Establishment of the fungal entomopathogen Beauveria bassiana as a season long endophyte in jute (Corchorus olitorius) and its rapid detection using SCAR marker

An experiment was conducted to introduce the entomopathogen Beauveria bassiana (Balsamo) Vuillemin (Ascomycota: Hypocreales) as an endophyte in jute (Corchorus olitorius), a bast fibre crop through seed treatment. Colonization of root, leaf, stem, capsule, and seed were assessed through plating on selective medium and PCR based detection using B. bassiana specific SCAR markers. Endophytic colonization was detected in all the plants grown from treated seeds, but all the plant parts were not colonized. Colonization was detected in leaves, stems, and green capsules but not in roots and seeds. The endophytic colonization was influenced by both plant part and sampling period. Colonization was greater in leaves (55.87%) compared to stems (12.53%) and capsules (42.44%). The percent colonization was higher in case of 60?days old plants (43.34%) than in 30?days (23.89%) and 120?days (35.39%) old plants. As B. bassiana has already been reported to be pathogenic on jute pests, namely semilooper (Anomis sabulifera) and bihar hairy caterpillar (Spilosoma obliqua), its season long endophytic colonization within jute plant suggests a novel approach of biological control of these pests through seed treatment with the entomopathogen.     

Fungal entomopathogens as endophytes: can they promote plant growth?

Two experimental replicates were conducted to test whether strains of Beauveria brongniartii (BIPESCO2 and 2843) and Metarhizium brunneum (BIPESCO5) can endophytically colonise Vicia faba plants and improve their growth by comparing them with an endophytic strain of B. bassiana (NATURALIS^®). The plants were inoculated through foliar spray and the effect of inoculation on plant height, leaf pair number, fresh root and shoot weights was measured at 7 and 14 days post inoculation (dpi). Endophytic colonisation of different plant parts with the tested fungal strains were confirmed 7 and 14?dpi through re-isolation of inoculated fungi onto selective media and subsequent Simple Sequence Repeat (SSR) marker-based genetic identification. All tested strains were able to endophytically colonise leaves, stems, and even roots of inoculated plants 7 and 14?dpi, but per cent colonisation varied significantly among strains and plant parts within each sampling date. Foliar inoculation of plants with the tested strains increased plant height, leaf pair number, fresh shoot and root weights; however the increase was not always consistent across sampling dates in both experimental replicates. This study provides the first evidence for the endophytic colonisation of plants with two strains of B. brongniartii, an important biocontrol agent of Melolontha melolontha and other scarab beetles in several European countries, and thus extends previous reports on the ability of entomopathogenic fungi to act as endophytes. It also presents possible explanations for the lack of consistency in the plant growth promotion obtained by the foliar inoculation of entomopathogenic fungi.     

Plant tissue localization of the endophytic insect pathogenic fungi Metarhizium and Beauveria

Endophytic fungi may display preferential tissue colonization within their plant hosts. Here we tested if the endophytic, insect pathogenic fungi (EIPF) Metarhizium and Beauveria showed preferential localization within plant tissues, in the field and under laboratory conditions. In the field, plants were sampled from three separate sites (Brock University, St. Catharines, Ontario; Pelham, Ontario; and Torngat Mountains National Park, Newfoundland, Canada) and EIPF were isolated from plant roots, the hypocotyl, and stem and leaves. Two genera of EIPF, Metarhizium spp. and Beauveria bassiana, were isolated from plants sampled, as well as the nematophagous fungus, Pochonia chlamydosporium. Metarhizium spp. were almost exclusively found in roots, whereas B. bassiana and P. chlamydosporium were found throughout the plant. The Metarhizium species were identified by RFLP and 95 % were Metarhizium robertsii, 4.3 % were M. brunneum, and 0.7 % were M. guizhouense. Lab studies with M. robertsii and B. bassiana reflected observations found in the field, that is, Metarhizium was restricted to the roots of plants while B. bassiana was found throughout the plant. Insect infection by these EIPF is preferential with respect to above and below ground insects, and the present study correlates above and below ground insect infections with endophytic colonization by these EIPF.     

The growth of saprophytic fungi on root surfaces

Summary Data are provided on the growth of non-pathogenic soil fungi on root surfaces. By growing roots from non-sterile soil into sterile vermiculite, and by regular isolation of fungi from the roots which had grown into the sterile vermiculite, it was shown that fungal growth down roots is slow. It is suggested that in the colonization of roots by non-pathogenic fungi successive lateral colonization from the soil is of greater importance than the growth of fungi down roots.     

Distribution of the Entomopathogenic Fungus Beauveria bassiana in Rice Ecosystems and Its Effect on Soil Enzymes

Fungal entomopathogens, especially Beauveria bassiana, are often studied within the context of their use in biological pest control; however, there is limited knowledge of their distributions in host plants and soil ecosystem. We examined the distribution of B. bassiana and its influence on rice plants and paddy soils. B. bassiana could only be detected on the foliar surfaces of rice plants within 15 days under Bb-4 (7.5 × 10⁴ conidia/mL) and Bb-7 (7.5 × 10⁷ conidia/mL) treatments. The endophytic colonization of B. bassiana could not be found in stems, roots, or seeds of rice plants under Bb-4 and Bb-7 treatments. The fungus was found only in the leaves of rice plants under Bb-4 and Bb-7 treatments at 15 days after inoculation. Moreover, B. bassiana was absent from paddy soils under Bb-4 and Bb-7 treatments at all times. Enzyme activity (urease and phosphatase) in the paddy soils of Bb-4 and Bb-7 treatments showed no significant difference from the control. It is possible that B. bassiana was not able to colonize paddy soil. Detailed understanding of distribution and ecological interactions of B. bassiana is helpful for understanding and predicting the effects of fungal entomopathogens on host populations, and the interactions among fungal entomopathogens and other organisms in the community.     

Inoculation of coffee plants with the fungal entomopathogen Beauveria bassiana (Ascomycota: Hypocreales)

The entomopathogenic fungus Beauveria bassiana was established in coffee seedlings after fungal spore suspensions were applied as foliar sprays, stem injections, or soil drenches. Direct injection yielded the highest post-inoculation recovery of endophytic B. bassiana. Establishment, based on percent recovery of B. bassiana, decreased as time post-inoculation increased in all treatments. Several other endophytes were isolated from the seedlings and could have negatively influenced establishment of B. bassiana. The recovery of B. bassiana from sites distant from the point of inoculation indicates that the fungus has the potential to move throughout the plant.     

Colonization of barley roots by Fusarium culmorum and influence of Pseudomonas fluorescens on the process

The stages of barley root colonization by Fusarium culmorum were studied in sterile vermiculite by the method of fluorescent antibodies. The influence of the antagonistic bacterium Pseudomonas fluorescens on the process of root colonization by F. culmorum was demonstrated. In vermiculite inoculated with F. culmorum, the fungus density on the roots increased gradually. In the case of joint inoculation of vermiculite with the fungus and the bacterium, the F. culmorum density on the roots changed abruptly. It was shown that the site of primary colonization of the roots by the fungus was mainly the zone of root hairs. When Pseudomonas fluorescens was present on the roots, F. culmorum colonized not only root hairs, but also the elongation zone, during the first two days. Introduction of Pseudomonas fluorescens into vermiculite resulted in lower intensity of barley root rot.     

Beauveria bassiana: endophytic colonization and plant disease control

Seed application of Beauveria bassiana 11-98 resulted in endophytic colonization of tomato and cotton seedlings and protection against plant pathogenic Rhizoctonia solani and Pythium myriotylum. Both pathogens cause damping off of seedlings and root rot of older plants. The degree of disease control achieved depended upon the population density of B. bassiana conidia on seed. Using standard plating techniques onto selective medium, endophytic 11-98 was recovered from surface-sterilized roots, stems, and leaves of tomato, cotton, and snap bean seedlings grown from seed treated with B. bassiana 11-98. As the rate of conidia applied to seed increased, the proportion of plant tissues from which B. bassiana 11-98 was recovered increased. For rapid detection of B. bassiana 11-98 in cotton tissues, we developed new ITS primers that produce a PCR product for B. bassiana 11-98, but not for cotton. In cotton samples containing DNA from B. bassiana11-98, the fungus was detected at DNA ratios of 1:1000; B. bassiana 11-98 was detected also in seedlings grown from seed treated with B. bassiana 11-98. Using SEM, hyphae of B. bassiana11-98 were observed penetrating epithelial cells of cotton and ramifying through palisade parenchyma and mesophyll leaf tissues. B. bassiana11-98 induced systemic resistance in cotton against Xanthomonas axonopodis pv. malvacearum (bacterial blight). In parasitism assays, hyphae of B. bassiana 11-98 were observed coiling around hyphae of Pythium myriotylum.     

环链虫草Cordyceps cateniannulata对番茄生长和抗氧化酶活性的影响

【目的】评估环链虫草Cordyceps cateniannulata对植物促生和植物抗氧化酶活性的影响。【方法】本研究利用浸种法将环链虫草接种于番茄植物体,在接种后的第30天和60天,通过番茄株高、根长、地上和地下部分的干鲜重指标评价其对番茄生长的影响;在接种后第10、20、30、60和90天,通过选择性培养基分析其在番茄不同组织中的生存情况,使用形态学及DNA序列比对的方法检验所分离菌株与原有菌株的一致性。在处理后的第30天,检测番茄叶片中的过氧化物酶(POD)、过氧化氢酶(CAT)、超氧化物歧化酶(SOD)及丙二醛(MDA)含量,观察环链虫草对番茄的抗氧化酶活性影响。【结果】环链虫草可定殖于番茄幼苗且对番茄生长有显著促进作用,菌株对植株的定殖偏好性分别为根部>茎部>叶部。酶活检测结果表明,处理组番茄叶片防御酶活性均呈显著升高的趋势,其中POD、CAT、SOD活性分别比对照增加了52.21%、75.31%和158.59%,MDA含量下降了35.15%。【结论】环链虫草可以通过浸种的方法感染并定殖番茄幼苗的根、茎、叶,促进番茄幼苗的生长并提高番茄抗氧化酶活性,具有较好的田间...     

Effects on plant growth and root-knot nematode infection of an endophytic GFP transformant of the nematophagous fungus Pochonia chlamydosporia

Pochonia chlamydosporia (Pc123) is a fungal parasite of nematode eggs which can colonize endophytically barley and tomato roots. In this paper we use culturing as well as quantitative PCR (qPCR) methods and a stable GFP transformant (Pc123gfp) to analyze the endophytic behavior of the fungus in tomato roots. We found no differences between virulence/root colonization of Pc123 and Pc123gfp on root-knot nematode Meloidogyne javanica eggs and tomato seedlings respectively. Confocal microscopy of Pc123gfp infecting M. javanica eggs revealed details of the process such as penetration hyphae in the egg shell or appressoria and associated post infection hyphae previously unseen. Pc123gfp colonization of tomato roots was low close to the root cap, but increased with the distance to form a patchy hyphal network. Pc123gfp colonized epidermal and cortex tomato root cells and induced plant defenses (papillae). qPCR unlike culturing revealed reduction in fungus root colonization (total and endophytic) with plant development. Pc123gfp was found by qPCR less rhizosphere competent than Pc123. Endophytic colonization by Pc123gfp promoted growth of both roots and shoots of tomato plants vs. uninoculated (control) plants. Tomato roots endophytically colonized by Pc123gfp and inoculated with M. javanica juveniles developed galls and egg masses which were colonized by the fungus. Our results suggest that endophytic colonization of tomato roots by P. chlamydosporia may be relevant for promoting plant growth and perhaps affect managing of root-knot nematode infestations.     

Endophytic fungi from the medicinal plant <Emphasis Type="Italic">Lippia sidoides</Emphasis> Cham. and their antimicrobial activity

Endophytic fungi were isolated from healthy tissues of Lippia sidoides Cham. (Verbenaceae), a medicinal plant used as an antiseptic in the northeast of Brazil. From 480 fragments of leaves (240) and stems (240), a total of 203 endophytic fungi were isolated, representing 14 species belonging to the groups Ascomycota, Coelomycetes and Hyphomycetes. Endophytic colonization was greater in leaves (50.4%) than in stems (35.4%). Colletotrichum gloeosporiodes had the maximum colonization frequency (12.3%), followed by Alternaria alternata (7.08%), Guignardia bidwelli (6.87%) and Phomopsis archeri (5.41%). Some species showed specificity for the host tissue: Curvularia pallescens, Dreschlera dematioidea, G. bidwellii, Microascus desmosporum, Peacilomyces variotti, Periconia byssoides and Ulocladium oudemansii were only isolated from leaves while Fusarium lateritium and Phoma tracheiphila were only isolated from stems. Through a preliminary screening and fermentation assay, 16 isolates where found to produce antimicrobial metabolites against bacterial and fungi. The diversity and role of endophytes in medicinal plants is briefly discussed. In conclusion, endophytic fungi from L. sidoides have pharmaceutical potential and can be seen as an attractive source of biologically active compounds.     

Can colonization by an endophytic fungus transform a plant into a challenging host for insect herbivores?

Endophytic growth of arthropod pathogenic fungi can parasitize insect herbivores without causing damage to the crop. However, studies addressing this tritrophic interaction are absent. Here, the endophytic arthropod pathogenic fungus Beauveria bassiana (Balsamo) Vuillemin (Hypocreales: Cordyciptaceae), the polyphagous two-spotted spider mite Tetranychus urticae Koch (Trombidiformes: Tetranychidae), and its preferred plant host Phaseolus vulgaris L. (Fabales: Fabaceae) were selected to study the multi-kingdom interactions among plants, arthropods, and entomopathogenic fungi. Real-Time PCR analysis of nine defense-related genes revealed that a broad range of plant defense mechanisms is activated in response to the endophytic growth of B. bassiana. Moreover, we studied the molecular mechanism adapted by the two-spotted spider mite that underlies resistance. The analysis of 41 detoxification genes revealed that relatively moderate, high, and few numbers of genes were changed in the adults, nymphs, and eggs stages of T. urticae, respectively, after inoculation on colonized tissues of P. vulgaris. The endophytic growth of B. bassiana can have a negative effect on the growth and performance of the pest, in a developmental stage-dependent manner, by priming plant defense pathways. In parallel, the herbivore induces a broad range of detoxification genes that could potentially be involved in adaptation to endophytically colonized plant tissues.     

二种交配型球孢白僵菌对亚洲玉米螟的生态控制作用

利用生物种间互做关系抑制农业害虫的暴发是生物防治的重要手段。为探讨二种交配型内共生球孢白僵菌与玉米之间的互惠关系及其形成的共生体在亚洲玉米螟控制中的生态效应,以玉米为宿主植物,以球孢白僵菌孢子悬浮液进行灌根,在温室内构建了二种交配型(MAT1-1-1型,B5;MAT1-2-1型,B2)球孢白僵菌-玉米共生体,并研究了共生体对玉米的生长、对亚洲玉米螟的产卵选择和幼虫发育及其对球孢白僵菌生物学特性的影响。结果显示:通过叶片离体培养、ITS基因和交配型基因MAT检测,均能检测到白僵菌的内生定殖;MAT1-2-1型B2菌株定殖检出率高,MAT1-1-1型B5菌株在混合型接种中定殖有优势。回收后的球孢白僵菌菌落直径和毒力无显著性变化,但其产孢量都显著提高其中回收B5处理组来源菌株的产孢量提高最显著。接种过球孢白僵菌的玉米植株地上部生长速度、生物量和地下根系生物量均优于对照组,其中根系干重明显增加,而地上植株干重也相对增加。MAT1-1-1型菌株B5对共生体玉米植株地上高度促生长贡献明显;MAT1-2-1型菌株B2对共生体玉米植株地下干重增加贡献明显。总体上球孢白僵菌内生定殖对玉米地下根系生物量影响大于对地上植株生物量的影响。在产卵选择性试验中,各处理组亚洲玉米螟的产卵量显著少于对照组。共生体对亚洲玉米螟产卵具有明显的趋避作用,MAT1-2-1型菌株B2对产卵的趋避作用明显,而MAT1-2-1型菌株B5的趋避作用较弱。在人工接种幼虫的试验中,处理组回收的亚洲玉米螟幼虫存活率均显著低于对照组,其中,B5组回收幼虫的存活率最低,仅为38.33%;处理组的化蛹率与对照组差异不显著,但B5组的回收幼虫化蛹率显著低于B2组和对照组,仅为34.77%,这说明MAT1-1-1型B5菌株对玉米螟幼虫发育抑制最明显。上述结果表明,不同交配型球孢白僵菌内生定殖效率有差异,在经过内生定殖后在产孢量方面有显著性提高,两个交配型菌株在联合应用时具有协同增效作用;两个交配型菌株均能够通过内生定殖与玉米形成共生体并促进玉米植株的生长,这显示球孢白僵菌和玉米之间已经建立具有互惠关系的共生体。这种共生体通过趋避亚洲玉米螟产卵、抑制幼虫存活和降低化蛹率等方面的潜力虽然不一样,但都有助于对亚洲玉米螟的可持续生态防治,也证明了共生体的建成有效提高了玉米的生态适应性,为利用球孢白僵菌内共生性实施亚洲玉米螟防控提供了新思路。     

Endophytic blastospores of Beauveria bassiana provide high resistance against plant disease caused by Botrytis cinerea

The entomopathogenic fungus Beauveria bassiana is widely used for insect pest control and can produce three distinct infective unit types under different nutritional and environmental conditions: aerial conidia, blastospores, and submerged conidia. Here, we identified endophytic colonization ability and existing forms of the three types of B. bassiana infective units after inoculating Arabidopsis plants via soil drenching, and tested their effects on their presence mold disease caused by Botrytis cinerea. We found that all B. bassiana infective unit types colonized Arabidopsis leaves, with germinating and producing hyphae by hydrophilic blastopores and submerged conidia; further, we showed that blastospores were more effective in defending against B. cinerea, compared with aerial conidia. These findings suggest that in addition to aerial conidia, the colonization of other two types of entomopathogenic fungal infective units could also have important impacts on plant resistance. This study contributes to better understanding on the function of B. bassiana as fungal endophytes, which could lead to a new paradigm for how to successfully use these organisms in biological control against plant diseases.     

Characterization of endophytic bacteria associated with rose plant (Rosa damascena trigintipeta) during flowering stage and their plant growth promoting traits

Little is known about the bacterial communities associated with the rose plants inhabiting dry desert ecosystems. The aim of this study was to isolate and characterize endophytic bacteria from different organs of rose plant. Endophytic bacteria were observed in healthy roots, stems, leaves, and flowers of rose plant, with a significantly higher density in roots, followed by stems, leaves, and petals. A total of 38 bacterial endophytes were isolated and are closely related phylogenetically to Acetobacter, Acinetobacter, Methylococcus, Bacillus, Micrococcus, Planococcus by 16S rRNA sequence analysis. Six endophytic bacteria were found to produce IAA, solubilize Ca₃(PO₄)₂ and produce siderophore. The six endophytic bacteria all had the capacity to produce hydrolytic enzyme such as cellulase, xylanase, pectinase, amylase, protease, lipase, and chitinase, but difference existed among these isolates.     

A novel life cycle arising from leaf segments in plants regenerated from horseradish hairy roots

Summary Horseradish (Armoracia rusticana) hairy root clones were established from hairy roots which were transformed with the Ri plasmid in Agrobacterium rhizogenes 15834. The transformed plants, which were regenerated from hairy root clones, had thicker roots with extensive lateral branches and thicker stems, and grew faster compared with non-transformed horseradish plants. Small sections of leaves of the transformed plants generated adventitious roots in phytohormone-free G (modified Gamborg's) medium. Root proliferation was followed by adventitious shoot formation and plant regeneration. Approximately twenty plants were regenerated per square centimeter of leaf. The transformed plants were easily transferable from sterile conditions to soil. When leaf segments of the transformed plants were cultured in a liquid fertilizer under non-sterile conditions, adventitious roots were generated at the cut ends of the leaves. Adventitious shoots were generated at the boundary between the leaf and the adventitious roots and developed into complete plants. This novel life cycle arising from leaf segments is a unique property of the transformed plants derived from hairy root clones.     

Grapevine leaf tissue colonization by the fungal entomopathogen <Emphasis Type="Italic">Beauveria bassiana</Emphasis><Emphasis Type="Italic">s.l.</Emphasis> and its effect against downy mildew

A study was conducted to examine whether Beauveria bassiana (Balsamo) Vuillemin (Ascomycota: Hypocreales) can colonize grapevine leaf tissues and subsequently confer protection against downy mildew caused by Plasmopara viticola (Berk. and Curt.) Berl. and de Toni. Following the foliar inoculation of plants with conidial suspensions of selected B. bassiana strains, colonization of leaves by the fungus was determined using culture-based and PCR techniques at different time intervals. Seven days following B. bassiana inoculation, grapevine plants were challenged with P. viticola and symptoms were assessed by calculating the disease incidence and severity. Although all tested strains were able to colonize grapevine plants, percent colonization differed significantly among strains. Disease incidence and severity were, on the other hand, significantly reduced in B. bassiana-inoculated plants compared to control plants irrespective of strain. This study is one of very few studies investigating the promising role B. bassiana could play as a plant disease antagonist.     

Reaction of some tomato cultivars to tomato leaf curl virus and evaluation of the endophytic colonisation with Beauveria bassiana on the disease incidence and its vector,Bemisia tabaci

Tomato line LA1478 and Pusa Ruby were resistant to tomato leaf curl virus (TLCV) disease. They registered higher plant height, number of branches, total phenol content and yield per plant than the other cultivars. Variety Peto 86 was tolerant to the disease while the other popular tomato cultivars, i.e. Ace, Early Pack, Money Maker, Prichard and Strain B were highly susceptible to the disease. Plant height and number of branches per plant revealed significantly positive association with fruit yield per plant. The disease index of TLCV exhibited significant negative correlations with plant height, total phenol content and fruit yield per plant – 0–4 and 5–25 adult whiteflies were observed on resistant susceptible cultivars. In the case of epiphytically colonisation by Beauveria bassiana conidia, not all developing hyphae on the leaf surface penetrated the whitefly cuticle. Many of the germ tubes elongated to a short distance before terminating its growth. On the other hand, the rapid staining of tomato tissues injected with B. bassiana conidial suspension indicates that the entomopathogenic fungus was established inside tomato tissues until the end time of the trial. The direct injection with the spore suspension yielded high post-colonisation, where the fungus was recovered from sites distant from the point of inoculation. This indicates that the fungus has the potential to move throughout the plant tissues. Laboratory bioassay of tomato whitefly feeding on tomato tissues containing B. bassiana conidial spores indicates that plant endophytic colonisation with entomopathogenic fungi may reduce insect survival on these plants. LT₅₀ values of the test diet were between three and four days. The mortality of Bemisia tabaci was high in the case of endophytically colonisation compared to epiphytically one (90.0% compared to 10.0% during three days) for whiteflies fed tomato tissues containing 1.5 × 10⁷ B. bassiana spores/ml. Application of B. bassiana as an artificial endophyte inside tomato plants can be an important component in the integrated control of tomato whiteflies. The endophytic colonising can achieve biocontrol effect based on induced disease resistance in plant tissues. According the available references, this is the first report on B. tabaci controlling by plant endophytic treatment.