Streptomyces plicatus as a model biocontrol agent

Three hundred and seventy two isolates belonging to the genusStreptomyces were isolated and screened for chitinase production.Streptomyces plicatus was found to be the best producer. The highest chitinase production were incubated for 3 d at 30 °C on buffered culture medium (pH 8.0) containing chitin plus sucrose and calcium nitrate as carbon and nitrogen sources.S. plicatus chitinase had a highly significant inhibitory effect on spore germination, germ tube elongation and radial growth ofFusarium oxysporum f.sp.lycopersict., Altrernaria alternata andVerticillium albo-atrum, the causal organisms ofFusarium wilt, stem canker andVerticillium wilt diseases of tomato. Application ofS. plicatus to the root system of tomato plants before transplantation markedly protected tomato plants against the tested phytopathogenic fungiin vivo.     

Antimicrobial activities ofStreptomyces pulcher,S. canescens andS. citreofluorescens against fungal and bacterial pathogens of tomatoin vitro

Thirty-seven actinomycete species isolated from fertile cultivated soils in Egypt were screened for the production of antimicrobial compounds against a variety of test organisms. Most of the isolates exhibited antimicrobial activities against Gram-positive, Gram-negative, and acid-fast bacteria, yeasts and filamentous fungi, with special attention to fungal and bacterial pathogens of tomato. On starch-nitrate agar, 14 strains were active againstFusarium oxysporum f.sp.lycopersici (the cause ofFusarium wilt), 18 againstVerticillium albo-atrum (the cause ofVerticillium wilt), and 18 againstAlternaria solani (the cause of early blight). In liquid media, 14 isolates antagonizedPseudomonas solanacearum (the cause of bacterial wilt) and 20 antagonizedClavibacter michiganensis ssp.michiganensis (the cause of bacterial canker). The most active antagonists of the pathogenic microorganisms studied were found to beStreptomyces pulcher, S. canescens (syn.S. albidoflavus) andS. citreofluorescens (syn.S. anulatus). The antagonistic activities ofS. pulcher andS. citreofluorescens against pathogenic bacteria in liquid media under shaking conditions. The optimum culture conditions were determined.     

Towards the biological control of fungal and bacterial diseases of tomato using antagonistic Streptomyces spp.

This investigation was designed to explore the potential of microbial antagonism in the control of some tomato diseases including bacterial, Fusarium and Verticillium wilts; early blight; bacterial canker. Three Streptomyces spp. were used: S. pulcher, S. canescens and S. citreofluorescens.The in vitro studies showed that an 80% concentration of the culture filtrate of either S. pulcher or S. canescens significantly inhibited spore germination, mycelial growth and spotulation of Fusarium oxysporum f.sp. lycopersici, Verticillium albo-atrum and Alternaria solani. The same concentration of filtrate of either S. pulcher or S. citreofluorescens was detrimental to the bacterial populations of Clavibacter michiganensis subsp. michiganensis and Pseudomonas solanacearum.The in vivo studies involved different treatments: soaking tomato seeds in filtrate of the antagonist prior to sowing, inoculation of the soil with the antagonist 7 days before sowing, and coating of tomato seeds with spores of the antagonist before sowing. The seed-coating treatment was the most effective in controlling all the pathogens at 42 and 63 days after sowing. Soil inoculation with the antagonist 7 days prior to sowing was less effective in controlling the tomato pathogens as compared to seed-coating. The seed-soaking treatment was the least effective in controlling the diseases concerned.The results also revealed that seed-coating with antagonistic Streptomyces spp. significantly improved tomato growth.     

Facultative parasites and host respiration III. Tissue which is actively parasitised

Summary Fusarium oxysporium f.lycopersici andVerticillium albo-atrum caused an increase in the rate of respiration of tomato stem tissue.V. albo-atrum caused an increase in the rate of respiration of potato haulm tissue. By comparison of the respiration of 1 g ofV. alboatrum mycelium with 1 g fresh weight infected tomato stem tissue it was concluded that the respiration of the pathogen in situ does not contribute markedly to the respiratory increase. It is suggested that the increase in respiration has its origin in the metabolism of the host, possibly due to stimulation by a fungal respiratory toxin but not due to the augmentative effect of the pathogen's respiration.This work formed part of a Ph. D. thesis submitted to the University of London, July 1961.     

The effect of volatile and gaseous metabolites of swelling seeds on germination of fungal spores

Effects of volatile and gaseous metabolites of swelling seeds of pea, bean, wheat, corn, cucumber, tomato, lentil, carrot, red pepper and lettuce on germination of spores of five genera of fungi were found to depend rather on the fungal than on the plant genus. Germination of spores ofBotrytis cinerea, Mucor racemosus andTrichoderma viride was most severely inhibited. Spores ofVerticillium dahliae were less sensitive and germination of spores ofFusarium oxysporum was inhibited only in two cases. On the other hand, exudates of pea and bean stimulated germination of spores ofFusarium oxysporum. Also spores ofTrichoderma viride germinated better in an atmosphere enriched with exuded metabolites of swelling lettuce seeds. When carbon dioxide produced by the swelling seeds was absorbed in potassium hydroxide, spores ofTrichoderma viride andVerticillium dahliae did not germinate at all, the inhibitory effects of volatile and gaseous exudates on germination of spores ofMucor racemosus were accentuated, and also the percentage of germinated spores ofFusarium oxysporum decreased. Germination of spores ofBotrytis cinerea was not influenced. Absorption of volatile and gaseous metabolites in a solution of potassium permanganate decreased in most cases their inhibitory effects, particularly inBotrytis cinerea.     

Effect of the chemical and physical condition of the soil on Verticillium wilt of antirrhinum

Summary In vitro study showed thatVerticillium dahliae Kleb. grew well in a wide range of acid and alkaline media (viz. pH 3.5 to 10.5). The best growth of the fungus was observed in pH 5.5. Soil pH 3.5 was toxic for growing antirrhinum seedlings. Development of Verticillium wilt of antirrhinum was affected by soil pH. The severity of the disease was greater in alkaline soil conditions compared with acid conditions. Soil of pH 3.5 gave very good control of the symptom expression by the infected plants. Rhizosphere analysis results showed that fungal population with the exception ofPenicillium spp., was drastically reduced in the rhizosphere of the plants grown in acid soil. Although the overall population of fungi was reduced in theV. dahliae infected antirrhinum rhizosphere in acid soil, the population ofPenicillium spp. markedly increased. The antagonistic activity of thePenicillium spp. in the rhizosphere might also have reduced the disease severity. Since the seedlings did not grow properly in very dry and very wet soil, rhizosphere analysis of these soils was not possible. Disease severity was much less in wet soil compared with plants grown in medium moisture level and dry soil, but the plant growth was very poor. Dedicated to the memory of the late Prof. H. K. Baruah from whom I had the inspiration for research     

Studies on antagonism betweenFusarium udum Butler and root region microflora of pigeon-pea

Antagonism betweenFusarium udum Butler causing wilt of pigeon-pea (Cajanus cajan (L.) Millsp.) and the saprophytic microflora of the root region of the host was studied with reference to colony interaction, hyphal interference, volatile and non-volatile metabolites and staling growth products. Studies were extended to screen potential antagonists against the wilt pathogen in soil. Aspergillus flavus, A. niger, A. terreus, Penicillium citrinum andMicromonospora globosa (an actinomycete) were antagonistic againstF. udum, whereas the pathogen parasitized and killedAspergillus luchuensis, Cunninghamella echinulata, Curvularia lunata, Mortierella subtilissima andSyncephalastrum racemosum. The pattern of growth of microorganisms on nutrient agar staled by rhizosphere soil inocula of healthy or wilted pigeon-pea plants was found to be different.F. udum colonized and grew on nutrient agar staled by the rhizosphere inoculum of the wilted plants upto 120h of incubation. However, it could not colonise and grow on the nutrient agar staled by rhizosphere microflora of healthy plants after 48h of incubation because of the presence of antagonists likeA. niger, A. flavus, A. terreus and a few species ofPenicillium in the soil inoculum. When pure cultures in soil ofF. udum was mixed with those of antagonists in different ratios,A. niger, A. flavus andM. globosa significantly suppressed the population ofF. udum, whereasA. terreus markedly reduced the population. When inoculated in soil, the antagonists exhibited a high fungistatic activity againstF. udum.     

Colonization ofRetama raetam seeds by fungi and their significance in seed germination

Examination by scanning electron microscopy and incubation on potato-dextrose agar medium showed that dry seeds ofRetama raetam were externally free of fungi. When planted in sandy loam soil, the seeds become colonized with eleven soil-borne fungal species. The fungi were isolated on cellulose agar, pectin agar and lignin agar media.Aspergillus flavus, A. niger, A. fumigatus, Penicillium capsolatum andFusarium oxysporum had broad occurrence and were recovered on all the three media. The production of hydrolytic enzymes by the isolated fungi depends on the substrate and species.Penicillium capsolatum, P. spinulosum andA. niger had wide enzymatic amplitude and they were able to produce cellulolytic, pectolytic and lignolytic activities on corresponding substrates as well as on seed-coat-containing media. The lignolytic activities of the isolated species exceptChaetomium bostrychodes andTrichoderma viride were enhanced by applying the seed-coat materials as C- source rather than lignin. SoakingR. raetam seeds in culture filtrates of most of the fungi grown on seed-coat-supplemented media induced a pronounced and distinct stimulating effect on seed germination. The most effective filtrates were those ofP. capsolatum, P. spinulosum andSporotrichum pulverulentum.     

The response of tomato seedling roots to infection by Verticillium albo-atrum or Fusarium oxysporum f. sp. lycopersici

The response of seedling roots of near-isogenic tomato varieties to infection by Verticillium albo-atrum or Fusarium oxysporum f. sp. lycopersici was investigated. Studies of the infection of seedling roots not artificially damaged indicated that there was an extra-vascular expression of resistance towards V. albo-atrum but not to F. oxysporum. Roots of resistant tomato seedlings infected by V. albo-atrum contained the fungus in the epidermis and outer cortex while susceptible roots became heavily colonised. Observations made by transmission electron microscopy showed that the fungus appeared to be abnormal in growth and appearance in the epidermal and cortical cells of resistant seedling roots but normal in susceptible roots. Two preformed antifungal terpenoids were detected in seedling roots in greater amounts in resistant that in susceptible varieties. The possible mechanisms of seedling root resistance to vascular wilts are discussed.     

Mapping genes for resistance to<Emphasis Type="Italic"> Verticillium albo-atrum</Emphasis> in tetraploid and diploid potato populations using haplotype association tests and genetic linkage analysis

Verticillium wilt disease of potato is caused predominantly by Verticillium albo-atrum and V. dahliae. StVe1 —a putative QTL for resistance against V. dahliae —was previously mapped to potato chromosome 9. To develop allele-specific, SNP-based markers within the locus, the StVe1 fragment from a set of 30 North American potato cultivars was analyzed. Three distinct and highly diverse haplotypes can be distinguished at the StVe1 locus. These were detected in 97%, 33%, and 10% of the cultivars analyzed. We tested for haplotype association and for genetic linkage between the StVe1 haplotypes and resistance of tetraploid potato to V. albo-atrum. Moreover, field resistance was assessed in diploid populations with known molecular linkage maps in order to identify novel QTLs. Resistance QTLs against V. albo-atrum were detected on four chromosomes (2, 6, 9, and 12) at the diploid level, with one QTL on chromosome 2 contributing over 40% to the total phenotypic variation of the trait. At the tetraploid level, a significant association between the StVe1-839-C haplotype and susceptibility to the disease was detected, suggesting that resistance-related genes directed against V. albo-atrum and V. dahliae are located in the same genomic region of chromosome 9. However, on the basis of the present analysis, we cannot determine whether these genes are closely linked or if a single gene provides resistance against both Verticillium species. To assess the usefulness of the StVe1-839-C haplotype for marker-assisted selection, we subjected the resistance data to Bayesian analysis, and calculated positive (0.65) and negative (0.75) predictive values, and overall predictive accuracy (0.72). Our results indicate that tagging of additional genes for resistance to Verticillium with molecular markers will be required for efficient marker-assisted selection.Communicated by M.-A. Grandbastien     

Effect of phytotoxic metabolites ofFusarium culmorum on growth and physiology of barley plants

Summary Two unidentified organic acids isolated from the culture filtrate ofFusarium culmorum, grown in glucose-limited continuous culture, produced phytotoxic effects on growth and physiology of barley seedlings. Stomatal diffusion resistance and chlorophyll content of shoots were increased, but the rate of photosynthesis per unit area of leaf did not change. Although total carbon and nitrogen composition of treated seedlings was not significantly affected, phosphorus uptake was greatly increased. Toxicity of the acids was promoted at low pH.     

Production of trichothecene mycotoxins byFusarium graminearum andFusarium culmorum on barley and wheat

Wheat cultivars (Stoa, MN87150, SuMai-3, YMI-6, Wheaton) and barley cultivars (Robust, Excel, Chevron, M69) were inoculated in the field with isolates ofFusarium graminearum andF. culmorum. The diseased (Fusarium head blight) kernels were analyzed for deoxynivalenol (DON), 15-acetyldeoxynivalenol (15-ADON) and nivalenol (NIV).F. culmorum produced all three trichothecenes on all cultivars tested whereasF. graminearum only produced DON and 15-ADON. There was no well defined correlation between DON production in the host and resistance although the data tended to favor SuMai-3 as having definitive resistance to bothF. graminearum andF. culmorum.Minnesota Agricultural Experiment Station, Paper No. 20 279.     

Biological control of white rot of onion

Summary Interactions of 123 isolates of fungi, 17 of bacteria and 22 of actinomycetes, respectively, withSclerotium cepivorum were studied in agar culture. They were grouped into 4 different types of reactions. Amongst themTrichoderma viride, Fusarium graminearum, Coniothyrium minitans andGliocladium roseum inhibited the growth ofS. cepivorum and later grew over its colony.T. viride showed a characteristic coiling around the hyphae ofS. cepivorum. T. viride andF. graminearum prevented the development of sclerotia.C. minitans was found to parasitize the sclerotia ofS. cepivorum and produced its pycnidia within them.Aleurisma carnis, Cladosporium elatum, Penicillium expansum, P. nigricans, P. notatum, P. piscarium, P. puberulum, P. rolfsii, P. urticae, P. variabile, Tilachlidium humicola andHelminthosporium sp. inhibited the growth ofS. cepivorum at a distance. Eleven isolates of bacteria and 3 ofStreptomyces sp. showed pronounced antagonistic properties againstS. cepivorum.Experiments were carried out to study the effects on white rot development in soil of organisms selected from agar plate tests. None of the antagonistic micro organisms had any deleterious effects on onion growth. Of the organisms testedP. nigricans gave the best results in controlling white rot infection.This work was carried out at the Department of Botany, The University, Birmingham, England. I wish to thank Prof.C. J. Hickman for his invaluable advice and encouragement.     

Effects of root-dip treatment with certain phosphate solubilizing microorganisms on the fusarial wilt of tomato

Root-dip application of Bacillus subtilis, Pseudomonas fluorescens, Aspergillus awamori, Aspergillus niger and Penicillium digitatum resulted in significant decline in the rhizosphere population of Fusarium oxysporum f. sp. lycopersici. A significant decrease in the severity of wilt occurred with A. awamori (37.1%) and P. digitatum (21.3%) compared to the control. Root-dip treatment with the phosphate solubilizing microorganisms tested resulted in significant increase in the yield of tomato, being greatest with A. awamori and P. digitatum in pathogen inoculated (36% and 33%) and uninoculated plants (19% and 23%). A chemical fungicide gave 24% better yield.     

Effect of metabolites ofAspergillus niger andTrichoderma viride on development and structure of radicle of cocoa (Theobroma cacao) seedlings

Both the volume and concentration of filtrate ofAspergillus niger andTrichoderma viride influenced the development of the radicles of cocoa seedlings. Radicles placed in Petri dishes containing filter paper moistened with 20 and 30 ml of undiluted filtrate and filtrate dilutions of 1∶1 and 1∶2 failed to develop lateral roots and eventually died. The culture filtrate ofA. niger was more repressive. Radicles in the same volume of filtrate (20 and 30 ml) of higher dilutions (1∶5 and 1∶10) developed lateral roots and survived. Radicles placed in less volume (≤10 ml) survived and produced lateral roots irrespective of concentration of filtrates. Development of the radicles and roots in the control was consistently better (P=0.05) than in filtrate solutions of eitherA. niger orT. viride. The hypocotyls of seedlings under the influence of metabolites ofA niger showed greater cambial activity and formed xylem vessels and tracheids with larger lumina.     

Decreased production ofpara-hydroxypenicillin V in penicillin V fermentations

Summary Penicillin V (phenoxymethyl penicillin) is produced by industrial strains ofPenicillium chrysogenum in the presence of phenoxyacetic acid (POAc), a side-chain precursor for the penicillin V molecule. The wild-type strain ofP. chrysogenum produces an undesirable penicillin byproduct,para-hydroxypenicillin V (p-OH penicillin V), in addition to penicillin V, viapara-hydroxylation of POAc and subsequent incorporation of thep-OH phenoxyacetic acid into the penicillin molecule. Most of thep-OH penicillin V is produced late in cycle when the POAc concentration in the medium is nearly depleted. The level ofp-OH penicillin V produced by the control strain ranges up to 10–15% of the total penicillins produced. 3-Phenoxypropionic acid andp-bromophenylacetic acid partially inhibit the formation ofp-OH penicillin V with a minimal effect on penicillin V productivity. Mutants deficient in their ability to hydroxylate POAc were found to produce lower levels ofp-OH penicillin V. Multi-step mutation and screening, starting with the wild-type strain, have culminated in isolation of mutants which producep-OH penicillin V as 1% of the total penicillins with no adverse effect on penicillin V productivity.     

Penicillium andAspergillus species in the habitats of allergy patients in the Tulsa, Oklahoma area

Penicillium andAspergillus have been recognized as important aeroallergens for more than 30 years, and are especially significant in indoor environments. There are over 400 species ofPenicillium andAspergillus combined, but there is little information on which species occur most frequently in the environment, or if each exhibits unique allergenic properties. A preliminary study showed no overlap between those species isolated from an outdoor site in Tulsa, Oklahoma and the species used in immunotherapy at allergy clinics in the Tulsa area. Pursuing this line of research, air samples were collected as three seasonal samples (over a 6 month period) in the homes or offices of ten allergy patients known to be allergic toPenicillium and/orAspergillus. Twenty three species ofPenicillium and 12 species ofAspergillus were identified from these samples through isolation, macroscopic, and microscopic examination.Penicillium corylophilum, P. glabrum, Aspergillus niger, andA. flavipes were the most abundant species isolated, supporting the data obtained in a preliminary study. At least in the Tulsa area, it appears that atopic patients are being tested and treated with extracts ofPenicillium andAspergillus species that are either not present or not abundant in the local indoor or outdoor environments. Additional research is necessary to determine if the environmental isolates share allergens with those species used in immunotherapy.     

Direct effect of biocontrol agents on wilt and root-rot diseases of sesame

In Egypt, sesame cultivation is subject to attack by wilt and root-rot diseases caused by Fusarium oxysporum f.sp. sesami (Zap) Cast. and Macrophomina phaseolina (Maubl) Ashby causing losses in quality and quantity of sesame seed yield. Bacillus subtilis and Trichoderma viride isolates which were isolated from sesame rhizosphere were the most effective to antagonise fungal pathogens, causing high reduction of hyphal fungal growth. Trichoderma viride was found to be mycoparasitic on Fusarium oxysporum f.sp. sesami and M. phaseolina causing morphological atternation of fungal cells and sclerotial formation. In general, Bacillus subtilis, T. viride, avirulent Fusarium oxysporum isolate and Glomus spp. (Amycorrhizae) significantly reduced wilt and root-rot incidence of sesame plants at artificially infested potted soil by each one or two pathogens. Data obtained indicate that Glomus spp significantly reduced wilt and disease severity development on sesame plants followed by T. viride. Meanwhile, avirulent Fusarium oxysporum isolate followed by Glomus spp. were effective against root-rot disease incidence caused by M. phaseolina. Glomus spp. followed by B. subtilis significantly reduced wilt and root-rot disease of sesame plants. All biotic agents significantly reduced F. oxysporum f.sp. sesami and M. phaseolina counts in sesame rhizosphere at the lowest level. Glomus spp. and the avirulent isolate of F. oxysporum eliminated M. phaseolina in sesame rhizosphere. Meanwhile T. viride was the best agent at reducing F. oxysporum at a lower level than other treatments. Application of VA mycorrhizae (Glomus spp.) in fields naturally infested by pathogens significantly reduced wilt and root-rot incidence and it significantly colonised sesame root systems and rhizospheres compared to untreated sesame transplantings.     

Inhibition of fungi,actinomycetes and bacteria by Stachybotrys atra

The effect ofStachybotrys atra on fungi, actinomycetes and bacteria was studied in agar culture. Of the 27 genera and 52 species of fungi, 6 species of actinomycetes and 5 genera and 10 species of bacteria tested,S. atra was found to inhibit 95.7 % fungi, all the actinomycetes and 83.3 % of bacteria.Aspergillus ustus, 2 unidentified species ofFusarium, Rhizobium trifolii andPseudomonas spp. were however not inhibited. In experiments in soil,S. atra inhibited the growth ofTrichoderma viride. S atra was ineffective whereT. viride andS. atra were inoculated simultaneously or whereT. viride was added 7 days earlier. Besides,S. atra was not found to controlMacrophomina phaseoli infection on cotton. Soil culture ofS. atra showed phytotoxic effect on cotton seedlings.S. atra produced a dark brown to black thermostable toxic metabolite in the medium. The culture filtrate retarded the growth ofM. phaseoli in agar culture. Despite the importance ofS. atra as a fungistatic agent with wide antimicrobial spectrum, the use ofS. atra as a protectant against plant pathogens seems to be limited because of its phytotoxicity on cotton.     

Phylogenetic analysis of <Emphasis Type="Italic">Verticillium</Emphasis> species based on nuclear and mitochondrial sequences

Three different genes were sequenced from isolates of five plant-pathogenic Verticillium species, Verticillium albo-atrum, Verticillium dahliae, Verticillium longisporum, Verticillium nigrescens, and Verticillium tricorpus. The sequences covered parts of the mitochondrial cytochrome b gene (cob), the mitochondrial small subunit rRNA gene (rns) and the nuclear ITS2 region. When the sequences were combined, the five species clustered in five monophyletic groups, with V. nigrescens distantly related to the other species while V. tricorpus displayed a somewhat closer relationship to the three remaining species. V. albo-atrum, V. dahliae and V. longisporum were found to be very similar to each other, with V. albo-atrum and V. longisporum displaying the closest relationship. The species affiliation of V. longisporum is discussed.