Biocontrol and PGPR Features in Native Strains Isolated from Saline Soils of Argentina

A bacterial collection of approximately one thousand native strains, isolated from saline soils of Cordoba province (Argentina), was established. From this collection, a screening to identify those strains showing plant growth promotion and biocontrol activities, as well as salt tolerance, was performed. Eight native strains tolerant to 1 M NaCl and displaying plant growth promotion and/or biocontrol features were selected for further characterization. Strains MEP₂ 18, MRP₂ 26, MEP₂ 11a, MEP₃ 1, and MEP₃ 3b significantly increased the growth of maize seedlings under normal and saline conditions, whereas isolates ARP₂ 3, AEP₁ 5, and ARP₂ 6 were able to increase the root dry weight of agropyre under saline conditions. On the other hand, strains MEP₂ 18 and ARP₂ 3 showed antagonistic activity against phytopathogenic fungi belonging to Sclerotinia and Fusarium genus. Antifungal activity was found in cell-free supernatants, and it was heat and protease resistant. Strains MEP₂18 and ARP₂3 were identified as Bacillus sp. and strains MEP₂11a and MEP₃3b as Ochrobactrum sp. according to the sequence analysis of 16S rRNA gene.     

Botrydial confers Botrytis cinerea the ability to antagonize soil and phyllospheric bacteria

The role of the sesquiterpene botrydial in the interaction of the phytopathogenic fungus Botrytis cinerea and plant-associated bacteria was analyzed. From a collection of soil and phyllospheric bacteria, nine strains sensitive to growth-inhibition by B. cinerea were identified. B. cinerea mutants unable to produce botrydial caused no bacterial inhibition, thus demonstrating the inhibitory role of botrydial. A taxonomic analysis showed that these bacteria corresponded to different Bacillus species (six strains), Pseudomonas yamanorum (two strains) and Erwinia aphidicola (one strain). Inoculation of WT and botrydial non-producing mutants of B. cinerea along with Bacillus amyloliquefaciens strain MEP₂18 in soil demonstrated that both microorganisms exert reciprocal inhibitory effects; the inhibition caused by B. cinerea being dependent on botrydial production. Moreover, botrydial production was modulated by the presence of B. amyloliquefaciens MEP₂18 in confrontation assays in vitro. Purified botrydial in turn, inhibited growth of Bacillus strains in vitro and cyclic lipopeptide (surfactin) production by B. amyloliquefaciens MEP₂18. As a whole, results demonstrate that botrydial confers B. cinerea the ability to inhibit potential biocontrol bacteria of the genus Bacillus. We propose that resistance to botrydial could be used as an additional criterion for the selection of biocontrol agents of plant diseases caused by B. cinerea.     

Involvement of phenazines and lipopeptides in interactions between Pseudomonas species and Sclerotium rolfsii, causal agent of stem rot disease on groundnut

Aims: To determine the role of phenazines (PHZ) and lipopeptide surfactants (LPs) produced by Pseudomonas in suppression of stem rot disease of groundnut, caused by the fungal pathogen Sclerotium rolfsii. Methods and Results: In vitro assays showed that PHZ‐producing Pseudomonas chlororaphis strain Phz24 significantly inhibited hyphal growth of S. rolfsii and suppressed stem rot disease of groundnut under field conditions. Biosynthesis and regulatory mutants of Phz24 deficient in PHZ production were less effective in pathogen suppression. Pseudomonas strains SS101, SBW25 and 267, producing viscosin or putisolvin‐like LPs, only marginally inhibited hyphal growth of S. rolfsii and did not suppress stem rot disease. In contrast, Pseudomonas strain SH‐C52, producing the chlorinated LP thanamycin, inhibited hyphal growth of S. rolfsii and significantly reduced stem rot disease of groundnut in nethouse and field experiments, whereas its thanamycin‐deficient mutant was less effective. Conclusions: Phenazines and specific lipopeptides play an important role in suppression of stem rot disease of groundnut by root‐colonizing Pseudomonas strains. Significance and Impact of the Study: Pseudomonas strains Phz24 and SH‐C52 showed significant control of stem rot disease. Treatment of seeds or soil with these strains provides a promising supplementary strategy to control stem rot disease of groundnut.     

Sensitivity to boscalid in field isolates of Sclerotinia sclerotiorum from rapeseed in Henan Province,China

Sclerotinia stem rot caused by Sclerotinia sclerotiorum is an important disease of oilseed rape in Henan province of China. Boscalid belongs to succinate dehydrogenase inhibitor (SDHI) fungicides, many of which have strong antifungal activity against S. sclerotiorum. In 2015, a total of 175 isolates of S. sclerotiorum were collected from diseased oilseed rape plants in seven different regions of Henan Province. The EC₅₀ values of 175 isolates of S. sclerotiorum to boscalid ranged from 0.0073 to 0.3880 μg ml^?1, and the mean EC₅₀ value was 0.15 ± 0.09 μg ml^?1. The frequency distribution was unimodal. There was no cross‐resistance between boscalid and carbendazim, procymidone, iprodione, dimethachlone, fludioxonil or fluazinam. Field experiments showed that control efficacies of treatments with boscalid (50% WG) at 225, 300 and 375 g ai ha^?1 were 71%, 81% and 90%, respectively. In contrast, the control efficacy of carbendazim (50% WP) at 1,500 g ai ha^?1 was only 52%.     

花生侵脉新赤壳菌果腐病生防芽孢杆菌的分离鉴定及防病效果

【目的】为了分离鉴定对花生侵脉新赤壳菌果腐病病原菌Neocosmospora vasinfecta具有抑制作用的根际芽孢杆菌。【方法】利用平板稀释法从花生的根际土壤分离芽孢杆菌,再采用平板对峙法筛选出对N.vasinfecta具有抑制作用的根际芽孢杆菌,通过形态观察、生理生化特性和分子生物学相结合的多相分类方法对生防根际芽孢杆菌进行分类鉴定,检测脂肽类抗生素合成基因类型,并进行花生侵脉新赤壳菌果腐病的田间防治试验。【结果】从花生根际土壤中分离到28株芽孢杆菌,其中对花生果腐病病原菌具有明显抑制作用有8株。多相分类法结果显示2株为枯草芽孢杆菌(Bacillus subtilis),6株为解淀粉芽孢杆菌(B.amyloliquefaciens)。脂肽类抗生素合成基因检测显示,8株生防芽孢杆菌含有至少1种脂肽类抗生素,其中所有生防菌均含有丰原素B合成基因,推测这些芽孢杆菌对N.vasinfecta的抑制机制可能与脂肽类抗生素的合成相关。田间防病实验结果显示,B.amyloliquefaciens GF-3和GF-22制备的生物有机肥均能有效降低NPRP的发病指数,其防治效率分别为32.35%和79.41%,增产率分别为19.12%和25.85%。【结论】分离鉴定了2株对花生侵脉新赤壳菌果腐病具有明显防治效果的根际芽孢杆菌,这不仅为花生侵脉新赤壳菌果腐病的生防制剂研制提供了菌株,还为研究防治机理奠定了基础。     

Iturin A is the principal inhibitor in the biocontrol activity of Bacillus amyloliquefaciens PPCB004 against postharvest fungal pathogens

Aims: A Bacillus amyloliquefaciens strain, surviving epiphytically on the surface of fruit, was isolated while searching for naturally occurring biological control agents. This bacterial strain was characterized for its antifungal activity against seven selected fungal postharvest pathogens of citrus. Methods and Results: To understand the antifungal activity, seven postharvest fungal pathogens were screened for growth inhibition by B. amyloliquefaciens strain. Assays using B. amyloliquefaciens lipopeptide extracts showed a strong inhibitive activity. The inhibitory effect was observed in abnormal conidial germination and germ tube development when conidia were treated with different lipopeptide extract concentrations. Further analysis using PCR and chromatography confirmed the presence of fengycin, iturin and surfactine, of which iturin A showed the strongest and most common inhibitory effect. The results are supported by site‐directed mutagenesis analysis, targeted to suppress the biosynthesis of iturin A production. Fruit trials confirmed disease development inhibition when the antagonist was applied 1 day prior to or 1 day after fungal application. Conclusions: We conclude that the iturin family of lipopeptides are vital in the antagonism of B. amyloliquefaciens against the seven citrus postharvest pathogenic fungi tested. Significance and Impact of the Study: We elucidated the principal mechanism used by B. amyloliquefaciens PPCB004 to suppress postharvest disease development on stored fruits.     

Carbendazim resistance and dimethachlone sensitivity of field isolates of Sclerotinia sclerotiorum from oilseed rape in Henan Province,China

Sclerotinia stem rot caused by Sclerotinia sclerotiorum is one of the most important diseases in oilseed rape‐growing areas of China. To determine the frequency of resistance of field isolates of S. sclerotiorum to carbendazim and dimethachlone, a total of 556 isolates from 10 different regions of Henan Province were obtained between 2015 and 2016. The frequency of isolates with a high‐resistance phenotype and a moderate‐resistance phenotype to carbendazim was 69.2% and 10.8%, respectively. However, S. sclerotiorum isolates resistant to dimethachlone were not detected. The baseline sensitivity of S. sclerotiorum to dimethachlone was distributed as a unimodal curve with a mean EC₅₀ value of 0.39 ± 0.09 μg ml^?1 for the inhibition of mycelial growth. Four dimethachlone‐resistant mutants were obtained from 20 wild‐type isolates induced by exposure to increasing concentrations of the fungicide in vitro. The mutants showed high levels of resistance to dimethachlone, with resistance factors that ranged from 179 to 323. Positive cross‐resistance occurred between dimethachlone and procymidone, iprodione, and fludioxonil; however, no cross‐resistance was observed for carbendazim and boscalid. The fitness of the dimethachlone‐resistant mutants was significantly lower than that of the wild‐type isolates, as measured by mycelial growth, hyphal dry weight, sclerotium number and dry weight, and pathogenicity. Additionally, based on osmotic tests, the inhibition of mycelial growth caused by NaCl applied at different concentrations was significantly higher for the dimethachlone‐resistant mutants than for their wild‐type parents.     

Clonostachys rosea BAFC3874 as a Sclerotinia sclerotiorum antagonist: mechanisms involved and potential as a biocontrol agent

Aims: To establish the modes of action of the antagonistic fungal strain Clonostachys rosea BAFC3874 isolated from suppressive soils against Sclerotinia sclerotiorum and to determine its potential as a biocontrol agent. Methods and Results: The antagonistic activity of C. rosea BAFC3874 was determined in vitro by dual cultures. The strain effectively antagonized S. sclerotiorum in pot‐grown lettuce and soybean plants. Antifungal activity assays of C. rosea BAFC3874 grown in culture established that the strain produced antifungal compounds against S. sclerotiorum associated with secondary metabolism. High mycelial growth inhibition coincided with sclerotia production inhibition. The C. rosea strain produced a microheterogeneous mixture of peptides belonging to the peptaibiotic family. Moreover, mycoparasitism activity was observed in the dual culture. Conclusions: Clonostachys rosea strain BAFC3874 was proved to be an effective antagonist against the aggressive soil‐borne pathogen S. sclerotiorum in greenhouse experiments. The main mechanisms involve peptaibiotic metabolite production and mycoparasitism activity. Significance and Impact of the Study: Clonostachys rosea BAFC3874 may be a good fungal biological control agent against S. sclerotiorum. In addition, we were also able to isolate and identify peptaibols, an unusual family of compounds in this genus of fungi.     

向日葵菌核病拮抗菌的筛选、鉴定及防效测定

[背景] 由核盘菌（Sclerotinia sclerotiorum）引起的菌核病是影响向日葵产量的重要病害,近年来在我国内蒙古和甘肃等地频繁发生。[目的] 挖掘能够对向日葵菌核病进行生物防治的拮抗菌株和有效方法。[方法] 用4种不同的培养基通过稀释涂布法对向日葵健康植株的根际土壤菌群进行分离,利用平板对峙实验筛选出对核盘菌有抑制作用的菌株。选取拮抗作用较强的菌株进行向日葵离体叶片防效测定,采用形态学特征、生理生化特性结合16S rRNA基因序列分析进行菌种鉴定,并配制成不同单菌剂和复合菌剂进行盆栽实验,测定活体防效。[结果] 从土壤中共分离出142株菌,从中筛选到12株抑菌圈明显的拮抗菌株。其中拮抗菌Bacillus sp.NM63、JQ134、J7、J33和Streptomyces sp.Z9、ZX6抑菌圈直径大于25 mm,这6株菌在向日葵离体叶片防效测定实验中效果显著。菌株NM63、JQ134、J7、Z9、J33和ZX6单菌剂盆栽实验的防治效果依次为79.06%、74.10%、70.72%、67.83%、65.11%和57.11%。菌株配比为Z9：NM63：JQ134：J7=1：1：1：1的复合发酵菌剂Ⅰ对向日葵盆栽的活体防效为81.43%,菌株配比为Z9：NM63：JQ134：J7=1：2：2：1的复合发酵菌剂Ⅱ对向日葵盆栽的活体防效为85.88%。[结论] 筛选鉴定出多株对核盘菌具有较强抑制作用的拮抗菌株,复合菌剂Ⅱ对向日葵菌核病的防治具有显著效果。     

Studies on Biological Activity of Cyclic Imide Compounds

The structure-activity relationships of l-phenylpyrrolidine-2,5-dione derivatives were investigated on Sclerotinia sclerotiorum by the agar dilution method. In addition, several representative compounds were tested for antimicrobial spectra in vitro with 15 pathogenic microbes and for foliage protection activity in green house tests with rice blast, rice brown spot, rice sheath blight and kidney bean stem rot. It was found that 3,5-dihalo-substituents on the benzene moiety are essential to high antifungal activity against Sclerotinia sclerotiorum. Generally, l-(3′,5′-dihalophenyl)pyrrolidine-2,5-diones are active against Corticiaceae, Dematiaceae, Pleosporaceae and Sclerotiniaceae, especially active against Sclerotinia sclerotiorum and Botrytis cinerea (the conidia form of Sclerotinia fuckeliana). N-(3,5-Dichlorophenyl)itaconimide showed a peculiarly broad antimicrobial spectrum. In green house tests, these compounds showed high activity against rice brown spot, rice sheath blight and kidney bean stem rot. Results of green house tests on the above-mentioned diseases correlate fairly well with those of in vitro tests.     

Isolation,purification, and characterization of novel fengycin S from <Emphasis Type="Italic">Bacillus amyloliquefaciens</Emphasis> LSC04 degrading-crude oil

In this study, a biosurfactant-producing bacterial strain was isolated from oil-contaminated soil on the basis of its ability to degrade crude oil and tributyrin (C_4:0). LSC04 was identified as Bacillus amyloliquefaciens LSC04 via 16S rRNA gene analysis and partial gyrA gene sequence analysis. The biosurfactants were purified and structural analysis results showed that B. amyloliquefaciens LSC04 generated a lipopeptide biosurfactant. Two main ions of 1,086.9 and 1,491.2 were measured via matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. The m/z 1,491.2 was shown to correspond to the lipopeptide fengycin B, but the m/z 1,086.9 ion did not correspond to any known lipopeptide. As constituents of the peptides and the lipophilic portion of the m/z 1,491.2; 10 amino acids (Ile-Tyr-Gln-Pro-Val-Glu-Ser-Tyr-Orn-Glu); and β-hydroxy-C17 fatty acid were identified via ESI-MS/MS. Structurally, the lipopeptide of a molecular mass of 1,491.2 differed from fengycin B and fengycin A by a substitution of serine for the threonine residue in position 4, and the amino acid residue in position 6 was equal to that of fengycin A. The major compound, which had a molecular mass of 1,491.2 Da was designated “Fengycin S”.     

Bacillus amyloliquefaciens ssp. plantarum strains as potential protective starter cultures for the production of Bikalga,an alkaline fermented food

Aims

To identify and screen dominant Bacillus spp. strains isolated from Bikalga, fermented seeds of Hibiscus sabdariffa for their antimicrobial activities in brain heart infusion (BHI) medium and in a H. sabdariffa seed‐based medium. Further, to characterize the antimicrobial substances produced.

Methods and Results

The strains were identified by gyrB gene sequencing and phenotypic tests as B. amyloliquefaciens ssp. plantarum. Their antimicrobial activity was determined by the agar spot and well assay, being inhibitory to a wide range of Gram‐positive and Gram‐negative pathogenic bacteria and fungi. Antimicrobial activity against Bacillus cereus was produced in H. sabdariffa seed‐based medium. PCR results revealed that the isolates have potential for the lipopeptides iturin, fengycin, surfactin, the polyketides difficidin, macrolactin, bacillaene and the dipeptide bacilysin production. Ultra‐high‐performance liquid chromatography‐time of flight mass spectrometry analysis of antimicrobial substance produced in BHI broth allowed identification of iturin, fengycin and surfactin.

Conclusions

The Bacillus amyloliquefaciens ssp. plantarum exhibited broad‐spectrum antifungal and antibacterial properties. They produced several lipopeptide antibiotics and showed good potential for biological control of Bikalga.

Significance and Impact of the Study

Pathogenic bacteria often occur in spontaneous food fermentations. This is the first report to identify indigenous B. amyloliquefaciens ssp. plantarum strains as potential protective starter cultures for safeguarding Bikalga.     

Mass spectrometry identification of antifungal lipopeptides from Bacillus sp. BCLRB2 against Rhizoctonia solani and Sclerotinia sclerotiorum

This work aims to characterize the bioactive molecules produced by an antagonistic Bacillus sp. strain BCLRB2 isolated from healthy leaves of olive tree against Rhizoctonia solani and Sclerotinia sclerotiorum. The bacterial strain isolated showed a high and persistent antifungal activity against the two pathogens. The free-cell supernatant showed also a high antifungal activity against R. solani and at a lower extent against S. sclerotiorum. The partial purification of the antifungal substances with methanol gradient applied to C18 column binding the Bacillus BCLRB2 culture supernatant showed that the 20% and 60% methanol fractions had a high and specific activity against S. sclerotiorum and R. solani, respectively. The mass spectrometry identification of the compounds in the fraction specifically active against S. sclerotiorum revealed the presence of bacillomycin D C16 as a major lipopeptide. The fraction specifically active against R. solani contained bacillomycin D C15 and 2 unknown lipopeptides. The 80% methanol fraction had a moderate and a broad spectrum activity against the two pathogens and consisted from two iturin D (C13 and C14) as a major lipopeptides.     

Evaluation of indigenous bacterial strains for biocontrol of the frogeye leaf spot of soya bean caused by Cercospora sojina

Aims: Assessment of biological control of Cercospora sojina, causal agent of frogeye leaf spot (FLS) of soya bean, using three indigenous bacterial strains, BNM297 (Pseudomonas fluorescens), BNM340 and BNM122 (Bacillus amyloliquefaciens). Methods and Results: From cultures of each bacterial strain, cell suspensions and cell‐free supernatants were obtained and assayed to determine their antifungal activity against C. sojina. Both mycelial growth and spore germination in vitro were more strongly inhibited by bacterial cell suspensions than by cell‐free supernatants. The Bacillus strains BNM122 and BNM340 inhibited the fungal growth to a similar degree (I～52–53%), while cells from P. fluorescens BNM297 caused a lesser reduction (I～32–34%) in the fungus colony diameter. The foliar application of the two Bacillus strains on soya bean seedlings, under greenhouse conditions, significantly reduced the disease severity with respect to control soya bean seedlings and those sprayed with BNM297. This last bacterial strain was not effective in controlling FLS in vivo. Conclusions: Our data demonstrate that the application of antagonistic bacteria may be a promising and environmentally friendly alternative to control the FLS of soya bean. Significance and Impact of the Study: To our knowledge, this is the first report of biological control of C. sojina by using native Bacillus strains.     

Effects of seeding rate and plant density on sclerotinia stem rot incidence in canola

Abstract

Sclerotinia stem rot (Sclerotinia sclerotiorum Lib. deBary) affects canola wherever it is grown. Seeding rates, which are believed to affect the microclimate beneath the canopy, were evaluated for their impact on sclerotinia stem rot incidence. A study with five seeding rates (2.2 kg/ha, 3.3 kg/ha, 6.7 kg/ha, 13.3 kg/ha and 20.0 kg/ha) and four canola cultivars chosen for their variation in canopy structure and lodging resistance was conducted in Carman, Manitoba, Canada, in 2001 to 2003. A significant relationship between sclerotinia stem rot disease incidence (DI) and seeding rate was found. With an increase in seeding rate, the DI was significantly increased in the mean of the canola cultivars, and individually, only in the lodging-prone cultivar AC Excel. Lodging significantly increased for all cultivars when seeding rates exceeded the standard 6.7 kg/ha. Multiple regression analysis revealed that both plant density and lodging explain the majority of the variation in DI. Both plant density and lodging resistance varied in having a larger influence on DI depending on the year and cultivar analysed. Our results indicate that increasing seeding rate does modify the microenvironment and increases the potential for lodging, which may be responsible for plant-to-plant spread of this disease.     

Prokaryotic expression and protein function of Brassica napus PGIP2 and its genetic transformation

Sclerotinia rot is a fungal disease caused by Sclerotinia sclerotiorum (Lib.) de Bary, which has severely reduced rapeseed production worldwide. Polygalacturonase-inhibiting proteins (PIGPs) inhibit the activity of polygalacturonases, which are secreted during fungal infection in plants. This study investigated the function of the polygalacturonase-inhibitor gene 2 (PGIP2) in sclerotinia rot resistance. The PGIP2 was successfully expressed in a prokaryotic system, and recombinant PGIP2 protein, purified after enterokinase treatment to remove tag peptide, inhibited S. sclerotiorum PG activity in vitro. PGIP2 was overexpressed in the susceptible Brassica napus cultivar 98c40 via Agrobacterium-mediated transformation. After inoculation with S. sclerotiorum mycelia, the transgenic rapeseed demonstrated greatly reduced leaf damage, as compared with their non-transgenic plants. Therefore, the PGIP2 encodes a functional protein and would be a candidate gene for enhancing Sclerotinia rot resistance.     

Antifungal Effects of Bacilysin and Fengymycin from Bacillus subtilis F-29-3 A Comparison with Activities of Other Bacillus Antibiotics

Of the two antifungal antibiotics produced by Bacillus subtilis F-29-3, the dipeptide compound bacilysin inhibits yeasts (and bacteria), whereas the formerly unknown fengymycin, a complex of closely related lipopeptide components, shows antibiotic activity against filamentous fungi. Bacilysin production, formerly known for a few strains only, could be demonstrated for all 12 wild-type cultures of Bacillus subtilis tested during this study. The antibiotic also occurs in some strains of three other Bacillus species considered as closely realted to B. subtilis. Members of the lipopeptide class of antifungal Bacillus metabolites were formed by 8 of 12 Bacillus subtilis-isolates and several other Bacillus strains. The antibiotics of F-29-3 were compared with antifungal metabolites of other Bacillus isolates using TLC, agar-diffusion techniques and tests demonstrating the capacity of six lipopeptide and peptide preparations to protect rice seedlings from phytomycosis due to Rhizoctonia solani. Fengymycin proved to be different from the other compounds tested. It was less toxic to the test plants and protected them better from Rhizoctonia disease than the other antibiotics of the study did.     

Rapid Detection and Characterization of Surfactin-Producing <Emphasis Type="Italic">Bacillus subtilis</Emphasis> and Closely Related Species Based on PCR

The surfactin production genetic locus (sfp) is responsible for the ability of Bacillus subtilis to produce the lipopeptide biosurfactant, surfactin. This report demonstrates the utility of using PCR of the sfp gene as a means of identifying Bacillus species that produce surfactin. We carried out a hemolysis zone assay, quantitative HPLC and NMR in parallel to ensure that the PCR provided correct results. PCR analyses were performed for the sfp gene on 15 standard strains and 20 field-collected Bacillus spp. isolates native to Taiwan. Among the 15 standard strains, surfactin was produced by seven strains of B. subtilis and two closely related species, B. amyloliquefaciens B128 and B. circulans ATCC 4513. Of the 20 field-collected Bacillus spp. isolates; 16 strains yielded surfactin- positive results with PCR and HPLC. A good correlation was observed. Within the 16 field isolates, B. amyloliquefaciens S13 (452.5 mg/L) and B. subtilis S15 (125.6 mg/L) had high productivity of surfactin. The technique is valuable for finding out potential good yields of surfactin-producing strains. The PCR method we used could also be used to find different species or genera containing homologous genes. This is the first report of the detection of surfactin production by B. amyloliquefaciens and B. circulans based on PCR screening.