the fungus produced culture filtrates without chitinase activity and with low total activities of β-1,3-glucanase and protease. Compared with V. psalliotae, culture filtrates of V. lecanii exerted lower lytic activities on soybean rust uredospores. The results are consistent with the aspect that the rapid growth of V. psalliotae on soybean rust fungus is primarily based on the secretion of lytic enzymes which make nutrients available to the mycoparasite.