Your search keyword '"EPICHLOE"' showing total 36 results

1. A Countermeasure Strategy against Peramine Developed by Chilesia rudis in the Endophyte–Ryegrass–Herbivore Model.

Author

Chacón-Fuentes, Manuel, Martínez-Cisterna, Daniel, Lizama, Marcelo, Asencio-Cancino, Valeria, Matamala, Ignacio, and Bardehle, Leonardo

Subjects

*INDIGENOUS peoples of South America, *INSECT pests, *ENDOPHYTIC fungi, *PLANT defenses, *NOCTUIDAE

Abstract

Exploitation of the symbiotic relationship between endophytic fungi and ryegrass is a crucial technique for reducing the incidence of insect pests. This is primarily due to the production of alkaloids, such as peramine, by the fungi. This alkaloid has been reported as both a deterrent and toxic to a variety of insects. However, insects have developed various strategies to counteract plant defenses. One of the most studied methods is their ability to sequester toxic compounds from plants. In this study, we examined the feeding preferences and adaptation to peramine in Chilesia rudis, a native Chilean larva. Using a no-choice assay, we assessed larval feeding preferences and mass gain on seven experimental lines and two commercial cultivars of endophyte-infected and non-infected ryegrass. Pupal development time and adult performance were evaluated post-assay. Additionally, we measured peramine content in larval carcasses, feces, and ryegrass leaves. Jumbo was the most preferred cultivar with 32 mm2 of leaf tissues consumed. The longest pupal development time was observed in L161 and ALTO AR1, both at 28 days. Wing length in adults was greatest in the Jumbo and L163 cultivars, measuring 1.25 cm and 1.32 cm, respectively. Peramine concentrations were detected in the bodies of C. rudis. In conclusion, this larva can adapt to endophyte-infected ryegrass and develop counter-adaptation mechanisms to mitigate the effects of peramine. [ABSTRACT FROM AUTHOR]

Published

2024

2. Discovery and Characterization of Epichloë Fungal Endophytes from Elymus spp. in Northwest China.

Author

Du, Mingxiang, Wang, Tian, Li, Chunjie, and Chen, Taixiang

Subjects

ENDOPHYTIC fungi, SUSTAINABLE agriculture, MOLECULAR phylogeny, DISEASE resistance of plants, GENETIC variation

Abstract

Epichloë fungal endophytes hold promise in sustainable agriculture by fortifying cool-season grasses such as Elymus spp. against various stresses. Elymus spp. are widely distributed in Northwest China with a high incidence of endophyte infections. In this study, we identified 20 Epichloë endophytic fungal strains carried by five Elymus spp. from five areas of Northwest China and systematically characterized their morphology, molecular phylogeny, mating type, and alkaloid diversity for the first time. The morphological characterization underscores strain diversity, with variable colony textures and growth rates. A phylogenetic analysis confirms all strains are E. bromicola, emphasizing their taxonomic status. Alkaloid-encoding gene profiling delineates distinct alkaloid synthesis capabilities among the strains, which are crucial for host adaptability and resistance. A mating-type analysis reveals uniformity (mtAC) across the Epichloë strains, simplifying breeding strategies. Notably, the Epichloë strains exhibit diverse alkaloid synthesis gene profiles, impacting host interactions. This research emphasizes the ecological significance of Epichloë endophytes in Elymus spp. ecosystems, offering insights into their genetic diversity and potential applications in sustainable agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

3. Alien Chromatin from Hordeeae Grasses Enhances the Compatibility of Epichloë Endophyte Symbiosis with the Hexaploid Wheat Triticum aestivum.

Author

Simpson, Wayne R., Tsujimoto, Hisashi, Hume, David E., and Johnson, Richard D.

Subjects

*CHROMATIN, *RYE, *SYMBIOSIS, *GRASSES, *PHENOTYPES

Abstract

The inoculation of Epichloë endophytes into modern cereals, resulting in systemic infection, depends on the genetics of both the host and the endophyte strain deployed. Until very recently, the only modern cereal to have been infected with Epichloë, in which normal phenotype seed-transmitted associations were achieved, is rye (Secale cereale). Whilst minor in-roads have been achieved in infecting hexaploid wheat (Triticum aestivum), the phenotypes of these associations have all been extremely poor, including host death and stunting. To identify host genetic factors that may impact the compatibility of Epichloë infection in wheat, wheat–alien chromosome addition/substitution lines were inoculated with Epichloë, and the phenotypes of infected plants were assessed. Symbioses were identified whereby infected wheat plants were phenotypically like uninfected controls. These plants completed their full lifecycle, including the vertical transmission of Epichloë into the next generation of grain, and represent the first ever compatible wheat–Epichloë associations to be created. [ABSTRACT FROM AUTHOR]

Published

2024

4. Grass–Endophyte Interactions and Their Associated Alkaloids as a Potential Management Strategy for Plant Parasitic Nematodes.

Author

Mwangi, Nyambura G., Stevens, Mark, Wright, Alistair J. D., Edwards, Simon G., Hare, Martin C., and Back, Matthew A.

Subjects

*NEMATOCIDES, *ERGOT alkaloids, *ENDOPHYTES, *PLANT nematodes, *ENDOPHYTIC fungi, *HOST plants

Abstract

Claviceptaceous endophytic fungi in the genus Epichloë mostly form a symbiotic relationship with cool-season grasses. Epichloë spp. are capable of producing bioactive alkaloids such as peramines, lolines, ergot alkaloids, and indole-diterpenes, which protect the host plant from herbivory by animals, insects, and nematodes. The host also benefits from enhanced tolerance to abiotic stresses, such as salt, drought, waterlogging, cold, heavy metals, and low nitrogen stress. The bioactive alkaloids produced can have both direct and indirect effects towards plant parasitic nematodes. Direct interaction with nematodes' motile stages can cause paralysis (nematostatic effect) or death (nematicidal effect). Indirectly, the metabolites may induce host immunity which inhibits feeding and subsequent nematode development. This review highlights the different mechanisms through which this interaction and the metabolites produced have been explored in the suppression of plant parasitic nematodes and also how the specific interactions between different grass genotypes and endophyte strains result in variable suppression of different nematode species. An understanding of the different grass–endophyte interactions and their successes and failures in suppressing various nematode species is essential to enable the proper selection of grass–endophyte combinations to identify the alkaloids produced, concentrations required, and determine which nematodes are sensitive to which specific alkaloids. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Impact of Aboveground Epichloë Endophytic Fungi on the Rhizosphere Microbial Functions of the Host Melica transsilvanica.

Author

Wang, Chuanzhe, Shi, Chong, Huang, Wei, Zhang, Mengmeng, and He, Jiakun

Subjects

ENDOPHYTIC fungi, RHIZOSPHERE, RHIZOSPHERE microbiology, METAGENOMICS, FUNCTIONAL groups, CARBON fixation, CARBON cycle

Abstract

In nature, the symbiotic relationship between plants and microorganisms is crucial for ecosystem balance and plant growth. This study investigates the impact of Epichloë endophytic fungi, which are exclusively present aboveground, on the rhizosphere microbial functions of the host Melica transsilvanica. Using metagenomic methods, we analyzed the differences in microbial functional groups and functional genes in the rhizosphere soil between symbiotic (EI) and non-symbiotic (EF) plants. The results reveal that the presence of Epichloë altered the community structure of carbon and nitrogen cycling-related microbial populations in the host's rhizosphere, significantly increasing the abundance of the genes (porA, porG, IDH1) involved in the rTCA cycle of the carbon fixation pathway, as well as the abundance of nxrAB genes related to nitrification in the nitrogen-cycling pathway. Furthermore, the presence of Epichloë reduces the enrichment of virulence factors in the host rhizosphere microbiome, while significantly increasing the accumulation of resistance genes against heavy metals such as Zn, Sb, and Pb. This study provides new insights into the interactions among endophytic fungi, host plants, and rhizosphere microorganisms, and offers potential applications for utilizing endophytic fungi resources to improve plant growth and soil health. [ABSTRACT FROM AUTHOR]

Published

2024

6. Endophytic Fungus Negatively Affects Salt Tolerance of Tall Fescue.

Author

Kalske, Aino, Saikkonen, Kari, and Helander, Marjo

Subjects

*ENDOPHYTIC fungi, *TALL fescue, *PLANT competition, *COMPETITION (Biology), *GREENHOUSE gardening, *SALT, *ISLANDS

Abstract

Vertically transmitted endophytic fungi can mitigate the negative effects of salinity encountered by their host grass and alter the competitive interactions between plant individuals. To experimentally study the interactive effects of the fungal endophyte Epichloë coenophiala on salt tolerance and intraspecific competition of its host plant, tall fescue Festuca arundinacea, we subjected 15 maternal lines of each Epichloë associated (E+) and Epichloë free (E−) tall fescue to salt treatment and competition in the greenhouse and common garden. Then, to explore variation in endophyte incidence in natural populations of tall fescue, we surveyed 23 natural populations occurring on or near the Baltic Sea coast in Aland islands in southwestern Finland for endophyte incidence, distance to shore, and competitive environment. Under salinity in the greenhouse, E− plants grew larger than E+ plants, but there was no size difference in the control treatment. E− plants grew taller and were more likely to flower than E+ plants when grown in benign conditions in the common garden but not with salinity or competition. The frequency of Epichloë incidence was high (90%) in natural populations, and it decreased towards the shore and risk of salt exposure. These results demonstrate a negative effect of Epichloë endophyte on the salt tolerance of its host. The high incidence of Epichloë in natural populations of tall fescue in the northern part of the species distribution range is likely due to factors other than salinity. [ABSTRACT FROM AUTHOR]

Published

2023

7. Epichloë Increases Root Fungal Endophyte Richness and Alters Root Fungal Endophyte Composition in a Changing World.

Author

Garces, Kylea R., Sage, Haley E., Christian, Natalie, and Emery, Sarah M.

Subjects

*VESICULAR-arbuscular mycorrhizas, *ENDOPHYTIC fungi, *ENDOPHYTES, *COMMUNITIES, *SAND dunes, *CULTIVARS, *SPECIES diversity, *ROOT-knot nematodes

Abstract

Plants harbor a variety of fungal symbionts both above- and belowground, yet little is known about how these fungi interact within hosts, especially in a world where resource availability is changing due to human activities. Systemic vertically transmitted endophytes such as Epichloë spp. may have particularly strong effects on the diversity and composition of later-colonizing symbionts such as root fungal endophytes, especially in primary successional systems. We made use of a long-term field experiment in Great Lakes sand dunes to test whether Epichloë colonization of the dune-building grass, Ammophila breviligulata, could alter fungal root endophyte species richness or community composition in host plants. We also tested whether nitrogen addition intensified the effects of Epichlöe on the root endophyte community. We found that Epichloë increased richness of root endophytes in Ammophila by 17% overall, but only shifted community composition of root endophytes under nitrogen-enriched conditions. These results indicate that Epichlöe acts as a key species within Ammophila, changing richness and composition of the root mycobiome and integrating above- and belowground mycobiome interactions. Further, effects of Epichloë on root endophyte communities were enhanced by N addition, indicating that this fungal species may become even more important in future environments. [ABSTRACT FROM AUTHOR]

Published

2022

8. Identification of Three Epichloë Endophytes from Hordeum bogdanii Wilensky in China.

Author

Wang, Tian, Chen, Taixiang, White, James F., and Li, Chunjie

Subjects

*ENDOPHYTES, *ENDOPHYTIC fungi, *POISONS, *FOLIAGE plants, *HORDEUM, LEAF growth

Abstract

Cool season grasses often form reciprocal symbiotic relationships with endophytic fungal species in genus Epichloë. In this study, we characterized three fungal endophytes isolated from the grass Hordeum bogdanii native to northwest China. Based on morphological characteristics and phylogenetic analyses of tefA, tubB, and actG sequences, we identified them as Epichloë sp. HboTG-2 (H. bogdanii Taxonomic Group 2: E. bromicola × E. typhina). Alkaloid synthesis related genes analysis showed that Epichloë sp. HboTG-2 may have the ability only to produce peramine which is toxic to insects but not to animals. In the process of this study, we did not observe sexual structures or epiphyllous growth on leaves of infected plants. [ABSTRACT FROM AUTHOR]

Published

2022

9. Telomere-to-Telomere Genome Sequences across a Single Genus Reveal Highly Variable Chromosome Rearrangement Rates but Absolute Stasis of Chromosome Number.

Author

Quenu, Mathieu, Treindl, Artemis D., Lee, Kate, Takemoto, Daigo, Thünen, Torsten, Ashrafi, Samad, Winter, David, Ganley, Austen R. D., Leuchtmann, Adrian, Young, Carolyn A., and Cox, Murray P.

Subjects

*CHROMOSOMAL rearrangement, *CHROMOSOMES, *GENE rearrangement, *FILAMENTOUS fungi, *PLOIDY, *FUNGAL genetics

Abstract

Genome rearrangements in filamentous fungi are prevalent but little is known about the modalities of their evolution, in part because few complete genomes are available within a single genus. To address this, we have generated and compared 15 complete telomere-to-telomere genomes across the phylogeny of a single genus of filamentous fungi, Epichloë. We find that the striking distinction between gene-rich and repeat-rich regions previously reported for isolated species is ubiquitous across the Epichloë genus. We built a species phylogeny from single-copy gene orthologs to provide a comparative framing to study chromosome composition and structural change through evolutionary time. All Epichloë genomes have exactly seven nuclear chromosomes, but despite this conserved ploidy, analyses reveal low synteny and substantial rearrangement of gene content across the genus. These rearrangements are highly lineage-dependent, with most occurring over short evolutionary distances, with long periods of structural stasis. Quantification of chromosomal rearrangements shows they are uncorrelated with numbers of substitutions and evolutionary distances, suggesting that different modes of evolution are acting to create nucleotide and chromosome-scale changes. [ABSTRACT FROM AUTHOR]

Published

2022

10. Asexual Epichloë Fungi--Obligate Mutualists.

Author

Caradus, John R., Card, Stuart D., Hewitt, Katrin G., Hume, David E., and Johnson, Linda J.

Subjects

*EPICHLOE, *VERTEBRATES, *FUNGI, *HERBIVORES, *INVERTEBRATES, *PHYTOPATHOGENIC bacteria

Abstract

Definition: Asexual Epichloë are obligate fungal mutualists that form symbiosis with many temperate grass species, providing several advantages to the host. These advantages include protection against vertebrate and invertebrate herbivores (i.e., grazing livestock and invertebrate pests, respectively), improved resistance to phytopathogens, increased adaptation to drought stress, nutrient deficiency, and heavy metal-containing soils. Selected Epichloë strains are utilised in agriculture mainly for their pest resistance traits, which are moderated via the production of Epichloë-derived secondary metabolites. For pastoral agriculture, the use of these endophyte infected grasses requires the balancing of protection against insect pests with reduced impacts on animal health and welfare. [ABSTRACT FROM AUTHOR]

Published

2021

11. Influence of Interactions between Nitrogen, Phosphorus Supply and Epichloë bromicola on Growth of Wild Barley (Hordeum brevisubulatum).

Author

Mingxiao Lang, Jingle Zhou, Taixiang Chen, Zhenjiang Chen, Malik, Kamran, and Chunjie Li

Subjects

*HORDEUM, *ENDOPHYTES, *SYMBIOSIS, *PLANT growth regulation, *EPICHLOE, *STOICHIOMETRY

Abstract

Epichloë endophytes are biotrophic fungi that establish mutualistic symbiotic relationship with grasses and affect performance of the host under different environments. Wild barley (Hordeum brevisubulatum) is an important forage grass and often infected by Epichloë bromicola, thus showing tolerances to stresses. Since the plant growth correlates with both microbial infection and nutrient stoichiometry, this study was performed to investigate whether the function of Epichloë bromicola endophyte to improve host growth depend upon the nitrogen (N), phosphorus (P) fertilization. Epichloë-infected (E+) and Epichloë-free (E-) wild barley plants were subjected to nine types of mixed N (0.2 mM, 3 mM, 15 mM) and P (0.01 mM, 0.1 mM, 1.5 mM) levels treatments for 90 d to collect plant samples and determine multiple related indexes. We found that E. bromicola and N, P additions positively affected seed germination. Further, E. bromicola significantly enhanced chlorophyll content and root metabolic activity under N-deficiency, and meanwhile, might alter allocation of photosynthate under different conditions. The contents of N, P and stoichiometry of C:N:P of E+ plants were significantly higher than that of E- under nutrient deficiency, but contrary results were observed under adequate nutrients. Therefore, we propose that the growth-promoting ability of E. bromicola is closely correlated with N and P additional levels. Under low N, P additions, positive roles of endophyte are significant as opposed to negative roles under high N, P additions. [ABSTRACT FROM AUTHOR]

Published

2021

12. Epichloë Fungal Endophytes--From a Biological Curiosity in Wild Grasses to an Essential Component of Resilient High Performing Ryegrass and Fescue Pastures.

Author

Caradus, John R. and Johnson, Linda J.

Subjects

*ENDOPHYTES, *RYEGRASSES, *FESCUE, *MUTUALISM, *SEED-borne phytopathogens

Abstract

The relationship between Epichloë endophytes found in a wide range of temperate grasses spans the continuum from antagonistic to mutualistic. The diversity of asexual mutualistic types can be characterised by the types of alkaloids they produce in planta. Some of these are responsible for detrimental health and welfare issues of ruminants when consumed, while others protect the host plant from insect pests and pathogens. In many temperate regions they are an essential component of high producing resilient tall fescue and ryegrass swards. This obligate mutualism between fungus and host is a seed-borne technology that has resulted in several commercial products being used with high uptake rates by end-user farmers, particularly in New Zealand and to a lesser extent Australia and USA. However, this has not happened by chance. It has been reliant on multi-disciplinary research teams undertaking excellent science to understand the taxonomic relationships of these endophytes, their life cycle, symbiosis regulation at both the cellular and molecular level, and the impact of secondary metabolites, including an understanding of their mammalian toxicity and bioactivity against insects and pathogens. Additionally, agronomic trials and seed biology studies of these microbes have all contributed to the delivery of robust and efficacious products. The supply chain from science, through seed companies and retailers to the end-user farmer needs to be well resourced providing convincing information on the efficacy and ensuring effective quality control to result in a strong uptake of these Epichloë endophyte technologies in pastoral agriculture. [ABSTRACT FROM AUTHOR]

Published

2020

13. Alkaloid Concentrations of Lolium perenne Infected with Epichloë festucae var. lolii with Different Detection Methods—A Re-Evaluation of Intoxication Risk in Germany?

Author

Vikuk, Veronika, Fuchs, Benjamin, Krischke, Markus, Mueller, Martin J., Rueb, Selina, and Krauss, Jochen

Subjects

*ALKALOIDS, *LOLIUM perenne, *EPICHLOE, *MYCOTOXINS

Abstract

Mycotoxins in agriculturally used plants can cause intoxication in animals and can lead to severe financial losses for farmers. The endophytic fungus Epichloë festucae var. lolii living symbiotically within the cool season grass species Lolium perenne can produce vertebrate and invertebrate toxic alkaloids. Hence, an exact quantitation of alkaloid concentrations is essential to determine intoxication risk for animals. Many studies use different methods to detect alkaloid concentrations, which complicates the comparability. In this study, we showed that alkaloid concentrations of individual plants exceeded toxicity thresholds on real world grasslands in Germany, but not on the population level. Alkaloid concentrations on five German grasslands with high alkaloid levels peaked in summer but were also below toxicity thresholds on population level. Furthermore, we showed that alkaloid concentrations follow the same seasonal trend, regardless of whether plant fresh or dry weight was used, in the field and in a common garden study. However, alkaloid concentrations were around three times higher when detected with dry weight. Finally, we showed that alkaloid concentrations can additionally be biased to different alkaloid detection methods. We highlight that toxicity risks should be analyzed using plant dry weight, but concentration trends of fresh weight are reliable. [ABSTRACT FROM AUTHOR]

Published

2020

14. The Known Antimammalian and Insecticidal Alkaloids Are Not Responsible for the Antifungal Activity of Epichloë Endophytes

Author

Simone Rochfort, Simone Vassiliadis, Priyanka Reddy, German Spangenberg, Krishni Fernando, and Kathryn M Guthridge

Subjects

Fusarium, disease control, Plant Science, Plant disease resistance, alkaloids, Endophyte, Article, Ergovaline, chemistry.chemical_compound, Botany, Ergocryptine, Ecology, Evolution, Behavior and Systematics, Epichloë, Epichloë sp. endophytes, Uncategorized, Ecology, biology, antifungal activity, biology.organism_classification, Claviceps purpurea, chemistry, QK1-989, turf, bioprotection, Drechslera, pasture protection

Abstract

Asexual Epichloë sp. endophytes in association with pasture grasses produce agronomically important alkaloids (e.g., lolitrem B, epoxy-janthitrems, ergovaline, peramine, and lolines) that exhibit toxicity to grazing mammals and/or insect pests. Novel strains are primarily characterised for the presence of these compounds to ensure they are beneficial in an agronomical setting. Previous work identified endophyte strains that exhibit enhanced antifungal activity, which have the potential to improve pasture and turf quality as well as animal welfare through phytopathogen disease control. The contribution of endophyte-derived alkaloids to improving pasture and turf grass disease resistance has not been closely examined. To assess antifungal bioactivity, nine Epichloë related compounds, namely peramine hemisulfate, n-formylloline-d3, n-acetylloline hydrochloride, lolitrem B, janthitrem A, paxilline, terpendole E, terpendole C, and ergovaline, and four Claviceps purpurea ergot alkaloids, namely ergotamine, ergocornine, ergocryptine, and ergotaminine, were tested at concentrations higher than observed in planta in glasshouse and field settings using in vitro agar well diffusion assays against three common pasture and turf phytopathogens, namely Ceratobasidium sp., Drechslera sp., and Fusarium sp. Visual characterisation of bioactivity using pathogen growth area, mycelial density, and direction of growth indicated no inhibition of pathogen growth. This was confirmed by statistical analysis. The compounds responsible for antifungal bioactivity of Epichloë endophytes hence remain unknown and require further investigation.

Published

2021

15. Using On-Farm Monitoring of Ergovaline and Tall Fescue Composition for Horse Pasture Management

Author

Krista Lea and S. Ray Smith

Subjects

endocrine system, Health, Toxicology and Mutagenesis, Kentucky, Forage, Toxicology, Poaceae, Endophyte, Pasture, Ergovaline, Animal science, Pregnancy, biology.animal, Endophytes, Animals, Horses, Animal Husbandry, Epichloë, geography, geography.geographical_feature_category, biology, Communication, species composition, Epichloe, Horse, biology.organism_classification, Animal Feed, Pregnancy Complications, Ergotamines, Foal, Mycoses, pregnant mares, Medicine, Composition (visual arts), Female, Horse Diseases, horse pastures, ergovaline

Abstract

Central Kentucky horse pastures contain significant populations of tall fescue (Schedonorus arundinacea (Schreb.) Dumort) infected with an endophyte (Epichloë coenophialum (Morgan-Jones and Gams) Bacon and Schardl) known to produce several ergot alkaloids, with ergovaline in the highest concentration. While most classes of horses are not adversely affected by average levels of ergovaline in pastures, late term pregnant mares have a low tolerance to ergovaline and the related ergot alkaloids. Endophyte-infected tall fescue has been known to cause prolonged gestation, thickened placenta, dystocia, agalactia, and foal and mare mortality. The University of Kentucky Horse Pasture Evaluation Program utilizes ergovaline and endophyte testing, as well as pasture species composition, to calculate ergovaline in the total diet in broodmare pastures. This data is used to develop detailed management recommendations for individual pastures. Application of these recommendations has led to reduced tall fescue toxicity symptoms on these farms, as well as improved pasture management and improved forage quality and quantity.

Published

2021

16. Lolitrem B and Indole Diterpene Alkaloids Produced by Endophytic Fungi of the Genus Epichloë and Their Toxic Effects in Livestock.

Author

Philippe, Guerre

Subjects

*ALKALOIDS, *ENDOPHYTIC fungi, *VETERINARY diagnosis, *DITERPENES synthesis, *MICROBIAL metabolites

Abstract

Different group of alkaloids are produced during the symbiotic development of fungal endophytes of the genus Epichloë in grass. The structure and toxicity of the compounds vary considerably in mammalian herbivores and in crop pests. Alkaloids of the indole-diterpene group, of which lolitrem B is the most toxic, were first characterized in endophyte-infected perennial ryegrass, and are responsible for "ryegrass staggers." Ergot alkaloids, of which ergovaline is the most abundant ergopeptide alkaloid produced, are alsofound in ryegrass, but generally at a lower rate than lolitrem B. Other alkaloids such as lolines and peramine are toxic for crop pests but have weak toxicological properties in mammals. The purpose of this review is to present indole-diterpene alkaloids produced in endophyte infected ryegrass from the first characterization of ryegrass staggers to the determination of the toxicokinetics of lolitrem B and of their mechanism of action in mammals, focusing on the different factors that could explain the worldwide distribution of the disease. Other indole diterpene alkaloids than lolitrem B that can be found in Epichloë infected ryegrass, and their tremorgenic properties, are presented in the last section of this review. [ABSTRACT FROM AUTHOR]

Published

2016

17. Global Changes in Asexual Epichloë Transcriptomes during the Early Stages, from Seed to Seedling, of Symbiotum Establishment

Author

Christy J Vander Jagt, Ross Mann, Inoka K Hettiarachchige, Kathryn M Guthridge, German Spangenberg, and Tim Sawbridge

Subjects

0106 biological sciences, 0301 basic medicine, Microbiology (medical), QH301-705.5, 01 natural sciences, Microbiology, Endophyte, Article, Transcriptome, 03 medical and health sciences, transcriptome analysis, Symbiosis, Virology, Biology (General), Secondary metabolism, Gene, Epichloë, Uncategorized, Genetics, biology, Host (biology), food and beverages, RNA sequencing, biology.organism_classification, alkaloid, defence response, 030104 developmental biology, Seedling, gene expression, endophyte, 010606 plant biology & botany

Abstract

Asexual Epichloë fungi are strictly seed-transmitted endophytic symbionts of cool-season grasses and spend their entire life cycle within the host plant. Endophyte infection can confer protective benefits to its host through the production of bioprotective compounds. Inversely, plants provide nourishment and shelter to the resident endophyte in return. Current understanding of the changes in global gene expression of asexual Epichloë endophytes during the early stages of host-endophyte symbiotum is limited. A time-course study using a deep RNA-sequencing approach was performed at six stages of germination, using seeds infected with one of three endophyte strains belonging to different representative taxa. Analysis of the most abundantly expressed endophyte genes identified that most were predicted to have a role in stress and defence responses. The number of differentially expressed genes observed at early time points was greater than those detected at later time points, suggesting an active transcriptional reprogramming of endophytes at the onset of seed germination. Gene ontology enrichment analysis revealed dynamic changes in global gene expression consistent with the developmental processes of symbiotic relationships. Expression of pathway genes for biosynthesis of key secondary metabolites was studied comprehensively and fuzzy clustering identified some unique expression patterns. Furthermore, comparisons of the transcriptomes from three endophyte strains in planta identified genes unique to each strain, including genes predicted to be associated with secondary metabolism. Findings from this study highlight the importance of better understanding the unique properties of individual endophyte strains and will serve as an excellent resource for future studies of host-endophyte interactions.

Published

2021

18. Single Seed Near-Infrared Hyperspectral Imaging for Classification of Perennial Ryegrass Seed.

Author

Reddy P, Panozzo J, Guthridge KM, Spangenberg GC, and Rochfort SJ

Subjects

Cell Movement, Diagnostic Imaging, Seeds, Hyperspectral Imaging, Lolium

Abstract

The detection of beneficial microbes living within perennial ryegrass seed causing no apparent defects is challenging, even with the most sensitive and conventional methods, such as DNA genotyping. Using a near-infrared hyperspectral imaging system (NIR-HSI), we were able to discriminate not only the presence of the commercial NEA12 fungal endophyte strain but perennial ryegrass cultivars of diverse seed age and batch. A total of 288 wavebands were extracted for individual seeds from hyperspectral images. The optimal pre-processing methods investigated yielded the best partial least squares discriminant analysis (PLS-DA) classification model to discriminate NEA12 and without endophyte (WE) perennial ryegrass seed with a classification accuracy of 89%. Effective wavelength (EW) selection based on GA-PLS-DA resulted in the selection of 75 wavebands yielding 88.3% discrimination accuracy using PLS-DA. For cultivar identification, the artificial neural network discriminant analysis (ANN-DA) was the best-performing classification model, resulting in >90% classification accuracy for Trojan, Alto, Rohan, Governor and Bronsyn. EW selection using GA-PLS-DA resulted in 87 wavebands, and the PLS-DA model performed the best, with no extensive compromise in performance, resulting in >89.1% accuracy. The study demonstrates the use of NIR-HSI reflectance data to discriminate, for the first time, an associated beneficial fungal endophyte and five cultivars of perennial ryegrass seed, irrespective of seed age and batch. Furthermore, the negligible effects on the classification errors using EW selection improve the capability and deployment of optimized methods for real-time analysis, such as the use of low-cost multispectral sensors for single seed analysis and automated seed sorting devices.

Published

2023

19. Activities and Effects of Ergot Alkaloids on Livestock Physiology and Production.

Author

Klotz, James L.

Subjects

*ERGOT alkaloids, *LIVESTOCK productivity, *CLAVICEPS, *EPICHLOE, *GRAZING

Abstract

Consumption of feedstuffs contaminated with ergot alkaloids has a broad impact on many different physiological mechanisms that alters the homeostasis of livestock. This change in homeostasis causes an increased sensitivity in livestock to perturbations in the ambient environment, resulting in an increased sensitivity to such stressors. This ultimately results in large financial losses in the form of production losses to livestock producers around the world. This review will focus on the underlying physiological mechanisms that are affected by ergot alkaloids that lead to decreases in livestock production. [ABSTRACT FROM AUTHOR]

Published

2015

20. Genetics, Genomics and Evolution of Ergot Alkaloid Diversity.

Author

Young, Carolyn A., Schardl, Christopher L., Panaccione, Daniel G., Florea, Simona, Takach, Johanna E., Charlton, Nikki D., Moore, Neil, Webb, Jennifer S., and Jaromczyk, Jolanta

Subjects

*ERGOT alkaloids, *BIOSYNTHESIS, *ALKALOID synthesis, *METABOLITE synthesis, *ASCOMYCETES, *PHYTOPATHOGENIC microorganisms, *CLAVICIPITACEAE

Abstract

The ergot alkaloid biosynthesis system has become an excellent model to study evolutionary diversification of specialized (secondary) metabolites. This is a very diverse class of alkaloids with various neurotropic activities, produced by fungi in several orders of the phylum Ascomycota, including plant pathogens and protective plant symbionts in the family Clavicipitaceae. Results of comparative genomics and phylogenomic analyses reveal multiple examples of three evolutionary processes that have generated ergot-alkaloid diversity: gene gains, gene losses, and gene sequence changes that have led to altered substrates or product specificities of the enzymes that they encode (neofunctionalization). The chromosome ends appear to be particularly effective engines for gene gains, losses and rearrangements, but not necessarily for neofunctionalization. Changes in gene expression could lead to accumulation of various pathway intermediates and affect levels of different ergot alkaloids. Genetic alterations associated with interspecific hybrids of Epichloë species suggest that such variation is also selectively favored. The huge structural diversity of ergot alkaloids probably represents adaptations to a wide variety of ecological situations by affecting the biological spectra and mechanisms of defense against herbivores, as evidenced by the diverse pharmacological effects of ergot alkaloids used in medicine. [ABSTRACT FROM AUTHOR]

Published

2015

21. Ergot Alkaloids Produced by Endophytic Fungi of the Genus Epichloë.

Author

Guerre, Philippe

Subjects

*ERGOT alkaloids, *ENDOPHYTIC fungi, *EPICHLOE, *RYEGRASSES, *ERGOVALINE, *TALL fescue, *TOXICOLOGY of poisonous plants

Abstract

The development of fungal endophytes of the genus Epichloë in grasses results in the production of different groups of alkaloids, whose mechanism and biological spectrum of toxicity can differ considerably. Ergot alkaloids, when present in endophyte-infected tall fescue, are responsible for "fescue toxicosis" in livestock, whereas indole-diterpene alkaloids, when present in endophyte-infected ryegrass, are responsible for "ryegrass staggers". In contrast, peramine and loline alkaloids are deterrent and/or toxic to insects. Other toxic effects in livestock associated with the consumption of endophyte-infected grass that contain ergot alkaloids include the "sleepy grass" and "drunken horse grass" diseases. Although ergovaline is the main ergopeptine alkaloid produced in endophyte-infected tall fescue and is recognized as responsible for fescue toxicosis, a number of questions still exist concerning the profile of alkaloid production in tall fescue and the worldwide distribution of tall fescue toxicosis. The purpose of this review is to present ergot alkaloids produced in endophyte-infected grass, the factors of variation of their level in plants, and the diseases observed in the mammalian species as relate to the profiles of alkaloid production. In the final section, interactions between ergot alkaloids and drug-metabolizing enzymes are presented as mechanisms that could contribute to toxicity. [ABSTRACT FROM AUTHOR]

Published

2015

22. Diversification of Ergot Alkaloids in Natural and Modified Fungi.

Author

Robinson, Sarah L. and Panaccione, Daniel G.

Subjects

*ERGOT alkaloids, *CLAVICIPITACEAE, *TRICHOCOMACEAE, *OXIDOREDUCTASES, *POLYMERASE chain reaction

Abstract

Several fungi in two different families—the Clavicipitaceae and the Trichocomaceae—produce different profiles of ergot alkaloids, many of which are important in agriculture and medicine. All ergot alkaloid producers share early steps before their pathways diverge to produce different end products. EasA, an oxidoreductase of the old yellow enzyme class, has alternate activities in different fungi resulting in branching of the pathway. Enzymes beyond the branch point differ among lineages. In the Clavicipitaceae, diversity is generated by the presence or absence and activities of lysergyl peptide synthetases, which interact to make lysergic acid amides and ergopeptines. The range of ergopeptines in a fungus may be controlled by the presence of multiple peptide synthetases as well as by the specificity of individual peptide synthetase domains. In the Trichocomaceae, diversity is generated by the presence or absence of the prenyl transferase encoded by easL (also called fgaPT1). Moreover, relaxed specificity of EasL appears to contribute to ergot alkaloid diversification. The profile of ergot alkaloids observed within a fungus also is affected by a delayed flux of intermediates through the pathway, which results in an accumulation of intermediates or early pathway byproducts to concentrations comparable to that of the pathway end product. [ABSTRACT FROM AUTHOR]

Published

2015

23. The Response of the Associations of Grass and Epichloë Endophytes to the Increased Content of Heavy Metals in the Soil

Author

B. Wiewióra and Grzegorz Żurek

Subjects

0106 biological sciences, Plant Science, Review, 01 natural sciences, Endophyte, Plant use of endophytic fungi in defense, 030308 mycology & parasitology, 03 medical and health sciences, grass endophyte interaction, Symbiosis, Botany, heavy metals, Ecology, Evolution, Behavior and Systematics, Epichloë, Abiotic component, 0303 health sciences, endophytic fungi, soil pollution, Ecology, Resistance (ecology), biology, food and beverages, biology.organism_classification, Soil contamination, Phytoremediation, grasses, QK1-989, 010606 plant biology & botany

Abstract

The rapid development of civilization increases the area of land exposed to the accumulation of toxic compounds, including heavy metals, both in water and soil. Endophytic fungi associated with many species of grasses are related to the resistance of plants to biotic and abiotic stresses, which include heavy metals. This paper reviews different aspects of symbiotic interactions between grass species and fungal endophytes from the genera Epichloë with special attention paid to the elevated concentration of heavy metals in growing substrates. The evidence shows the high resistance variation of plant endophyte symbiosis on the heavy metals in soil outcome. The fungal endophytes confer high heavy metal tolerance, which is the key feature in its practical application with their host plants, i.e., grasses in phytoremediation.

Published

2021

24. Epichloë Fungal Endophytes—From a Biological Curiosity in Wild Grasses to an Essential Component of Resilient High Performing Ryegrass and Fescue Pastures

Author

John R. Caradus and Linda J. Johnson

Subjects

0106 biological sciences, Microbiology (medical), disease resistance, mutualism, Plant Science, Fungus, Review, alkaloids, 01 natural sciences, Endophyte, animal welfare, 03 medical and health sciences, Epichloë, Symbiosis, Mycology, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Mutualism (biology), 0303 health sciences, biology, Obligate, technology transfer, Host (biology), commercialisation, microbiology, food and beverages, biology.organism_classification, pest resistance, lcsh:Biology (General), Agronomy, mycology, endophyte, 010606 plant biology & botany

Abstract

The relationship between Epichloë endophytes found in a wide range of temperate grasses spans the continuum from antagonistic to mutualistic. The diversity of asexual mutualistic types can be characterised by the types of alkaloids they produce in planta. Some of these are responsible for detrimental health and welfare issues of ruminants when consumed, while others protect the host plant from insect pests and pathogens. In many temperate regions they are an essential component of high producing resilient tall fescue and ryegrass swards. This obligate mutualism between fungus and host is a seed-borne technology that has resulted in several commercial products being used with high uptake rates by end-user farmers, particularly in New Zealand and to a lesser extent Australia and USA. However, this has not happened by chance. It has been reliant on multi-disciplinary research teams undertaking excellent science to understand the taxonomic relationships of these endophytes, their life cycle, symbiosis regulation at both the cellular and molecular level, and the impact of secondary metabolites, including an understanding of their mammalian toxicity and bioactivity against insects and pathogens. Additionally, agronomic trials and seed biology studies of these microbes have all contributed to the delivery of robust and efficacious products. The supply chain from science, through seed companies and retailers to the end-user farmer needs to be well resourced providing convincing information on the efficacy and ensuring effective quality control to result in a strong uptake of these Epichloë endophyte technologies in pastoral agriculture.

Published

2020

25. Increase in Cd Tolerance through Seed-Borne Endophytic Fungus Epichloë gansuensis Affected Root Exudates and Rhizosphere Bacterial Community of Achnatherum inebrians .

Author

Jin J, Huang R, Wang J, Wang C, Liu R, Zhang H, Deng M, Li S, Li X, Tang R, and Li C

Subjects

Humans, Rhizosphere, Poaceae, Endophytes physiology, Bacteria, Seeds, Exudates and Transudates, Plant Roots metabolism, Cadmium metabolism, Epichloe

Abstract

Soil cadmium (Cd) pollution is a serious environmental problem imperiling food safety and human health. The endophyte Epichloë gansuensis can improve the tolerance of Achnatherum inebrians to Cd stress. However, it is still unknown whether and how the endophyte helps host plants build up a specific bacterial community when challenged by CdCl 2 . In this study, the responses of the structure and function of bacterial community and root exudates of E+ ( E. gansuensis infected) and E- ( E. gansuensis uninfected) plants to Cd stress were investigated. Analysis of bacterial community structure indicated that the rhizosphere bacterial community predominated over the root endosphere bacterial community in enhancing the resistance of CdCl 2 in a host mediated by E. gansuensis . E+ plant strengthened the interspecific cooperation of rhizosphere bacterial species. Moreover, the analysis of root exudates demonstrated E. gansuensis and increased the contents of organic acids and amino acids under Cd stress, and most root exudates were significantly correlated with rhizosphere bacteria. These results suggested that E. gansuensis employed a specific strategy to recruit distinct rhizosphere bacterial species and relevant functions by affecting root exudates to improve the tolerance of the host to Cd stress. This study provides a firm foundation for the potential application of symbionts in improving phytostabilization efficiency.

Published

2022

26. Endophyte Infection and Methyl Jasmonate Treatment Increased the Resistance of Achnatherum sibiricum to Insect Herbivores Independently

Author

Junhua Qin, Man Wu, Yubao Gao, Anzhi Ren, and Hui Liu

Subjects

0106 biological sciences, 0301 basic medicine, Health, Toxicology and Mutagenesis, media_common.quotation_subject, total phenolic, Phytochemicals, lcsh:Medicine, Insect, Phenylalanine ammonia-lyase, Cyclopentanes, Grasshoppers, Acetates, Toxicology, Poaceae, 01 natural sciences, Endophyte, Article, resistance, 03 medical and health sciences, chemistry.chemical_compound, Botany, otorhinolaryngologic diseases, Endophytes, Animals, heterocyclic compounds, Herbivory, Oxylipins, Epichloë, media_common, Herbivore, Methyl jasmonate, biology, Host (biology), Jasmonic acid, Epichloe, lcsh:R, food and beverages, Epichloë endophyte, Achnatherum sibiricum, methyl jasmonate, biology.organism_classification, 030104 developmental biology, chemistry, soluble sugar content, 010606 plant biology & botany

Abstract

Alkaloids are usually thought to be responsible for protecting endophyte-infected (EI) grasses from their herbivores. For EI grasses that produce few alkaloids, can endophyte infection enhance their resistance to herbivores? Related studies are limited. In the Inner Mongolian steppe, Achnatherum sibiricum is highly infected by Epichlo&euml, endophytes, but produces few alkaloids. Locusts are the common insect herbivores of grasses. In this study, A. sibiricum was used as plant material. Methyl jasmonate (MJ, when applied exogenously, can induce responses similar to herbivore damage) treatment was performed. The effects of endophyte infection and MJ treatment on the resistance of A. sibiricum to Locusta migratoria were studied. We found that locusts preferred EF (endophyte-free) plants to EI plants in both choice and no-choice feeding experiments. Endophyte infection enhanced the resistance of A. sibiricum to locusts. Endophyte infection decreased soluble sugar concentrations, while it increased the total phenolic content and phenylalanine ammonia lyase (PAL) activity, which may contribute to the resistance of A. sibiricum to locusts. There was an interaction effect between MJ treatment and endophyte infection on the growth of the host. MJ treatment was a negative regulator of the plant growth-promoting effects of endophyte infection. There was no interaction effect between MJ treatment and endophyte infection on the defense characteristics of the host. In groups not exposed to locusts, MJ treatment and endophyte infection had a similar effect in decreasing the soluble sugar content, while increasing the total phenolic content and the PAL activity. In groups exposed to locusts, the effect of MJ treatment on the above characteristics disappeared, while the effect of endophyte infection became more obvious. All of these results suggest that even for endophytes producing few alkaloids, they could still increase the resistance of native grasses to insect herbivores. Furthermore, endophyte infection might mediate the defense responses of the host, independent of jasmonic acid (JA) pathways.

Published

2018

27. Interaction between Grasses and Epichloë Endophytes and Its Significance to Biotic and Abiotic Stress Tolerance and the Rhizosphere.

Author

Lee, Kendall, Missaoui, Ali, Mahmud, Kishan, Presley, Holly, and Lonnee, Marin

Subjects

ABIOTIC stress, ENDOPHYTES, RHIZOSPHERE, HOST-fungus relationships, PLANT-fungus relationships, GRASSES, FORAGE

Abstract

Cool-season grasses are the most common forage types in livestock operations and amenities. Several of the cool-season grasses establish mutualistic associations with an endophytic fungus of the Epichloë genus. The grasses and endophytic fungi have evolved over a long period of time to form host-fungus specific relationships that confer protection for the grass against various stressors in exchange for housing and nutrients to the fungus. This review provides an overview of the mechanisms by which Epichloë endophytes and grasses interact, including molecular pathways for secondary metabolite production. It also outlines specific mechanisms by which the endophyte helps protect the plant from various abiotic and biotic stressors. Finally, the review provides information on how Epichloë infection of grass and stressors affect the rhizosphere environment of the plant. [ABSTRACT FROM AUTHOR]

Published

2021

28. Achieving the European Green "Deal" of Sustainable Grass Forage Production and Landscaping Using Fungal Endophytes.

Author

Pańka, Dariusz, Jeske, Małgorzata, Łukanowski, Aleksander, Prus, Piotr, Szwarc, Katarzyna, Muhire, Jean de Dieu, and Coloma, Azucena González

Subjects

ENDOPHYTIC fungi, SUSTAINABLE agriculture, ARABLE land, ENVIRONMENTAL degradation, SOIL fertility, ORGANIC farming, FORAGE plants, ENDOPHYTES

Abstract

The European Green Deal is the EU's latest growth strategy and action plan, which will meet the challenges concerning climate change and environmental degradation. The components of the Green Deal which are intended to prevent biodiversity loss, to reduce pollution level, and to improve food quality are: The Farm to Fork Strategy and Biodiversity Strategy. Their main aims include: Reducing the application of pesticides by 50% by 2030, reducing nutrients loss by 50% while preserving soil fertility, reducing the application of mineral fertilizers by a minimum of 20% by 2030, as well as supporting the development of organic farming to reach 25% of all the arable land in the EU. These aims are very ambitious and they pose a serious challenge. Can the European Green Deal provide an opportunity for fungal grass endophytes? This paper presented different aspects in which endophytes of the Epichloë genus affect colonized plants, as well as their possible applications in biological grass protection and in improving the performance properties of different grass biotopes. Literature was reviewed to provide evidence of how fungal endophytes might be used to achieve the goals of the European Green Deal strategy, in accordance with the principles of sustainable agriculture. [ABSTRACT FROM AUTHOR]

Published

2021

29. Genetic Manipulation of the Ergot Alkaloid Pathway in Epichloë festucae var. lolii and Its Effect on Black Beetle Feeding Deterrence.

Author

Hudson, Debbie, Mace, Wade, Popay, Alison, Jensen, Joanne, McKenzie, Catherine, Cameron, Catherine, and Johnson, Richard

Subjects

*ERGOT alkaloids, *BEETLES, *LOLIUM perenne, *METABOLITES, *FILAMENTOUS fungi, *ISOQUINOLINE alkaloids, *MICROBIAL metabolites, *PASTURE management

Abstract

Epichloë endophytes are filamentous fungi (family Clavicipitaceae) that live in symbiotic associations with grasses in the sub family Poöideae. In New Zealand, E. festucae var. lolii confers significant resistance to perennial ryegrass (Lolium perenne) against insect and animal herbivory and is an essential component of pastoral agriculture, where ryegrass is a major forage species. The fungus produces in planta a range of bioactive secondary metabolites, including ergovaline, which has demonstrated bioactivity against the important pasture pest black beetle, but can also cause mammalian toxicosis. We genetically modified E. festucae var. lolii strain AR5 to eliminate key enzymatic steps in the ergovaline pathway to determine if intermediate ergot alkaloid compounds can still provide insecticidal benefits in the absence of the toxic end product ergovaline. Four genes (dmaW, easG, cloA, and lpsB) spanning the pathway were deleted and each deletion mutant was inoculated into five different plant genotypes of perennial ryegrass, which were later harvested for a full chemical analysis of the ergot alkaloid compounds produced. These associations were also used in a black beetle feeding deterrence study. Deterrence was seen with just chanoclavine present, but was cumulative as more intermediate compounds in the pathway were made available. Ergovaline was not detected in any of the deletion associations, indicating that bioactivity towards black beetle can be obtained in the absence of this mammalian toxin. [ABSTRACT FROM AUTHOR]

Published

2021

30. Determination of Loline Alkaloids and Mycelial Biomass in Endophyte-Infected Schedonorus pratensis by Near-Infrared Spectroscopy and Chemometrics.

Author

Cagnano, Giovanni, Vázquez-de-Aldana, Beatriz R., Asp, Torben, Roulund, Niels, Jensen, Christian S., and Soto-Barajas, Milton Carlos

Subjects

ERGOT alkaloids, HIGH performance liquid chromatography, NEAR infrared spectroscopy, GAS analysis, METABOLITES, ISOQUINOLINE alkaloids, CHEMOMETRICS

Abstract

Near infrared spectroscopy (NIRS) is an accurate, fast and nondestructive technique whose use in predicting forage quality has become increasingly relevant in recent decades. Epichloë-infected grass varieties are commonly used in areas with high pest pressure due to their better performances compared to endophyte-free varieties. The insect resistance of Epichloë-infected grasses has been associated with four main groups of endophyte secondary metabolites: ergot alkaloids, indole-diterpenes, lolines and peramine. Concentrations of these alkaloids are usually measured with high performance liquid chromatography or gas chromatography analysis, which are accurate methods but relatively expensive and laborious. In this paper, we developed a rapid method based on NIRS to detect and quantify loline alkaloids in wild accessions of Schedonorus pratensis infected with the fungal endophyte Epichloë uncinata. The quantitative NIR equations obtained by modified partial least squares algorithm had coefficients of correlation of 0.90, 0.78, 0.85, 0.90 for N-acetylloline, N-acetylnorloline and N-formylloline and the sum of the three, respectively. The acquired NIR spectra were also used for developing an equation to predict in planta fungal biomass with a coefficient of correlation of 0.75. These results showed that the use of NIRS and chemometrics allows the quantification of loline alkaloids and mycelial biomass in a heterogeneous set of endophyte-infected meadow fescue samples. [ABSTRACT FROM AUTHOR]

Published

2020

31. Identification of ε-Poly-L-lysine as an Antimicrobial Product from an Epichloë Endophyte and Isolation of Fungal ε-PL Synthetase Gene.

Author

Purev, Enkhee, Kondo, Tatsuhiko, Takemoto, Daigo, Niones, Jennifer T., and Ojika, Makoto

Subjects

*FUNGAL genes, *EUKARYOTIC genomes, *PHYTOPATHOGENIC microorganisms, *HOST plants, *PLANT spores, *FUNGAL metabolites

Abstract

The endophytic fungus Epichloë festucae is known to produce bioactive metabolites, which consequently protect the host plants from biotic and abiotic stresses. We previously found that the overexpression of vibA (a gene for transcription factor) in E. festucae strain E437 resulted in the secretion of an unknown fungicide. In the present study, the active substance was purified and chemically identified as ε-poly-L-lysine (ε-PL), which consisted of 28–34 lysine units. The productivity was 3.7-fold compared with that of the wild type strain E437. The isolated ε-PL showed inhibitory activity against the spore germination of the plant pathogens Drechslera erythrospila, Botrytis cinerea, and Phytophthora infestans at 1–10 μg/mL. We also isolated the fungal gene "epls" encoding ε-PL synthetase Epls. Overexpression of epls in the wild type strain E437 resulted in the enhanced production of ε-PL by 6.7-fold. Interestingly, overexpression of epls in the different strain E. festucae Fl1 resulted in the production of shorter ε-PL with 8–20 lysine, which exhibited a comparable antifungal activity to the longer one. The results demonstrate the first example of ε-PL synthetase gene from the eukaryotic genomes and suggest the potential of enhanced expression of vibA or/and epls genes in the Epichloë endophyte for constructing pest-tolerant plants. [ABSTRACT FROM AUTHOR]

Published

2020

32. Generation of Epichloë Strains Expressing Fluorescent Proteins Suitable for Studying Host-Endophyte Interactions and Characterisation of a T-DNA Integration Event.

Author

Hettiarachchige, Inoka K., Ludlow, Emma J., Ekanayake, Piyumi N., Brohier, Natasha D., Sahab, Sareena, Sawbridge, Timothy I., Spangenberg, German C., and Guthridge, Kathryn M.

Subjects

GREEN fluorescent protein, REPORTER genes, LOLIUM perenne, HOST plants, ENDOPHYTIC fungi, FLUORESCENT proteins

Abstract

Methods for the identification and localisation of endophytic fungi are required to study the establishment, development, and progression of host-symbiont interactions, as visible reactions or disease symptoms are generally absent from host plants. Fluorescent proteins have proved valuable as reporter gene products, allowing non-invasive detection in living cells. This study reports the introduction of genes for two fluorescent proteins, green fluorescent protein (GFP) and red fluorescent protein, DsRed, into the genomes of two distinct perennial ryegrass (Lolium perenne L.)-associated Epichloë endophyte strains using A. tumefaciens-mediated transformation. Comprehensive characterisation of reporter gene-containing endophyte strains was performed using molecular genetic, phenotypic, and bioinformatic tools. A combination of long read and short read sequencing of a selected transformant identified a single complex T-DNA insert of 35,530 bp containing multiple T-DNAs linked together. This approach allowed for comprehensive characterisation of T-DNA integration to single-base resolution, while revealing the unanticipated nature of T-DNA integration in the transformant analysed. These reporter gene endophyte strains were able to establish and maintain stable symbiotum with the host. In addition, the same endophyte strain labelled with two different fluorescent proteins were able to cohabit the same plant. This knowledge can be used to provide the basis to develop strategies to gain new insights into the host-endophyte interaction through independent and simultaneous monitoring in planta throughout its life cycle in greater detail. [ABSTRACT FROM AUTHOR]

Published

2020

33. Analysis of the Indole Diterpene Gene Cluster for Biosynthesis of the Epoxy-Janthitrems in Epichloë Endophytes.

Author

Ludlow, Emma J., Vassiliadis, Simone, Ekanayake, Piyumi N., Hettiarachchige, Inoka K., Reddy, Priyanka, Sawbridge, Tim I., Rochfort, Simone J., Spangenberg, German C., and Guthridge, Kathryn M.

Subjects

GENE clusters, BIOSYNTHESIS, ENDOPHYTES, LOLIUM perenne, INDOLE compounds, RYEGRASSES, INDOLE

Abstract

Epoxy-janthitrems are a class of indole diterpenes with structural similarity to lolitrem B. Two taxa of asexual Epichloë endophytes have been reported to produce epoxy-janthitrems, LpTG-3 (Lolium perenne Taxonomic Group 3; e.g., NEA12) and LpTG-4 (e.g., E1). Epichloë epoxy-janthitrems are not well understood, the biosynthetic pathway and associated gene complement have not been described and while the literature suggests they are associated with superior protection against pasture insect pests and are tremorgenic in grazing mammals, these properties have not been confirmed using isolated and purified compounds. Whole genome sequence analysis was used to identify candidate genes for epoxy-janthitrem biosynthesis that are unique to epoxy-janthitrem producing strains of Epichloë. A gene, jtmD, was identified with homology to aromatic prenyl transferases involved in synthesis of indole diterpenes. The location of the epoxy-janthitrem biosynthesis gene cluster (JTM locus) was determined in the assembled nuclear genomes of NEA12 and E1. The JTM locus contains cluster 1 and cluster 2 of the lolitrem B biosynthesis gene cluster (LTM locus), as well as four genes jtmD, jtmO, jtm01, and jtm02 that are unique to Epichloë spp. that produce epoxy-janthitrems. Expression of each of the genes identified was confirmed using transcriptome analysis of perennial ryegrass-NEA12 and perennial ryegrass-E1 symbiota. Sequence analysis confirmed the genes are functionally similar to those involved in biosynthesis of related indole diterpene compounds. RNAi silencing of jtmD and in planta assessment in host-endophyte associations confirms the role of jtmD in epoxy-janthitrem production. Using LCMS/MS technologies, a biosynthetic pathway for the production of epoxy-janthitrems I–IV in Epichloë endophytes is proposed. [ABSTRACT FROM AUTHOR]

Published

2019

34. Tremorgenic Mycotoxins: Structure Diversity and Biological Activity.

Author

Guthridge, Kathryn, Vassiliadis, Simone, Hemsworth, Joanne, Hettiarachchige, Inoka, Reddy, Priyanka, Spangenberg, German, and Rochfort, Simone

Subjects

*DITERPENES, *INDOLE, *MYCOTOXINS, *EPICHLOE, *PENITREMS

Abstract

Indole-diterpenes are an important class of chemical compounds which can be unique to different fungal species. The highly complex lolitrem compounds are confined to Epichloë species, whilst penitrem production is confined to Penicillium spp. and Aspergillus spp. These fungal species are often present in association with pasture grasses, and the indole-diterpenes produced may cause toxicity in grazing animals. In this review, we highlight the unique structural variations of indole-diterpenes that are characterised into subgroups, including paspaline, paxilline, shearinines, paspalitrems, terpendoles, penitrems, lolitrems, janthitrems, and sulpinines. A detailed description of the unique biological activities has been documented where even structurally related compounds have displayed unique biological activities. Indole-diterpene production has been reported in two classes of ascomycete fungi, namely Eurotiomycetes (e.g., Aspergillus and Penicillium) and Sordariomycetes (e.g., Claviceps and Epichloë). These compounds all have a common structural core comprised of a cyclic diterpene skeleton derived from geranylgeranyl diphosphate (GGPP) and an indole moiety derived from tryptophan. Structure diversity is generated from the enzymatic conversion of different sites on the basic indole-diterpene structure. This review highlights the wide-ranging biological versatility presented by the indole-diterpene group of compounds and their role in an agricultural and pharmaceutical setting. [ABSTRACT FROM AUTHOR]

Published

2019

35. Toxicity Studies of Chanoclavine in Mice.

Author

Finch, Sarah C., Sprosen, Jan M., Bhattarai, Sweta, and Munday, John S.

Subjects

*EPICHLOE, *METABOLITES, *TOXICITY testing, *FOOD consumption, *ENDOPHYTES

Abstract

Epichloë endophytes have been used successfully in pastoral grasses providing protection against insect pests through the expression of secondary metabolites. This approach could be extended to other plant species, such as cereals, reducing reliance on pesticides. To be successful, the selected endophyte must express secondary metabolites that are active against cereal insect pests without any secondary metabolite, which is harmful to animals. Chanoclavine is of interest as it is commonly expressed by endophytes and has potential insecticidal activity. Investigation of possible mammalian toxicity is therefore required. An acute oral toxicity study showed the median lethal dose of chanoclavine to be >2000 mg/kg. This allows it to be classified as category 5 using the globally harmonized system of classification and labelling of chemicals, and category 6.1E using the New Zealand Hazardous Substances and New Organisms (HSNO) hazard classes, the lowest hazard class under both systems of classification. A three-week feeding study was also performed, which showed chanoclavine, at a dose rate of 123.9 mg/kg/day, initially reduced food consumption but was resolved by day seven. No toxicologically significant effects on gross pathology, histology, hematology, or blood chemistry were observed. These experiments showed chanoclavine to be of low toxicity and raised no food safety concerns. [ABSTRACT FROM AUTHOR]

Published

2019

36. Endophyte Infection and Methyl Jasmonate Treatment Increased the Resistance of Achnatherum sibiricum to Insect Herbivores Independently.

Author

Qin J, Wu M, Liu H, Gao Y, and Ren A

Subjects

Animals, Phytochemicals metabolism, Poaceae growth & development, Poaceae metabolism, Acetates pharmacology, Cyclopentanes pharmacology, Endophytes, Epichloe, Grasshoppers physiology, Herbivory, Oxylipins pharmacology, Poaceae drug effects, Poaceae microbiology

Abstract

Alkaloids are usually thought to be responsible for protecting endophyte-infected (EI) grasses from their herbivores. For EI grasses that produce few alkaloids, can endophyte infection enhance their resistance to herbivores? Related studies are limited. In the Inner Mongolian steppe, Achnatherum sibiricum is highly infected by Epichloë endophytes, but produces few alkaloids. Locusts are the common insect herbivores of grasses. In this study, A. sibiricum was used as plant material. Methyl jasmonate (MJ, when applied exogenously, can induce responses similar to herbivore damage) treatment was performed. The effects of endophyte infection and MJ treatment on the resistance of A. sibiricum to Locusta migratoria were studied. We found that locusts preferred EF (endophyte-free) plants to EI plants in both choice and no-choice feeding experiments. Endophyte infection enhanced the resistance of A. sibiricum to locusts. Endophyte infection decreased soluble sugar concentrations, while it increased the total phenolic content and phenylalanine ammonia lyase (PAL) activity, which may contribute to the resistance of A. sibiricum to locusts. There was an interaction effect between MJ treatment and endophyte infection on the growth of the host. MJ treatment was a negative regulator of the plant growth-promoting effects of endophyte infection. There was no interaction effect between MJ treatment and endophyte infection on the defense characteristics of the host. In groups not exposed to locusts, MJ treatment and endophyte infection had a similar effect in decreasing the soluble sugar content, while increasing the total phenolic content and the PAL activity. In groups exposed to locusts, the effect of MJ treatment on the above characteristics disappeared, while the effect of endophyte infection became more obvious. All of these results suggest that even for endophytes producing few alkaloids, they could still increase the resistance of native grasses to insect herbivores. Furthermore, endophyte infection might mediate the defense responses of the host, independent of jasmonic acid (JA) pathways.

Published

2018