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1.
Sci Rep ; 14(1): 9374, 2024 04 23.
Article in English | MEDLINE | ID: mdl-38653777

ABSTRACT

Colletotrichum is an important plant pathogenic fungi that causes anthracnose/-twister disease in onion. This disease was prevalent in the monsoon season from August to November months and the symptoms were observed in most of the fields. This study aimed to investigate the pathogenicity and cumulative effect, if any of Colletotrichum gloeosporioides and Fusarium acutatum. The pot experiment was laid out to identify the cause responsible for inciting anthracnose-twister disease, whether the Colletotrichum or Fusarium or both, or the interaction of pathogens and GA3. The results of the pathogenicity test confirmed that C. gloeosporioides and F. acutatum are both pathogenic. C. gloeosporioides caused twisting symptoms independently, while F.acutatum independently caused only neck elongation. The independent application of GA3 did not produce any symptoms, however, increased the plant height. The combined treatment of C. gloeosporioides and F. acutatum caused twisting, which enhanced upon interaction with GA3 application giving synergistic effect. The acervuli were found in lesions infected with C. gloeosporioides after 8 days of inoculation on the neck and leaf blades. Symptoms were not observed in untreated control plants. Koch's postulates were confirmed by reisolating the same pathogens from the infected plants.


Subject(s)
Colletotrichum , Fusarium , Onions , Plant Diseases , Colletotrichum/pathogenicity , Fusarium/pathogenicity , Plant Diseases/microbiology , Onions/microbiology
2.
Sci Rep ; 12(1): 857, 2022 01 17.
Article in English | MEDLINE | ID: mdl-35039591

ABSTRACT

Sorghum damping-off, caused by Fusarium solani (Mart.) Sacc., is a serious disease which causes economic loss in sorghum production. In this study, antagonistic activity of lavender essential oil (EO) at 0.5, 0.75, 1.0, 1.25, 1.5, and 1.6% against F. solani was studied in vitro. Their effects on regulation of three SbWRKY transcription factors, the response factor JERF3 and eight defense-related genes, which mediate different signaling pathways, in sorghum were investigated. Effects of application under greenhouse conditions were also evaluated. The results showed that lavender EO possesses potent antifungal activity against F. solani. A complete inhibition in the fungal growth was recorded for lavender EO at 1.6%. Gas chromatography-mass spectrometric analysis revealed that EO antifungal activity is most likely attributed to linalyl anthranilate, α-terpineol, eucalyptol, α-Pinene, and limonene. Observations using transmission electron microscopy revealed many abnormalities in the ultrastructures of the fungal mycelium as a response to treating with lavender EO, indicating that multi-mechanisms contributed to their antagonistic behavior. Results obtained from Real-time PCR investigations demonstrated that the genes studied were overexpressed, to varying extents in response to lavender EO. However, SbWRKY1 was the highest differentially expressed gene followed by JERF3, which suggest they play primary role(s) in synchronously organizing the transcription-regulatory-networks enhancing the plant resistance. Under greenhouse conditions, treating of sorghum grains with lavender EO at 1.5% prior to infection significantly reduced disease severity. Moreover, the growth parameters evaluated, the activities of antioxidant enzymes, and total phenolic and flavonoid contents were all enhanced. In contrast, lipid peroxidation was highly reduced. Results obtained from this study support the possibility of using lavender EO for control of sorghum damping-off. However, field evaluation is highly needed prior to any usage recommendation.


Subject(s)
Antifungal Agents , Fusarium/drug effects , Fusarium/pathogenicity , Gene Expression Regulation/drug effects , Gene Expression Regulation/genetics , Gene Expression/drug effects , Host Microbial Interactions/drug effects , Host Microbial Interactions/genetics , Lavandula/chemistry , Oils, Volatile/pharmacology , Plant Diseases/genetics , Plant Diseases/microbiology , Plant Oils/pharmacology , Sorghum/genetics , Sorghum/microbiology , Transcription Factors/genetics , Drug Resistance, Fungal , Gene Expression/genetics , Gene Regulatory Networks/drug effects , Gene Regulatory Networks/genetics , Oils, Volatile/isolation & purification , Plant Oils/isolation & purification , Transcription Factors/metabolism
3.
Arch Microbiol ; 203(8): 5173-5182, 2021 Oct.
Article in English | MEDLINE | ID: mdl-34338823

ABSTRACT

Endophytes associated with plants have the property to produce active biomolecules with their possible applications in agro-industrial sectors. This study provides a project work on analyzing various activities of fungal endophytes isolated from Swertia chirayita of Sikkim Himalayan region. Among several fungal endophytes screened, isolate UTCRF6 was found most active with the secretion of enzymes protease, cellulase, amylase and chitinase, as well as other metabolites Indoleacetic acid and siderophores. This endophyte was found active in restricting the growth of phyto-pathogens, including strains of Fusarium solani, Colletotrichum gloeosporioides, Alternaria alternata, Pestalotiopsis theae and Sclerotinia sclerotiorum. Morphological and molecular studies of this endophytic fungus showed similarity with Penicillium citrinum.


Subject(s)
Ascomycota , Biological Control Agents , Penicillium , Plants, Medicinal , Swertia , Alternaria/pathogenicity , Ascomycota/pathogenicity , Colletotrichum/pathogenicity , Endophytes , Fusarium/pathogenicity , Plants, Medicinal/microbiology , Swertia/microbiology
4.
Int J Mol Sci ; 22(9)2021 May 06.
Article in English | MEDLINE | ID: mdl-34066497

ABSTRACT

Autophagy is an intracellular process in all eukaryotes which is responsible for the degradation of cytoplasmic constituents, recycling of organelles, and recycling of proteins. It is an important cellular process responsible for the effective virulence of several pathogenic plant fungal strains, having critical impacts on important crop plants including potatoes. However, the detailed physiological mechanisms of autophagy involved in the infection biology of soil-borne pathogens in the potato crop needs to be investigated further. In this study, the autophagy-related gene, FoATG12, in potato dry rot fungus Fusarium oxysporum was investigated by means of target gene replacement and overexpression. The deletion mutant ∆FoATG12 showed reduction in conidial formation and exhibited impaired aerial hyphae. The FoATG12 affected the expression of genes involved in pathogenicity and vegetative growth, as well as on morphology features of the colony under stressors. It was found that the disease symptoms were delayed upon being inoculated by the deletion mutant of FoATG12 compared to the wild-type (WT) and overexpression (OE), while the deletion mutant showed the disease symptoms on tomato plants. The results confirmed the significant role of the autophagy-related ATG12 gene in the production of aerial hyphae and the effective virulence of F. oxysporum in the potato crop. The current findings provid an enhanced gene-level understanding of the autophagy-related virulence of F. oxysporum, which could be helpful in pathogen control research and could have vital impacts on the potato crop.


Subject(s)
Autophagy-Related Protein 12/genetics , Autophagy/genetics , Fungal Proteins/genetics , Fusarium/cytology , Fusarium/genetics , Genes, Fungal , Plant Diseases/microbiology , Solanum tuberosum/microbiology , Autophagy-Related Protein 12/metabolism , Fungal Proteins/metabolism , Fusarium/pathogenicity , Gene Expression Regulation, Fungal , Hyphae/growth & development , Mutation/genetics , Phenotype , Plant Diseases/genetics , Spores, Fungal/growth & development , Stress, Physiological/genetics
5.
Chem Biodivers ; 18(5): e2100079, 2021 May.
Article in English | MEDLINE | ID: mdl-33821531

ABSTRACT

Eight natural biphenyl-type phytoalexins exhibiting antifungal effect were isolated from the leaves of Sorbus pohuashanensis, which invaded by Alternaria tenuissi, and their growth inhibition rate towards A. tenuissi were 50.3 %, 54.0 %, 66.4 %, 58.8 %, 48.5 %, 51.0 %, 33.3 %, and 37.0 %, respectively. In vivo activity assay verified the protective effect of these natural biphenyls on tobacco leaves. The observation of mycelial morphology revealed that these compounds possessed adverse effects on mycelial growth of A. tenuissi. Subsequently, the most potent active compounds, 3',4',5'-trimethoxy[1,1'-biphenyl]-4-ol (3) and 3,4,4',5-tetramethoxy-1,1'-biphenyl (4), were conducted to the further antifungal evaluation and showed significant activity against the other four crop pathogens, Fusarium graminearum, Helminthosporium maydis, Sclerotinia sclerotiorum, and Exserohilum turcicum. Further, the structure-activity relationships and biosynthesis of these compounds were speculated in this work.


Subject(s)
Alternaria/drug effects , Antifungal Agents/pharmacology , Biphenyl Compounds/pharmacology , Sorbus/chemistry , Alternaria/growth & development , Alternaria/pathogenicity , Antifungal Agents/chemistry , Antifungal Agents/isolation & purification , Ascomycota/drug effects , Ascomycota/pathogenicity , Biphenyl Compounds/chemistry , Biphenyl Compounds/isolation & purification , Bipolaris/drug effects , Bipolaris/pathogenicity , Fusarium/drug effects , Fusarium/pathogenicity , Microbial Sensitivity Tests , Molecular Structure , Plant Extracts , Plant Leaves/chemistry
6.
Molecules ; 26(8)2021 Apr 18.
Article in English | MEDLINE | ID: mdl-33919567

ABSTRACT

Essential oils are gaining interest as environmentally friendly alternatives to synthetic fungicides for management of seedborne pathogens. Here, seven essential oils were initially tested in vivo for disinfection of squash seeds (Cucurbita maxima) naturally contaminated by Stagonosporopsis cucurbitacearum, Alternaria alternata, Fusarium fujikuro, Fusarium solani, Paramyrothecium roridum, Albifimbria verrucaria, Curvularia spicifera, and Rhizopus stolonifer. The seeds were treated with essential oils from Cymbopogon citratus, Lavandula dentata, Lavandula hybrida, Melaleuca alternifolia, Laurus nobilis, and Origanum majorana (#1 and #2). Incidence of S. cucurbitacearum was reduced, representing a range between 67.0% in L. nobilis to 84.4% in O. majorana #2. Treatments at 0.5 mg/mL essential oils did not affect seed germination, although radicles were shorter than controls, except with C. citratus and O. majorana #1 essential oils. Four days after seeding, seedling emergence was 20%, 30%, and 10% for control seeds and seeds treated with C. citratus essential oil (0.5 mg/mL) and fungicides (25 g/L difenoconazole plus 25 g/L fludioxonil). S. cucurbitacearum incidence was reduced by ~40% for plantlets from seeds treated with C. citratus essential oil. These data show the effectiveness of this essential oil to control the transmission of S. cucurbitacearum from seeds to plantlets, and thus define their potential use for seed decontamination in integrated pest management and organic agriculture.


Subject(s)
Cucurbita/microbiology , Oils, Volatile/pharmacology , Plant Oils/pharmacology , Seeds/drug effects , Alternaria/drug effects , Alternaria/pathogenicity , Ascomycota/pathogenicity , Cucurbita/drug effects , Curvularia/drug effects , Curvularia/pathogenicity , Fungicides, Industrial/chemistry , Fungicides, Industrial/pharmacology , Fusarium/drug effects , Fusarium/pathogenicity , Hypocreales/drug effects , Hypocreales/pathogenicity , Oils, Volatile/chemistry , Plant Diseases/microbiology , Plant Diseases/prevention & control , Plant Oils/chemistry , Rhizopus/drug effects , Rhizopus/pathogenicity , Seeds/microbiology
7.
Methods Mol Biol ; 2232: 219-249, 2021.
Article in English | MEDLINE | ID: mdl-33161551

ABSTRACT

The genus Streptomyces constitutes approximately 50% of all soil actinomycetes, playing a significant role in the soil microbial community through vital functions including nutrient cycling, production of bioactive metabolites, disease-suppression and plant growth promotion. Streptomyces produce many bioactive compounds and are prime targets for industrial and biotechnological applications. In addition to their agrobiological roles, some Streptomyces spp. can, however, be phytopathogenic, examples include, common scab of potato that causes economic losses worldwide. Currently used chemical control measures can have detrimental effect to environmental and human health as a result alternative methods to chemical disease control are being investigated. One alternative is the use of streptomycete specific phages to remove this pathogenic bacterium before it can cause the disease on potatoes. However, due to co-existence of non-common scab-causing species belonging to the genus Streptomyces, phage treatment is likely to affect a wide range of non-target streptomycete species including the beneficial ones in the soil. Therefore, before such treatment starts the host range of the phages within the targeted family of bacteria should be determined. In a study conducted using soil samples from a Tasmanian potato farm, streptomycetes were isolated and tested against streptomycete-specific phages. Their antifungal activity was also determined using multiple assays against selected phytopathogens. The four strongest antifungal activity-displaying isolates were further tested for their persistent antifungal activity using wheat and Fusarium solani in a pot trial. A second pot trial was also conducted to evaluate whether the beneficial streptomycetes were affected by streptophage treatment and whether their removal via the phage battery would cause opportunistic fungal infections to plants in soil. The streptomycetes prevented the reduction in wheat shoot weight caused by F. solani indicating their disease suppressive effect. However, when phages were added into the pots, the growth of wheat was detrimentally impacted. This finding might suggest that the reduced presence of antifungal streptomycetes via phage-induced lysis might encourage opportunistic fungal infections in plants.


Subject(s)
Fusarium/pathogenicity , Solanum tuberosum/microbiology , Streptomyces/chemistry , Triticum/microbiology , Actinomycetales/chemistry , Actinomycetales/isolation & purification , Farms , Humans , Plant Diseases/genetics , Plant Diseases/prevention & control , Soil Microbiology , Solanum tuberosum/genetics , Streptomyces/isolation & purification , Triticum/genetics
8.
Int J Mol Sci ; 21(17)2020 Aug 20.
Article in English | MEDLINE | ID: mdl-32825476

ABSTRACT

Garlic substrate could influence plant growth through affecting soil microbiome structure. The relationship mechanism between changes in soil microbial communities, disease suppression and plant development, however, remains unclear, particularly in the degraded soil micro-ecological environment. In this study, garlic substrates as a soil amendment were incorporated with different ratios (1:100, 3:100 and 5:100 g/100 g of soil) in a replanted disturbed soil of long-term cucumber monoculture (annual double cropping system in a greenhouse). The results indicated that higher amount of C-amended garlic substrate significantly induced soil suppressiveness (35.9% greater than control (CK) against the foliar disease incidence rate. This inhibitory effect consequently improved the cucumber growth performance and fruit yield to 20% higher than the non-amended soil. Short-term garlic substrate addition modified the soil quality through an increase in soil organic matter (SOM), nutrient availability and enzymatic activities. Illumina MiSeq sequencing analysis revealed that soil bacterial and fungal communities in the garlic amendment were significantly different from the control. Species richness and diversity indices significantly increased under treated soil. The correlation-based heat map analysis suggested that soil OM, nutrient contents and biological activators were the primary drivers reshaping the microbial community structure. Furthermore, garlic substrate inhibited soil-borne pathogen taxa (Fusarium and Nematoda), and their reduced abundances, significantly affecting the crop yield. In addition, the host plant recruited certain plant-beneficial microbes due to substrate addition that could directly contribute to plant-pathogen inhibition and crop biomass production. For example, abundant Acidobacteria, Ascomycota and Glomeromycota taxa were significantly associated with cucumber yield promotion. Firmicutes, Actinobacteria, Bacteroidetes, Basidiomycota and Glomeromycota were the associated microbial taxa that possibly performed as antagonists of Fusarium wilt, with plant pathogen suppression potential in monocropped cucumber-planted soil.


Subject(s)
Cucumis sativus/growth & development , Cucumis sativus/microbiology , Fusarium/pathogenicity , Garlic , Soil Microbiology , Agriculture/methods , Bacteria/genetics , Biodiversity , Chlorophyll/metabolism , Crops, Agricultural/growth & development , Crops, Agricultural/microbiology , Fungi/genetics , Microbiota/genetics , Nitrogen/analysis , Phosphorus/analysis , Plant Diseases/microbiology , Plant Leaves/physiology , Soil/chemistry
9.
Sci Rep ; 10(1): 12704, 2020 07 29.
Article in English | MEDLINE | ID: mdl-32728091

ABSTRACT

The role of root exudates in mediating plant-microbe interactions has been well documented. However, the function of volatile organic compounds (VOCs) emitted by plant roots has only recently begun to attract attention. This newly recognized relevance of belowground VOCs has so far mostly been tested using systems limited to a two-compartment Petri-dish design. Furthermore, many of the plant-microbe interaction studies have only investigated the effects of microbial VOCs on plant growth. Here, we go two steps further. First we investigated the volatile profile of healthy and pathogen (Fusarium oxysporum) infected tomato roots grown in soil. We then used a unique soil-based olfactometer-choice assay to compare the migration pattern of four beneficial bacteria (Bacillus spp.) towards the roots of the tomato plants. We demonstrate that the blend of root-emitted VOCs differs between healthy and diseased plants. Our results show that VOCs are involved in attracting bacteria to plant roots.


Subject(s)
Bacillus/isolation & purification , Fusarium/pathogenicity , Solanum lycopersicum/growth & development , Volatile Organic Compounds/analysis , Bacillus/genetics , Bacillus/growth & development , Chromatography, Gas , DNA, Bacterial/genetics , Solanum lycopersicum/chemistry , Solanum lycopersicum/microbiology , Metabolomics , Plant Extracts/analysis , Plant Roots/chemistry , Plant Roots/growth & development , Plant Roots/microbiology , Soil Microbiology
10.
Microb Pathog ; 146: 104237, 2020 Sep.
Article in English | MEDLINE | ID: mdl-32387391

ABSTRACT

Fusarium verticillioides is often responsible for contamination of poultry feed with the mycotoxin fumonisin. The aim of this study was to determine whether oxidative stress caused by intake of fumonisin-contaminated feed affects broiler performance at an early stage of development, as well as to test whether the addition of açai residue flour to contaminated feed would minimize these negative effects of redox metabolism. Birds were divided into four groups, with four repetitions of five animals each: control (TC) - birds that received basal feed; TCA treatment - basal feed supplemented with 2% açai flour; TF treatment - feed experimentally contaminated with fumonisin (10 ppm); TFA treatment - fumonisin-contaminated feed (10 ppm) and supplemented with açai fluor (2%). The experiment lasted 20 days, that is, the first 20 days of the chicks' lives. At the end of the experiment, the birds were weighed, and blood, intestine and liver samples were collected. The TCA and TFA had greater body weights and weight gain than did TF. Further, TCA and TFA had lower feed conversion than did TF. Açai flour intake (TCA and TFA) stimulated albumin synthesis and reduced serum AST activity. Nitrate/nitrite (NOx) levels were higher in serum of fumonisin-challenged (TF) birds than in groups; NOx levels were also higher in the livers of all test groups (TF, TCA and TFA) than in TC. Serum glutathione S-transferase (GST) activity was lower in fumonisin-consuming groups (TF and TFA); this was different from what occurred in the liver, that is, higher GST activity in TF and lower activity in TFA than in TC. Catalase activity (CAT) was also higher in the fumonisin-challenged groups (TF and TFA) and the groups supplemented with açai flour (TCA) than in TC. Serum reactive species (RS) and TBARS (lipid peroxidation) levels in the liver were lower in birds supplemented with açai flour and exposed to fumonisin. These data suggest that the addition of açai flour in the feed of early chickens improves animal performance and minimizes the effects of hepatic oxidative stress in birds fed fumonisin-contaminated feed.


Subject(s)
Chickens/growth & development , Euterpe , Fumonisins/toxicity , Liver , Plant Extracts/pharmacology , Animal Feed/analysis , Animals , Diet/veterinary , Dietary Supplements , Flour , Fusarium/metabolism , Fusarium/pathogenicity , Lipid Peroxidation/drug effects , Liver/drug effects , Liver/pathology , Mycotoxins/toxicity , Oxidative Stress/drug effects , Poultry Diseases/metabolism , Weight Gain/drug effects
11.
Molecules ; 25(10)2020 May 19.
Article in English | MEDLINE | ID: mdl-32438754

ABSTRACT

In the present study, the enhancement of the production of Origanum majorana essential oils (EOs) was studied by treating plants with ascorbic acid (AA) and tryptophan (Trp) at concentrations of 100, 200 and 300 mg/L and Moringa oleifera leaf extract (MLE) at 2.5%, 5% and 10% as foliar applications during the seasons 2018-2019. The toxicities of the EOs were assayed against four seed-borne fungi (Bipolaris orzyae, Curvularia lunata, Fusarium verticilliodies and F. graminearum) isolated from rice grains (Oryzae sativa). Vegetative growth parameters and EO production were enhanced by the application of AA, Trp and MLE in both seasons. Analysis of the EOs by Gas chromatography-mass spectrometry (GC-MS) showed that the main chemical constituents were terpineol (cis-ß-(1-terpinenol)), terpinen-4-ol, 4-thujanol (sabinene hydrate), α-terpineol, cymene and sabinene. The highest fungal mycelial growth inhibition (FMGI) percentages against F. verticilliodies were 94.57% and 92.63% as MLE at 5% and 10%, respectively, was applied to plants and 85.60% and 82.19% against F. graminearum as Trp was applied to plants at 300 and 200 mg/L, respectively. EOs from the treated plant with MLE (10%) observed the highest FMGI (84.46%) against B. oryzae, and EOs from plants treated with AA as foliar application at 300 and 200 mg/L showed the highest FMGI values of 81.11% and 81.85%, respectively, against the growth of C. lunata. Application of EOs extracted from plants treated with Trp, AA and MLE at 300 mg/L, 300 mg/L and 10%, respectively, or untreated plants to rice seeds inhibited or decreased the fungal infection percentage from 82.5% (naturally infected grains) to 1.75%, 10.5%, 17.5% and 18.5%, respectively. In conclusion, the extracted EOs affected by the foliar application of O. majorana plants with Trp, AA, and MLE could be useful as a biofungicide against rice seed-borne fungi.


Subject(s)
Mycoses/prevention & control , Oils, Volatile/pharmacology , Origanum/chemistry , Oryza/drug effects , Antifungal Agents/chemistry , Antifungal Agents/pharmacology , Fungi/drug effects , Fungi/pathogenicity , Fusarium/drug effects , Fusarium/pathogenicity , Gas Chromatography-Mass Spectrometry , Microbial Sensitivity Tests , Mycoses/microbiology , Oils, Volatile/chemistry , Oryza/growth & development , Oryza/microbiology , Plant Diseases/microbiology , Plant Diseases/prevention & control , Plant Oils/chemistry , Plant Oils/pharmacology , Seeds/microbiology
12.
Zhongguo Zhong Yao Za Zhi ; 45(6): 1323-1328, 2020 Mar.
Article in Chinese | MEDLINE | ID: mdl-32281343

ABSTRACT

Root rot disease is vital disease of Coptis chinensis, it has bursted in most producing area in recent years, and has caused severe damage. To identify the pathogenic fungi, Fusarium spp. fungi were isolated from rot root, of which the pathogenic fungi were screened with inoculation on C. chinensis root and plant, and identified with molecular and morphological method. The 20 Fusarium spp. fungi were obtained, of which 5 displayed high pathogenicity. It was deduced that F. oxysporum, F. solani and F. tricinctum were the pathogen, possibly pioneer pathogen of C. chinensis root rot disease. Among which F. oxysporum was dominant and deserved to pay more attention. High temperature and high humidity can increase pathogenicity of Fusarium spp. So the global climate warming may lead to temperature rising of C. chinensis producing area and favor the pathogen fungi, which may be one of the main factors leading to bursting of C. chinensis root rot disease. To control the root rot, beside developing and using pesticide, producing base should be moved to a high altitude area.


Subject(s)
Coptis/microbiology , Fusarium/classification , Plant Diseases/microbiology , Plant Roots/microbiology , Fusarium/isolation & purification , Fusarium/pathogenicity
13.
Mycotoxin Res ; 36(2): 213-223, 2020 May.
Article in English | MEDLINE | ID: mdl-31960350

ABSTRACT

A 10-week feeding experiment was carried out examining the effects of deoxynivalenol (DON)-contaminated maize treated with different sodium sulphite (SoS) concentrations on performance, health and DON-plasma concentrations in fattening pigs. Two maize batches were used: background-contaminated (CON, 0.73 mg/kg maize) and Fusarium-toxin contaminated (DON, 44.45 mg/kg maize) maize. Both were wet preserved at 20% moisture content, with one of three (0.0, 2.5, 5.0 g/kg maize) sodium sulphite concentrations and propionic acid (15%). Each maize batch was then mixed into a barley-wheat-based diet at a proportion of 10%, resulting in the following 6 feeding groups: CON- (CON + 0.0 g SoS/kg maize), CON2.5 (CON + 2.5 g SoS/kg maize), CON5.0 (CON + 5.0 g SoS/kg maize), DON- (DON + 0.0 g SoS/kg maize), DON2.5 (DON + 2.5 g SoS/kg maize) and DON5.0 (DON + 5.0 g SoS/kg maize). Dietary DON concentration was reduced by ~ 36% in group DON2.5 and ~ 63% in group DON5.0. There was no impact on ZEN concentration in the diets due to SoS treatment. Pigs receiving diet DON- showed markedly lower feed intake (FI) compared to those fed the control diets. With SoS-treatment of maize, FI of pigs fed the DON diet (DON5.0: 3.35 kg/d) were comparable to that control (CON-: 3.30 kg/day), and these effects were also reflected in live weight gain. There were some effects of SoS, DON or their interaction on serum urea, cholesterol and albumin, but always within the physiological range and thus likely negligible. SoS wet preservation of Fusarium-toxin contaminated maize successfully detoxified DON to its innocuous sulfonates, thus restoring impaired performance in fatteners.


Subject(s)
Animal Feed/analysis , Food Contamination/prevention & control , Sulfites/pharmacology , Trichothecenes/analysis , Weight Gain/drug effects , Albumins/analysis , Animal Husbandry , Animals , Cholesterol/blood , Fusarium/pathogenicity , Swine , Urea/blood , Zea mays/chemistry
14.
Zhongguo Zhong Yao Za Zhi ; 44(18): 3942-3947, 2019 Sep.
Article in Chinese | MEDLINE | ID: mdl-31872728

ABSTRACT

The Astragalus membranaceus root rot disease,a soil-borne disease,has become increasingly severe in Shanxi province.This study was aimed at getting antagonistic Bacillus with excellent bio-control effects,and determining its effects on bacterial communities in root zone soil. With Fusarium solani and F. acuminatum as the target,antagonistic Bacillus was selected through such tests as living body dual culture,antifungal effect of bacteria-free filtrate,mycelia growth inhibition in vitro and control effect in detached roots,and identified with morphology,physio-biochemical characteristics and 16 S r DNA sequence analysis. The results showed that the Bacillus strain SXKF16-1 had obvious antifungal effect. The diameter of inhibition zone of its bacteria-free filtrate to F. solani and F. acuminatum was( 25. 90±1. 18) mm and( 25. 86±1. 85) mm respectively,and showed a lasting inhibition effect to mycelia growth. The disease index of the protective treatment and that of the cure treatment in detached roots test to F. solani and F. acuminatum were( 37. 50±8. 58),( 41. 67±4. 90) and( 25. 00±8. 33),( 38. 89±9. 62) respectively,both being significantly different( P<0. 05) from that of the control. The strain SXKF16-1 was identified as Bacillus atrophaeus. The B. atrophaeus SXKF16-1 showed significantly inhibition effect to pathogen causing root rot and could increase the bacterial diversity in root zone soil. It has potential to be developed as a special biocontrol agent.


Subject(s)
Astragalus Plant/microbiology , Bacillus/physiology , Biological Control Agents , Fusarium/pathogenicity , Soil Microbiology , Plant Diseases/microbiology , Plant Diseases/prevention & control , Plant Roots/microbiology
15.
Theor Appl Genet ; 132(12): 3245-3264, 2019 Dec.
Article in English | MEDLINE | ID: mdl-31520085

ABSTRACT

KEY MESSAGE: A unique, global onion diversity set was assembled, genotyped and phenotyped for beneficial traits. Accessions with strong basal rot resistance and increased seedling vigour were identified along with associated markers. Conserving biodiversity is critical for safeguarding future crop production. Onion (Allium cepa L.) is a globally important crop with a very large (16 Gb per 1C) genome which has not been sequenced. While onions are self-fertile, they suffer from severe inbreeding depression and as such are highly heterozygous as a result of out-crossing. Bulb formation is driven by daylength, and accessions are adapted to the local photoperiod. Onion seed is often directly sown in the field, and hence seedling establishment is a critical trait for production. Furthermore, onion yield losses regularly occur worldwide due to Fusarium basal rot caused by Fusarium oxysporum f. sp. cepae. A globally relevant onion diversity set, consisting of 10 half-sib families for each of 95 accessions, was assembled and genotyping carried out using 892 SNP markers. A moderate level of heterozygosity (30-35%) was observed, reflecting the outbreeding nature of the crop. Using inferred phylogenies, population structure and principal component analyses, most accessions grouped according to local daylength. A high level of intra-accession diversity was observed, but this was less than inter-accession diversity. Accessions with strong basal rot resistance and increased seedling vigour were identified along with associated markers, confirming the utility of the diversity set for discovering beneficial traits. The onion diversity set and associated trait data therefore provide a valuable resource for future germplasm selection and onion breeding.


Subject(s)
Disease Resistance/genetics , Fusarium/pathogenicity , Onions/genetics , Onions/microbiology , Plant Diseases/genetics , Genotype , Plant Breeding , Plant Diseases/microbiology , Polymorphism, Single Nucleotide , Seedlings
16.
PLoS One ; 14(9): e0222727, 2019.
Article in English | MEDLINE | ID: mdl-31545825

ABSTRACT

Fusarium oxysporum f. sp. cubense Tropical Race 4 (Foc TR4) is threatening banana production worldwide. Despite quarantine efforts, the pathogen continues to spread; thus, early diagnosis plays an essential role for the proper execution of contingency plans. Here, we assess the accuracy of four PCR-based molecular methods described in the literature for the identification and detection of race 4 strains, including Subtropical (Foc STR4) and Tropical Race 4 causing Fusarium wilt of banana. We screened a total of 302 isolates using these four markers, and performed phylogenetic analyses, Vegetative Compatibility Group (VCG) testing, sequence comparison, and pathogenicity tests for selected isolates. Our results show that three out of the four markers tested are not reliable for identification of Foc STR4 and TR4, as DNA from isolates from Ecuador, pathogenic and nonpathogenic to banana, obtained from different banana cultivars, displayed cross-reaction with these methods; that is, false positives can occur during the diagnostic process for race 4. Phylogenetic analyses, VCG testing, sequence comparison, and pathogenicity tests suggest the presence of non-target F. oxysporum isolates that share genomic regions with pathogenic strains but lack true pathogenicity to banana. The findings of this work are of foremost importance for international regulatory agencies performing surveillance tests in pathogen-free areas using the current diagnostic methods. We suggest the use of a genetic locus possibly related to virulence, previously identified by T-DNA, and amplified with primers W2987F/ W2987R, for diagnosis of Foc TR4 as the most reliable alternative. We urge the adoption of a more holistic view in the study of F. oxysporum as a plant pathogen that considers the biology and diversity of the species for the development of better diagnostic tools.


Subject(s)
DNA Primers/genetics , DNA, Fungal/genetics , Fusarium/genetics , Random Amplified Polymorphic DNA Technique/methods , Sequence Analysis, DNA/methods , DNA, Fungal/analysis , Fusarium/classification , Fusarium/pathogenicity , Musa/microbiology , Phylogeny , Plant Diseases/microbiology , Species Specificity , Virulence/genetics
17.
Genes (Basel) ; 10(9)2019 08 28.
Article in English | MEDLINE | ID: mdl-31466418

ABSTRACT

Fusarium oxysporum is the most important pathogen of potatoes which causes post-harvest destructive losses and deteriorates the market value of potato tubers worldwide. Here, F. oxysporum was used as a host pathogen model system and it was revealed that autophagy plays a vital role as a regulator in the morphology, cellular growth, development, as well as the pathogenicity of F. oxysporum. Previous studies based upon identification of the gene responsible for encoding the autophagy pathway components from F. oxysporum have shown putative orthologs of 16 core autophagy related-ATG genes of yeast in the genome database which were autophagy-related and comprised of ubiquitin-like protein atg3. This study elucidates the molecular mechanism of the autophagy-related gene Foatg3 in F. oxysporum. A deletion (∆) mutants of F. oxysporum (Foatg3∆) was generated to evaluate nuclear dynamics. As compared to wild type and Foatg3 overexpression (OE) strains, Foatg3∆ strains failed to show positive MDC (monodansylcadaverine) staining which revealed that Foatg3 is compulsory for autophagy in F. oxysporum. A significant reduction in conidiation and hyphal growth was shown by the Foatg3∆ strains resulting in loss of virulence on potato tubers. The hyphae of Foatg3∆ mutants contained two or more nuclei within one hyphal compartment while wild type hyphae were composed of uninucleate hyphal compartments. Our findings reveal that the vital significance of Foatg3 as a key target in controlling the dry rot disease in root crops and potato tubers at the postharvest stage has immense potential of disease control and yield enhancement.


Subject(s)
Autophagy-Related Proteins/genetics , Fungal Proteins/genetics , Fusarium/genetics , Autophagy-Related Proteins/metabolism , Fungal Proteins/metabolism , Fusarium/growth & development , Fusarium/pathogenicity , Gene Deletion , Hyphae/genetics , Hyphae/growth & development , Solanum tuberosum/microbiology , Virulence/genetics
18.
Zhongguo Zhong Yao Za Zhi ; 44(10): 2015-2019, 2019 May.
Article in Chinese | MEDLINE | ID: mdl-31355554

ABSTRACT

This study was aimed to clarify the toxicity indoor and inhibition effect of biocontrol strain NJ13 and its mixture with chemical fungicides against Fusarium solani causing ginseng root rot. The method of mycelial growth rate and Sun Yunpei method were used to determine the indoor toxicity and co-toxicity coefficient of strain NJ13 and their mixture with chemical pesticides against F. solani. The dual culture assay method,mixed culture method and microscopic observation were used to determine the sporulation and germination of spores and mycelial growth and morphological change of hyphae of F. solani treated by strain NJ13. The results of toxicity indoor showed that strain NJ13 had the best inhibitory effect on pathogen,and its EC_(50) value was 0. 071 mg·L~(-1). It was all synergistic for antifungal effect that strain NJ13 was mixed with propiconazole and difenoconazole respectively with a range from 1 ∶4 to 4 ∶1( volume ratio). Both of optimal ratios were 1 ∶1,and the co-toxicity coefficients were 848. 70 and 859. 73,respectively. The strain NJ13 could inhibit the sporulation,germination and mycelial growth of F. solani. The biocontrol strain NJ13 had an inhibition effect on F. solani,and the optimal antifungal ratio of strain NJ13 mixed with propiconazole and difenoconazole was obtained.


Subject(s)
Bacteria , Biological Control Agents , Fungicides, Industrial , Fusarium/pathogenicity , Panax/microbiology , Plant Roots/microbiology
19.
Plant Physiol Biochem ; 141: 83-94, 2019 Aug.
Article in English | MEDLINE | ID: mdl-31136934

ABSTRACT

Fusarium wilt caused by Fusarium oxysporum f. sp. cubense (Foc), is one of the most devastating diseases in bananas resulting in significant loss of Cavendish bananas production worldwide. Here we show the agronomic traits and the resistance of 'Guijiao 9' in the field trials from 2012 to 2017. And then we dissect and compare the transcriptome response from these two cultivars (cv. 'Guijiao 9' and cv. Williams) in an attempt to understand the molecular basis that contribute to the enhanced Foc tropical race 4 (Foc-TR4) resistance. 'Guijiao 9' is a Cavendish cultivar with strong resistance to Foc-TR4, which was reflected in a lower disease severity and incidence in glasshouse and field trails, when compared to the susceptible cultivar Williams. Gene expression profiles of 'Guijiao 9' and Williams were captured by performing RNA-Seq analysis on 16 biological samples collected over a six day period post inoculation with Foc-TR4. Transcriptional reprogramming in response to Foc-TR4 was detected in both genotypes but the response was more drastic in 'Guijiao 9' than in Williams. Specific genes involved in plant-pathogen interaction and defense signaling including MAPK, calcium, salicylic acid, jasmonic acid and ethylene pathways were analyzed and compared between 'Guijiao 9' and Williams. Genes associated with defense-related metabolites synthesis such as NB-LRR proteins, calmodulin-binding protein and phenylpropanoids biosynthesis genes were significantly up-regulated in 'Guijiao 9' resistant to Foc-TR4 infection. Taken together, this study highlights the important roles of plant hormone regulation and defense gene activation in mediating resistance in 'Guijiao 9'.


Subject(s)
Disease Resistance/genetics , Fusarium/pathogenicity , Gene Expression Regulation, Plant , Musa/genetics , Plant Diseases/genetics , DNA, Complementary/genetics , Databases, Genetic , Gene Expression Profiling , Gene Library , Genes, Plant , Musa/microbiology , Plant Diseases/microbiology , Plant Growth Regulators/metabolism , Plant Roots/genetics , Salicylic Acid/metabolism , Secondary Metabolism , Species Specificity , Transcription, Genetic , Transcriptome , Up-Regulation
20.
Plant Dis ; 102(11): 2296-2307, 2018 11.
Article in English | MEDLINE | ID: mdl-30169137

ABSTRACT

Fungal rots in sugar beet roots held in long-term storage can lead to considerable sucrose loss but the incidence and distribution of fungal rots inside sugar beet piles and pathogenicity for some species is poorly understood. Thus, Idaho sugar beet held in five outdoor and two indoor piles in 2014 and 2015 were investigated. The root surface area covered by fungal growth and discolored and healthy tissue were assessed in nine 1-m2 areas per pile using a stratified random sampling design. Pathogenicity was evaluated indoors via plug inoculation in 2015 and 2016. Botrytis cinerea covered more root surface area inside indoor piles (6 to 22%) than outdoor piles (0 to 3%) (P < 0.0001). No trends were evident for the Athelia-like sp. (0 to 15%) and Penicillium-type spp. (0 to 8%). Penicillium-type isolates comprised the following species: 60% Penicillium expansum, 34% P. cellarum, 3% P. polonicum, and 3% Talaromyces rugulosus. Trace levels (<1% of root surface) of other fungi, including Cladosporium and Fusarium spp., were evident on roots and in isolations. Based on sample location in a pile, there were no trends or differences; however, two outdoor piles (OVP1 and OVP2) had more healthy tissue (90 to 96%) than other piles (28 to 80%) (P < 0.0001). When the pathogenicity tests were analyzed by species, all were significantly different from each other (P < 0.0001), except for P. polonicum and P. expansum: B. cinerea (61 mm of rot), P. polonicum (36 mm), P. expansum (35 mm), P. cellarum (28 mm), Athelia-like sp. (21 mm), T. rugulosus (0 mm; not different from check), and noninoculated check (0 mm). The OVP1 and OVP2 piles had negligible fungal growth on roots after more than 120 days of storage under ambient conditions, which indicates that acceptable storage can be achieved over this time period through covering piles with tarps and cooling with ventilation pipe.


Subject(s)
Beta vulgaris/microbiology , Fungi/isolation & purification , Plant Diseases/microbiology , Botrytis/genetics , Botrytis/isolation & purification , Botrytis/pathogenicity , Cladosporium/genetics , Cladosporium/isolation & purification , Cladosporium/pathogenicity , Food Storage , Fungi/genetics , Fungi/pathogenicity , Fusarium/genetics , Fusarium/isolation & purification , Fusarium/pathogenicity , Idaho , Penicillium/genetics , Penicillium/isolation & purification , Penicillium/pathogenicity , Phylogeny , Plant Diseases/statistics & numerical data , Plant Roots/microbiology
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