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230 results on '"fungal endophyte"'

1. The Endophytic Fungus Cyanodermella asteris Influences Growth of the Nonnatural Host Plant Arabidopsis thaliana

Author

Jasmin Noack, Willem J. H. van Berkel, Lisa Storm-Johannsen, Wei Gao, Diana Seidler, Birgit Piechulla, Jutta Ludwig-Müller, Thomas Schafhauser, Wolfgang Wohlleben, Linda Jahn, Philippe Jacques, and Tambi Kar

Subjects
Aster tataricus, Arabidopsis thaliana, Perennial plant, Physiology, plant–microbe-interaction, Biochemie, Biochemistry, Botany, fungus–plant interactions, astins, VLAG, secondary metabolism, biology, fungi, Fungal endophyte, food and beverages, General Medicine, Endophytic fungus, Cyanodermella asteris, biology.organism_classification, Cyanodermella, volatiles, endophyte, Agronomy and Crop Science
Abstract

Cyanodermella asteris is a fungal endophyte from Aster tataricus, a perennial plant from the northern part of Asia. Here, we demonstrated an interaction of C. asteris with Arabidopsis thaliana, Chinese cabbage, rapeseed, tomato, maize, or sunflower resulting in different phenotypes such as shorter main roots, massive lateral root growth, higher leaf and root biomass, and increased anthocyanin levels. In a variety of cocultivation assays, it was shown that these altered phenotypes are caused by fungal CO2, volatile organic compounds, and soluble compounds, notably astins. Astins A, C, and G induced plant growth when they were individually included in the medium. In return, A. thaliana stimulates the fungal astin C production during cocultivation. Taken together, our results indicate a bilateral interaction between the fungus and the plant. A stress response in plants is induced by fungal metabolites while plant stress hormones induced astin C production of the fungus. Interestingly, our results not only show unidirectional influence of the fungus on the plant but also vice versa. The plant is able to influence growth and secondary metabolite production in the endophyte, even when both organisms do not live in close contact, suggesting the involvement of volatile compounds. [Formula: see text] Copyright © 2021 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license .

Published
2022

2. Mass Spectrometry-Based Technology and Workflows for Studying the Chemistry of Fungal Endophyte Derived Bioactive Compounds

Author

Ashish Verma, Priyamvada Gupta, Vibhav Gautam, Brijesh Kumar, Nilesh Rai, Santosh Kumar Singh, Rajiv Kumar, and Anurag Singh

Subjects
Biological Products, Chemistry, Fungi, Fungal endophyte, General Medicine, Computational biology, Mass spectrometry, Biochemistry, Mass Spectrometry, Workflow, Highly sensitive, Cell Line, Tumor, Endophytes, Metabolome, Animals, Humans, Molecular Medicine
Abstract

Bioactive compounds have gained substantial attention in research and have conferred great advancements in the industrial and pharmacological fields. Highly diverse fungi and their metabolome serve as a big platform to be explored for their diverse bioactive compounds. Omics tools coupled with bioinformatics, statistical, and well-developed algorithm tools have elucidated immense knowledge about fungal endophyte derived bioactive compounds. Further, these compounds are subjected to chromatography-gas chromatography and liquid chromatography (LC), spectroscopy-nuclear magnetic resonance (NMR), and "soft ionization" technique-matrix-assisted laser desorption/ionization-time-of-flight (MALDI-TOF) based analytical techniques for structural characterization. The mass spectrometry (MS)-based approach, being highly sensitive, reproducible, and reliable, produces quick and high-profile identification. Coupling these techniques with MS has resulted in a descriptive account of the identification and quantification of fungal endophyte derived bioactive compounds. This paper emphasizes the workflows of the above-mentioned techniques, their advancement, and future directions to study the unraveled area of chemistry of fungal endophyte-derived bioactive compounds.

Published
2021

4. High-Throughput Metabarcoding Characterizes Fungal Endophyte Diversity in the Phyllosphere of a Barley Crop

Author

Michael Bunce, Matthew Power, Kaylene Bransgrove, Katherine G. Zulak, Carla Milazzo, Darcy A. B. Jones, Francisco J. Lopez-Ruiz, and M. Jordi Muria-Gonzalez

Subjects
Integrated pest management, Ecology, biology, business.industry, Fungal endophyte, Plant Science, biology.organism_classification, Endophyte, Biotechnology, Fungicide, Crop, Microbiome, Hordeum vulgare, business, Phyllosphere, Agronomy and Crop Science, Molecular Biology, Ecology, Evolution, Behavior and Systematics
Abstract

Over the last decade, the microbiome has received increasing attention as a key factor in macroorganism fitness. Sustainable pest management requires an understanding of the complex microbial endophyte communities existing symbiotically within plants and the way synthetic pesticides interact with them. Fungal endophytes are known to benefit plant growth and fitness and may deter pests and diseases. Recent advances in high-throughput sequencing (HTS) have enabled integrative microbiome studies, especially in agricultural contexts. Here, we profile the fungal endophyte community in the phyllosphere of two barley (Hordeum vulgare) cultivars exposed to two systemic foliar fungicides using metabarcoding, an HTS tool that constructs community profiles from environmental DNA. We studied the fungal nuclear ribosomal large subunit D2 and internal transcribed spacer 2 (ITS2) DNA markers through a bioinformatics pipeline introduced here. We found 88 and 128 unique amplicon sequence variants (ASVs) using the D2 and ITS2 metabarcoding assays, respectively. With principal coordinate analysis and permutational analysis of variance, ASV diversity did not change in response to barley cultivar or fungicide treatment; however, the community structure of unsprayed plants did change between two collection times 8 days apart. The workflow described here can be applied to other microbiome studies in agriculture and we hope it encourages further research into crop microbiomes to improve agroecosystem management.

Published
2021

5. Structure Elucidation of the spiro-Polyketide Svalbardine B from the Arctic Fungal Endophyte Poaceicola sp. E1PB with Support from Extensive ESI-MSn Interpretation

Author

Nurhuda Manshoor, Anis Low Muhammad Low, El Hassane Anouar, Siti Aisyah Alias, Noel Francis Thomas, Amjad Ayad Qatran Al-Khdhairawi, Hong Kok Sing, Jean-Frédéric F. Weber, and Fatimah BeBe M. Hussain

Subjects
Pharmacology, Poaceicola, biology, Papaver dahlianum, Stereochemistry, Organic Chemistry, Fungal endophyte, Carbon skeleton, Pharmaceutical Science, biology.organism_classification, Endophyte, Analytical Chemistry, The arctic, chemistry.chemical_compound, Polyketide, Complementary and alternative medicine, chemistry, Drug Discovery, Molecular Medicine, Derivative (chemistry)
Abstract

Svalbardines A and B (1 and 2) and annularin K (3) were isolated from cultures of Poaceicola sp. E1PB, an endophyte isolated from the petals of Papaver dahlianum from Svalbard, Norway. Svalbardine A (1) is a pyrano[3,2-c]chromen-4-one, a new analogue of citromycetin. Svalbardine B (2) displays an unprecedented carbon skeleton based on a 5'-benzyl-spiro[chroman-3,7'-isochromene]-4,8'-dione core. Annularin K (3) is a hydroxylated derivative of annularin D. The structure of these new polyketides, along with those of known compounds 4-6, was established by spectrometric analysis, including extensive ESI-CID-MSn processing in the case of svalbardine B (2).

Published
2020

6. Chromosome-Scale Genome Assembly of Fusarium oxysporum Strain Fo47, a Fungal Endophyte and Biocontrol Agent

Author

H. Corby Kistler, Li-Jun Ma, Yanyan Jia, Kai Ye, Quanbin Dong, Li Guo, Christian Steinberg, Bo Wang, Véronique Edel-Hermann, Claude Alabouvette, Houlin Yu, MOE Key Laboratory for Intelligent Networks & Network Security, Faculty of Electronic and Information Engineering, Xi’an Jiaotong University, Xi’an 710049, China, Graduate Program of Plant Biology, University of Massachusetts Amherst, Amherst MA 01003 USA, Department of Biochemistry and Molecular Biology, University of Massachusetts Amherst, Amherst MA 01003 USA, School of Life Science and Technology, Xi’an Jiaotong University, Xi’an 710049 China, Agroécologie [Dijon], Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and USDA ARS Cereal Disease Laboratory, University of Minnesota, St. Paul, MN, 55108, USA

Subjects
0106 biological sciences, 0301 basic medicine, Genome evolution, Physiology, [SDV]Life Sciences [q-bio], Sequence assembly, Biology, 01 natural sciences, Genome, Endophyte, 03 medical and health sciences, Fusarium oxysporum, biocontrol, 030304 developmental biology, Genetics, 0303 health sciences, Contig, food and beverages, General Medicine, biology.organism_classification, Plant disease, 030104 developmental biology, plant-fungal interactions, fungal endophyte, genome assembly, Agronomy and Crop Science, 010606 plant biology & botany, Reference genome
Abstract

Here, we report a chromosome-level genome assembly of Fusarium oxysporum strain Fo47 (12 pseudomolecules; contig N50: 4.52Mb), generated using a combination of PacBio long-read, Illumina pair-ended and Hi-C sequencing data. Although F. oxysporum causes vascular wilt to over 100 plant species, the strain Fo47 is classified as an endophyte and widely used as a biocontrol agent for plant disease control. The Fo47 genome carries a single accessory chromosome of 4.23 Mb, compared to the reference genome of F. oxysporum f.sp. lycopersici strain Fol4287. The high-quality assembly and annotation of the Fo47 genome will be a valuable resource for studying the mechanisms underlying the endophytic interactions between F. oxysporum and plants, as well as deciphering the genome evolution of the F. oxysporum species complex.

Published
2020

7. Fungal endophyte diversity in Paspalum and effects on plant growth

Author

Florencia Marcón, Susana Alejandra Gutiérrez, Mara Belén Depetris, Silvina Andrea Felitti, and Carlos Alberto Acuña

Subjects
Plant growth, biology, Acremonium sp, Botany, Fungal endophyte, Paspalum dilatatum, Management, Monitoring, Policy and Law, biology.organism_classification, Agronomy and Crop Science, Paspalum notatum, Trichoderma sp, Paspalum
Abstract

Fil: Depetris, Mara Belen. Consejo Nacional de Investigaciones Cientificas y Tecnicas. Centro Cientifico Tecnologico Conicet - Rosario. Instituto de Investigaciones en Ciencias Agrarias de Rosario. Universidad Nacional de Rosario. Facultad de Ciencias Agrarias. Instituto de Investigaciones en Ciencias Agrarias de Rosario; Argentina

Published
2020

11. Carbon-based nanomaterials alter the composition of the fungal endophyte community in rice (Oryza sativa L.)

Author

Yuhang Rao, Chuanxin Ma, Yi Hao, Ziqian Zhao, Muhammad Adeel, Yukui Rui, Ruohan Jiang, Baoshan Xing, Guangcai Chen, and Jason C. White

Subjects
Oryza sativa, biology, ved/biology, Materials Science (miscellaneous), ved/biology.organism_classification_rank.species, Fungal endophyte, Biomass, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, Endophyte, Plant use of endophytic fungi in defense, chemistry, Terrestrial plant, Composition (visual arts), Food science, 0210 nano-technology, Carbon, 0105 earth and related environmental sciences, General Environmental Science
Abstract

Rice seedlings were exposed to different types of carbon-based nanomaterials (CNMs), including reduced graphene oxide (rGO), multi-walled carbon nanotubes (MWCNTs), and fullerene (C60), at 10–250 mg L−1 under hydroponic conditions for 20 days to investigate the impact of CMN exposure on the composition of the rice endophyte community. Physiological results demonstrated that exposure 10 and 50 mg L−1 MWCNTs and C60 had no overt effect on plant growth; however, at 250 mg L−1 the fresh biomass was reduced by 17.9–23.7% as compared to the control. Conversely, the addition of 50 and 250 mg L−1 rGO increased rice biomass. Exposure to 250 mg L−1 MWCNTs and C60 resulted in approximately 20–40% decrease in the content of three endogenous phytohormones, including indole-3-acetic acid (IAA), zeatin riboside (ZR), and gibberellic acid3 (GA3). A high-throughput sequencing technique was used to analyze the composition of the fungal endophyte community as affected by CNMs exposure. The results suggest that fungal endophytes in rice were sensitive to CNM exposure even at 10 mg L−1 CNM exposures; the community composition at different levels (phylum, class, and genus) in the 250 mg L−1 MWCNTs and C60 treatments were significantly altered as compared to the control. Taken together, the present work provides new insight on the potential consequences of NM exposure on terrestrial plants. Additionally, it is clear that a systematic evaluation of the risks of CNMs to commensal species such as endophytic fungi is necessary to fully understood the risk these materials posed in the environment.

Published
2020

13. Epichloë endophyte-promoted seed pathogen increases host grass resistance against insect herbivory

Author

Laihonen, Miika, Saikkonen, Kari, Helander, Marjo, Vázquez de Aldana, Beatriz R., Zabalgogeazcoa, Iñigo, Fuchs, Benjamin, Ministerio de Ciencia e Innovación (España), Junta de Castilla y León, Vázquez de Aldana, Beatriz R. [0000-0001-6549-3545], Zabalgogeazcoa, Iñigo [0000-0002-9524-7799], Vázquez de Aldana, Beatriz R., and Zabalgogeazcoa, Iñigo

Subjects
Microbiology (medical), herbivory, mutualism, fungi, plant-microbe interactions, food and beverages, Fungal endophyte, alkaloids, Microbiology, QR1-502, symbiosis, Claviceps, aphid, Alkaloids, Mutualism, fungal endophyte, Herbivory, Symbiosis, Aphid, Plant-microbe interactions, Original Research
Abstract

9 páginas, 2 tablas, 2 figuras, Plants host taxonomically and functionally complex communities of microbes. However, ecological studies on plant-microbe interactions rarely address the role of multiple co-occurring plant-associated microbes. Here, we contend that plant-associated microbes interact with each other and can have joint consequences for higher trophic levels. In this study we recorded the occurrence of the plant seed pathogenic fungus Claviceps purpurea and aphids (Sitobion sp.) on an established field experiment with red fescue (Festuca rubra) plants symbiotic to a seed transmitted endophytic fungus Epichloë festucae (E+) or non-symbiotic (E-). Both fungi are known to produce animal-toxic alkaloids. The study was conducted in a semi-natural setting, where E+ and E- plants from different origins (Spain and Northern Finland) were planted in a randomized design in a fenced common garden at Kevo Subarctic Research Station in Northern Finland. The results reveal that 45% of E+ plants were infected with Claviceps compared to 31% of E- plants. Uninfected plants had 4.5 times more aphids than Claviceps infected plants. By contrast, aphid infestation was unaffected by Epichloë symbiosis. Claviceps alkaloid concentrations correlated with a decrease in aphid numbers, which indicates their insect deterring features. These results show that plant mutualistic fungi can increase the infection probability of a pathogenic fungus, which then becomes beneficial to the plant by controlling herbivorous insects. Our study highlights the complexity and context dependency of species-species and multi-trophic interactions, thus challenging the labeling of species as plant mutualists or pathogens., This work was supported by the Academy of Finland (KS, Grant Nos. 295976 and 326226; MH, Grant No. 311077; BF, Grant No. 324523), the Spanish Ministry of Science and Innovation and FEDER grant PID2019-109133RB-I00, and from the project CLU-2019-05—IRNASA/CSIC Unit of Excellence funded by Junta de Castilla y León and cofinanced by the European Union (ERDF Europe drives our growth).

Published
2022

14. Influences of carbohydrate, nitrogen, and phosphorus sources on the citric acid production by fungal endophyte Aspergillus fumigatus P3I6

Author

Pierangeli G. Vital, Jude Christian E. Francisco, and Windell L. Rivera

Subjects
0106 biological sciences, biology, 010405 organic chemistry, Chemistry, Phosphorus, fungi, Aspergillus niger, Fungal endophyte, food and beverages, chemistry.chemical_element, General Medicine, Carbohydrate, biology.organism_classification, 01 natural sciences, Biochemistry, Nitrogen, 0104 chemical sciences, Aspergillus fumigatus, chemistry.chemical_compound, 010608 biotechnology, Botany, Citric acid, Biotechnology
Abstract

Fungi are ecologically ubiquitous organisms on earth and regarded as one of the prolific sources of natural products. Fungal endophytes may provide essential prerequisite molecules to plant biochem...

Published
2019

16. Does the Degree of Mutualism between Epichloë Fungi and Botanophila Flies Depend upon the Reproductive Mode of the Fungi?

Author

Thomas L. Bultman, Marlena Lembicz, and Adrian Leuchtmann

Subjects
Microbiology (medical), Ascomycota, Diptera, Fungal endophyte, reproductive mode, Plant Science, Ecology, Evolution, Behavior and Systematics
Abstract

Epichloë (Ascomycota: Clavicipitaceae) fungi can form an intriguing interaction with Botanophila flies. The fungi live within above-ground shoots of grasses. Some species (type I) only reproduce sexually by forming stromata on all host culms (choke disease). Stromata produce haploid spores (spermatia) that fertilize stromata of opposite mating type to form dikaryotic cells. A second category of Epichloë species (type II) produces stromata on only some of the host culms; culms without choke produce flowers and seeds. These Epichloë can reproduce asexually by invading host seed, as well as sexually. Female Botanophila flies visit stromata for feeding and oviposition. Spermatia pass through the gut of Botanophila intact and viable. Flies can cross-fertilize the fungus during defecation after egg laying. Hence, we described the interaction as a mutualism similar to pollination. Yet, subsequent work by others and ourselves showed that visitation by Botanophila flies was not necessary for cross fertilization of Epichloë. We believe these contradictory results can be reconciled from an evolutionary perspective, if one takes into account the reproductive mode of the fungus. We explore a novel hypothesis to reconcile this contradiction, its predictions and discuss ways in which to test them., Journal of Fungi, 8 (12), ISSN:2309-608X

Published
2022

17. Fungal Seed Endophyte FZT214 Improves

Author

Shobhika, Parmar, Vijay K, Sharma, Tao, Li, Wenting, Tang, and Haiyan, Li

Subjects
plant developmental stages, seed endophytes, fungal endophyte, fungi, synthetic seeds, plant microbe interactions, food and beverages, heavy metal tolerance, Microbiology, Original Research
Abstract

Phytoremediation is a promising remediation method of heavy metal (HM)–contaminated soils. However, lower HM tolerance of metal accumulator inhibits its practical application and effects. The current study was aimed to illustrate the role of fungal seed endophyte (FZT214) in improving Dysphania ambrosioides Cd tolerance during different developmental stages under various Cd stresses (5, 15, 30 mg kg–1) by pot experiments. The results showed that FZT214 significantly (p < 0.05) improved the host plant’s growth at the flowering and fruiting stage in most of the treatment, while at the growing stage the increase was less (p > 0.05). The seed yield was also improved (p < 0.05) in the FZT214-inoculated plants (E+) and induced early flowering was observed. Moreover, the inoculation also positively affected total chlorophyll content, antioxidant process, and lipid peroxidation in most of the treatments throughout three developmental stages. Not all but in most cases, IAA and GA were more in E+ plants while JA was more in the E− plants (non-inoculated plants) during three developmental stages. The results suggested that the colonization of FZT214 to the D. ambrosioides might trigger multiple and comprehensive protective strategies against Cd stress, which mainly include activation of the dilution effects, induced biochemical changes to overcome damage from Cd toxicity, and alteration of the endogenous phytohormones. FZT214 can find competent application in the future to improve the growth of other crop plants.

Published
2021

18. Beauveria Bassiana as Fungal Endophyte for the Potential Control of the Potato Tuber Moth Phthorimaea Operculella on Potatoes

Author

Yulin Gao, Stuart Reitz, Mengdi Zhang, Jun-jie Yan, and Shengyong Wu

Subjects
Horticulture, biology, Fungal endophyte, Beauveria bassiana, biology.organism_classification, Phthorimaea operculella
Abstract

The potato tuber moth, Phthorimaea operculella, is the most damaging potato pest in the world and is difficult to control as the larvae are internal feeders in the foliage or tubers. Entomopathogenic fungi (EPF) which colonize plants as endophytes, have lethal and sublethal pathological effects on insect pests. Experiments showed that Beauveria bassiana colonized the aerial parts of potato plants endophytically after inoculation through soil drenching. The colonization rate reached 100% for both upper and lower foliage parts one day after inoculation, and endophytic B. bassiana remained present for more than 21-day post inoculation. Mortality experiments indicated that B. bassiana and B. bassiana-inoculated potato plants were pathogenic against 2nd instar larvae of P. operculella. Development experiments showed that the weight of P. operculella pupae reared on B. bassiana-colonized potato leaves (4.25 mg) was significantly lighter than of those reared on uninoculated control plants (8.89 mg). Sublethal experiments indicated that B. bassiana negatively affected the growth, development and reproduction of P. operculella. Compared to newly eclosed larvae fed on control plants, those fed on B. bassiana-inoculated plants had significantly lower survival, with only 17.8% developing to the adult stage. Oviposition of P. operculella females reared on B. bassiana endophytically-colonized plants was significantly lower (35 eggs/per female) than of those reared on uninoculated plants (115 eggs/per female). This study demonstrates that endophytic B. bassiana can be a potential biological agent for the control and management of P. operculella.

Published
2021

19. Seed Treatment With Systemic Fungicides: Time for Review

Author

Mulla S. Ayesha, Trichur S. Suryanarayanan, Karaba N. Nataraja, Siddegowda Rajendra Prasad, and Ramanan Uma Shaanker

Subjects
0106 biological sciences, 0301 basic medicine, Mini Review, Plant Science, 01 natural sciences, Endophyte, SB1-1110, Crop, 03 medical and health sciences, chemistry.chemical_compound, seedling growth, carbendazim, seed microbiome, Abiotic component, biology, Resistance (ecology), Plant culture, food and beverages, holobiome, biology.organism_classification, Fungicide, seed endophytes, 030104 developmental biology, Agronomy, chemistry, Seedling, Germination, fungal endophyte, Seed treatment, bavistin, pathogen, 010606 plant biology & botany
Abstract

Pre-sowing seed treatment with systemic fungicides is a firmly entrenched practice for most agricultural crops worldwide. The treatment is intended to protect the crop against seed- and soil-borne diseases. In recent years, there is increasing evidence that fungicidal applications to manage diseases might inadvertently also affect non-target organisms, such as endophytes. Endophytes are ubiquitously present in plants and contribute to plant growth and development besides offering resistance to biotic and abiotic stresses. In seeds, endophytes may play a role in seed development, seed germination, seedling establishment and crop performance. In this paper, we review the recent literature on non-target effects of fungicidal applications on endophytic fungal community and discuss the possible consequences of indiscriminate seed treatment with systemic fungicide on seed endophytes. It is now well recognized that endophytes are ubiquitously present in all parts of the plant, including the seeds. They may be transmitted vertically from seed to seed as in many grasses and/or acquired horizontally from the soil and the environment. Though the origins and evolution of these organisms in plants are a matter of conjecture, numerous studies have shown that they symbiotically aid in plant growth and development, in nutrient acquisition as well in protecting the plants from abiotic and biotic stresses. Against this background, it is reasonable to assume that the use of systemic fungicides in seed treatment may not only affect the seed endophytes but also their attendant benefits to seedling growth and establishment. While there is evidence to indicate that fungicidal applications to manage plant diseases also affect foliar endophytes, there are only few studies that have documented the effect of seed treatment on seed-borne endophytes. Some of the convincing examples of the latter come from studies on the effect of fungicide application on rye grass seed endophyte AR37. More recently, experiments have shown that removal of seed endophytes by treatment with systemic fungicides leads to significant loss of seedling vigour and that such losses could be partially restored by enriching the seedlings with the lost endophytes. Put together, these studies reinforce the importance of seed endophytes to seedling growth and establishment and draw attention on how to trade the balance between the benefits of seed treatments and the direct and indirect costs incurred due to loss of endophytes. Among several approaches, use of reduced-risk fungicides and identifying fungicide-resistant endophytes are suggested to sustain the endophyte contribution to early seedling growth.

Published
2021

22. Fungal Endophyte Phomopsis liquidambari Improves Iron and Molybdenum Nutrition Uptake of Peanut in Consecutive Monoculture Soil

Author

Chuan-Chao Dai, Wei Zhang, Kai Sun, Chun-Lun Su, and Feng-Min Zhang

Subjects
0106 biological sciences, Rhizosphere, biology, Fungal endophyte, Soil Science, chemistry.chemical_element, 04 agricultural and veterinary sciences, Plant Science, Nitrate reductase, biology.organism_classification, 01 natural sciences, Transformation (genetics), Horticulture, chemistry, Symbiosis, Phomopsis, Molybdenum, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Monoculture, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

Iron (Fe) and molybdenum (Mo) are essential trace elements for plants, especially for peanut. However, peanut planted in consecutive monoculture soil usually suffers from malnutrition. Thus, the objective of this study was to investigate the effects of the fungal endophyte Phomopsis liquidambari on Fe and Mo nutrition uptake of peanut in consecutive monoculture soil. Plant growth parameters, physiological parameters, the accumulation of Fe and Mo elements, gene expression related to absorption and transformation of Fe and Mo in planta, and the low-molecular-weight organic acids (LMWOAs) concentration in rhizosphere soil were analyzed by greenhouse pot experiments. The results showed that the application of P. liquidambari improved growth parameters, chlorophyll content, nitrate reductase (NR) activity, and Fe and Mo nutrition of peanut. Furthermore, LMWOAs in peanut rhizosphere soil and the expression levels of AhFRO1, AhIRT1, and AhMOT1 were significantly changed by the application of fungal endophyte. These findings indicated that the improvement of Fe and Mo nutrition in peanut was mostly derived from the promoting growth function of P. liquidambari and the regulation of peanut-P. liquidambari symbiosis with rhizosphere LMWOAs and Fe- and Mo-related gene expression in continuous monoculture soil.

Published
2019

23. New phenylpyridone derivatives from the Penicillium sumatrense GZWMJZ-313, a fungal endophyte of Garcinia multiflora

Author

Chun-Mao Yuan, Weiming Zhu, Liping Wang, Mingxing Zuo, Wenwen He, Qianyu Gong, Guoliang Zhu, Yanchao Xu, Mingpeng Li, and Xiao-Jiang Hao

Subjects
biology, Pseudomonas aeruginosa, Chemistry, Fungal endophyte, 02 engineering and technology, General Chemistry, Clostridium perfringens, 010402 general chemistry, 021001 nanoscience & nanotechnology, medicine.disease_cause, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Microbiology, Staphylococcus aureus, Garcinia multiflora, medicine, 0210 nano-technology, Candida albicans, Escherichia coli, Penicillium sumatrense
Abstract

Citridones E–G (1–3), three new phenylpyridone derivatives together with two known curvularins (4 and 5) were isolated from the solid culture of the endophytic fungus Penicillium sumatrense GZWMJZ-313 in Garcinia multiflora. The structures of new compounds were determined in the light of spectroscopic data, X-ray and ECD calculation. Compounds 1 and 3 are racemates, while compound 2 is optically pure. Compounds 1 and 4 showed antibacterial and antifungal activities against Staphylococcus aureus, Pseudomonas aeruginosa, Clostridium perfringens, Escherichia coli and Candida albicans with MIC values ranging from 8 μg/mL to 64 μg/mL.

Published
2019

24. New α-pyrones from an endophytic fungus, Hypoxylon investiens J2

Author

Yu-Hua Guo, Hong-Xia Yang, Gang Li, Ying-Bo Zhang, Chao Yuan, and Lin Fan

Subjects
Hypoxylon investiens, biology, Chemistry, Stereochemistry, General Chemical Engineering, Fungal endophyte, 02 engineering and technology, General Chemistry, Endophytic fungus, 010402 general chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, Antimicrobial, 01 natural sciences, 0104 chemical sciences, Quorum sensing, Side chain, Bioassay, Blumea balsamifera, 0210 nano-technology
Abstract

Four new α-pyrones, hypotiens A–D (1–4), were isolated from a fungal endophyte, Hypoxylon investiens J2, harbored in the medicinal plant Blumea balsamifera. Their structures were determined through detailed HRMS and NMR spectroscopic data. Compounds 1–4 are new α-pyrone derivatives containing an unusual dimethyl substitution in the highly unsaturated side chain. Their plausible biosynthetic pathway was discussed. Biological assay indicated that compounds 1–4 showed no antimicrobial, quorum sensing inhibitory, and cytotoxic activities. The specific side chain in α-pyrone derivatives 1–4 might be responsible for the weak pharmacological activities.

Published
2019

26. Effects of Epichloë infection on the diversity and productivity of Achnatherum sibiricum community under various nutrient and mowing conditions

Author

An-Zhi Ren, Yu-Bao Gao, Jinming Liu, Man Wu, and Juan-Juan Li

Subjects
Ecology, biology, Fungal endophyte, Plant Science, biology.organism_classification, Achnatherum sibiricum, Nutrient, Agronomy, Productivity (ecology), Community diversity, Abundance (ecology), Ecology, Evolution, Behavior and Systematics, Epichloë, Diversity (business)
Published
2019

27. Fungal Endophyte: An Interactive Endosymbiont With the Capability of Modulating Host Physiology in Myriad Ways

Author

Sohini Sarkar, Puja Ray, Abhijit Dey, Mohamed A. El-Esawi, Michał Tomczyk, Gaber El-Saber Batiha, and Vinay Kumar

Subjects
Plant growth, photosynthesis, Host (biology), growth, fungi, Fungal endophyte, nutrient uptake, Plant physiology, food and beverages, Plant culture, Plant Science, Review, Biology, fungal endophytes, Plant use of endophytic fungi in defense, SB1-1110, stress, host plant, Symbiotic interaction, Botany, Host plants, Natural ecosystem
Abstract

Endophytic fungi ubiquitously dwell inside the tissue-spaces of plants, mostly asymptomatically. They grow either intercellularly or intracellularly in a particular host plant to complete the whole or part of their life cycle. They have been found to be associated with almost all the plants occurring in a natural ecosystem. Due to their important role in the survival of plants (modulate photosynthesis, increase nutrient uptake, alleviate the effect of various stresses) they have been selected to co-evolve with their hosts through the course of evolution. Many years of intense research have discovered their tremendous roles in increasing the fitness of the plants in both normal and stressed conditions. There are numerous literature regarding the involvement of various endophytic fungi in enhancing plant growth, nutrient uptake, stress tolerance, etc. But, there are scant reports documenting the specific mechanisms employed by fungal endophytes to manipulate plant physiology and exert their effects. In this review, we aim to document the probable ways undertaken by endophytic fungi to alter different physiological parameters of their host plants. Our objective is to present an in-depth elucidation about the impact of fungal endophytes on plant physiology to make this evolutionarily conserved symbiotic interaction understandable from a broader perspective.

Published
2021

28. Costs, Benefits, Parasites and Mutualists: The Use and Abuse of the Mutualism–Parasitism Continuum Concept for Epichloë Fungi

Author

Sierra Gillis, Jonathan A. Newman, and Heather A. Hager

Subjects
Mutualism (biology), Geography, biology, Genus, Ecology, Fungal endophyte, Parasitism, Continuum concept, Context (language use), biology.organism_classification, Horizontal transmission, Epichloë
Abstract

The species comprising the fungal endophyte genus Epichloë are symbionts of cool season grasses. About half the species in this genus are strictly vertically transmitted, and evolutionary theory suggests that these species must be mutualists. Nevertheless, Faeth and Sullivan (e.g. 2003) have argued that such vertically transmitted endophytes are “usually parasitic,” and Müller and Krauss (2005) have argued that such vertically transmitted endophytes fall along a mutualism–parasitism continuum. These papers (and others) have caused confusion in the field. We used a systematic review to show that close to half of the published papers in this field incorrectly categorize the interaction. Here, we develop the argument that advantages and disadvantages are not the same things as mutualism and parasitism and that experimental evidence must be interpreted in the context of theory. We argue that, contra Faeth and Sullivan, it is highly unlikely that such strictly vertically transmitted endophytes can be parasites, and that, contra Müller and Krauss, it is inappropriate to apply the continuum concept to strictly vertically transmitted endophytes. We develop a mathematical model to support and illustrate our arguments. We use the model to clarify that parasitism requires some degree of horizontal transmission, and that while it is appropriate to use the continuum concept when referring to the genus as a whole, or to species that possess horizontal transmission, we argue that it is inappropriate to use the concept when referring to species that are strictly vertically transmitted.

Published
2021

29. Unmasking Mildew Resistance Locus O

Author

Catherine N. Jacott, Christopher J. Ridout, and Jeremy D. Murray

Subjects
0106 biological sciences, 0301 basic medicine, Genetics, Mildew, biology, Resistance (ecology), Fungal endophyte, food and beverages, Locus (genetics), Hordeum, Plant Science, biology.organism_classification, 01 natural sciences, Thigmotropism, 03 medical and health sciences, 030104 developmental biology, Symbiosis, Mycorrhizae, Colonization, Powdery mildew, 010606 plant biology & botany, Disease Resistance, Plant Diseases, Plant Proteins
Abstract

Loss of Mildew Resistance Locus O (MLO) in barley confers durable resistance to powdery mildew fungi, which has led to its wide deployment in agriculture. Although MLO is a susceptibility factor, it has become nearly synonymous with powdery mildew resistance. However, MLO has been recently implicated in colonization by arbuscular mycorrhizal fungi and a fungal endophyte, confirming its importance for biotrophic interactions and in promoting symbiosis. Other MLO proteins are involved in essential sensory processes, particularly fertilization and thigmotropism. We propose external stimulus perception as a common theme in these interactions and consider a unified biochemical role, potentially relating to reactive oxygen species (ROS) and calcium regulation, for MLOs across tissues and processes.

Published
2021

30. Silybins: Antiviral liver analeptics

Author

Ahmad Adnan, Sidra Ihsan, Syeda Mariam Hasany, Sumia Akram, and Muhammad Mushtaq

Subjects
Flavonolignans, Milk Thistle, Traditional medicine, Fungal endophyte, Aspergillus iizukae, Biology, Health benefits, Curcuma, biology.organism_classification, Gentiana, Silybum marianum
Abstract

Silybins, also known as silibinins (in pharmacopeias), are ubiquitous flavonolignans with promising health benefits against obesity, cancer, liver damages, and viral diseases. Initially, discovered in “silymarin” a generic name used for the methanolic extracts of milk thistle (Silybum marianum) seeds. Besides, these plant metabolites have been isolated from white flowers bearing a variety of Silybum marianum, Gentiana apiata (whole plant), roots of Curcuma longa L., and Aspergillus iizukae (a fungal endophyte of milk thistle). Over the last couple of decades, silybins have received a great deal of research regarding extraction, biogenesis, metabolism, and clinical interventions in an effort to modulate the biological activities of silybin or to improve its physical properties, such as solubility. A fundamental breakthrough in silybin chemistry was the determination of the absolute configurations of silybin A and silybin B, and the development of the methods for their separation. Recently, this plant bioactive has shown promising analeptic potential against alcoholic, virial, mutation, and drug-induced liver damages. This chapter contains key facts dealing with silybin chemistry, sources, extraction, pharmacokinetics, and clinical applications.

Published
2021

32. Deciphering fungal endophytes combating abiotic stresses in crop plants (cereals and vegetables)

Author

Poonam Patel, Arpan Modi, Sushil Kumar, and Ajay Kumar

Subjects
Abiotic component, Crop, Nutrient, Abiotic stress, Crop production, Host (biology), fungi, Botany, Fungal endophyte, food and beverages, Host plants, Biology
Abstract

Fungal symbionts are the category of endophytes residing in plants. In recent decades, endophytes have been well researched and documented for their beneficial role to mitigate plant abiotic stress, including drought, heat, flooding, salt stress, cold, oxidative stress, depletion in nutrients, pollutants, etc. (which depletes crop production). Fungal endophyte establishes diverse associations with its host plant (such as mutualistic, symbiotic, parasitic, or commensalistic) and are related to dynamic environments to develop and propagate into the host. In this chapter, we focus and discuss on the fungal endophytes and their tolerance mechanism that they display against abiotic stress in host plants.

Published
2021

35. First Report of Fungal Endophyte Communities and Non-Defensive Phytochemistry of Biocontrol-Inoculated Whitebark Pine Seedlings in a Restoration Planting

Author

Ehren R. V. Moler, Keith Reinhardt, Richard A. Sniezko, and Ken Aho

Subjects
fungi, food and beverages, Pinus albicaulis, Cronartium ribicola, Paramyrothecium roridum, fungal endophyte, biocontrol inoculation, phytochemistry, Forestry
Abstract

Plant endosymbionts (endophytes) influence host plant health and express genotype-dependent ecological relationships with plant hosts. A fungal species intended to confer host plant resistance to a forest pathogen was used as inoculum to test for effects of inoculation on disease resistance, microbiomes, and phytochemistry of a threatened pine species planted in a restoration setting. Correlations of inoculation presence/absence, phytochemistry, spatial location of seedlings, maternal seed sources, and fungal endophytic communities in the foliage of six-year-old whitebark pine (Pinus albicaulis) seedlings were assessed five years after an experimental inoculation of seedlings with foliar endophytic fungi cultured from whitebark pine trees at Crater Lake National Park, including Paramyrothecium roridum. We hypothesized that P. roridum would modify host microbiomes in a manner that combats white pine blister rust disease. Our assessment of seedlings in the field five years after inoculation allowed us to consider whether inoculation stimulated long-lasting changes in microbiome communities and whether effects varied by seedling genetic family. Tests for effects of endophyte inoculation on disease resistance were inconclusive due to current low levels of rust infection observed at the field site. Foliar fungal endophyte richness and Shannon diversity varied with maternal seed sources. Isotopic stoichiometry and phytochemistry did not vary with seedling spatial proximity, inoculation treatment, or maternal seed family. However, endophyte community composition varied with both seedling spatial proximity and maternal seed sources. Endophytic communities did not vary with the inoculation treatment, and the hypothesized biocontrol was not detected in inoculated seedlings. We draw three conclusions from this work: (1) fungal microbiomes of whitebark pine seedlings across our study site did not vary with host phytochemical signatures of ecophysiological status, (2) the inoculation of P. albicaulis seedlings with a mixture of fungal endophytes did not lead to persistent systemic changes in seedling foliar microbiomes, and (3) in correspondence with other studies, our data suggest that maternal seed source and spatial patterns influence fungal endophyte community composition.

Published
2022

36. Leaf Endophytes of Populus trichocarpa Act as Pathogens of Neighboring Plant Species

Author

Posy E. Busby, George Newcombe, Shannon J Fraser, and Mary Ridout

Subjects
Microbiology (medical), Fusarium, Populus trichocarpa, lcsh:QR1-502, Microbiology, lcsh:Microbiology, Crop, 03 medical and health sciences, Botany, Fusarium culmorum, Blight, Domestication, Triticum, Original Research, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, Inoculation, Host (biology), fungi, food and beverages, biology.organism_classification, plant pathogen, Populus, fungal endophyte, pathogen spillover
Abstract

The conventional definition of endophytes is that they do not cause disease, whereas pathogens do. Complicating this convention, however, is the poorly explored phenomenon that some microbes are endophytes in some plants but pathogens in others. Black cottonwood or poplar (Populus trichocarpa) and wheat (Triticum aestivum) are common wild and crop plants, respectively, in the Pacific Northwest USA. The former anchors wild, riparian communities, whereas the latter is an introduced domesticate of commercial importance in the region. We isolated Fusarium culmorum – a well-known pathogen of wheat causing both blight and rot – from the leaf of a black cottonwood tree in western Washington. The pathogenicity of this cottonwood isolate and of a wheat isolate of F. culmorum were compared by inoculating both cottonwood and wheat in a greenhouse experiment. We found that both the cottonwood and wheat isolates of F. culmorum significantly reduced the growth of wheat, whereas they had no impact on cottonwood growth. Our results demonstrate that the cottonwood isolate of F. culmorum is endophytic in one plant species but pathogenic in another. Using sequence-based methods, we found an additional 56 taxa in the foliar microbiome of cottonwood that matched the sequences of pathogens of other plants of the region. These sequence-based findings suggest, though they do not prove, that P. trichocarpa may host many additional pathogens of other plants.

Published
2020

37. Antifungal properties of volatile organic compounds produced by

Author

Sarunpron, Khruengsai, Patcharee, Pripdeevech, Chutima, Tanapichatsakul, Chanin, Srisuwannapa, Priya Esilda, D'Souza, and Parinya, Panuwet

Subjects
Colletotrichum acutatum, Barleria prionitis, Biocontrol, Fungal endophyte, Plant Science, Anthracnose, Agricultural Science, Microbiology, Strawberry, Biotechnology
Abstract

Fungal endophytes are microorganisms living symbiotically with a host plant. They can produce volatile organic compounds (VOCs) that have antimicrobial activity. This study aimed to isolate endophytic fungi from Barleria prionitis plants grown in Thailand and to investigate the antifungal properties of their VOCs against Colletotrichum acutatum, a causal agent of anthracnose disease on post-harvest strawberry fruits. A total of 34 endophytic fungi were isolated from leaves of B. prionitis. The VOCs produced from each individual isolate were screened for their antifungal activity against C. acutatum using a dual-culture plate method. From this in vitro screening experiment, the VOCs produced by the endophytic isolate BP11 were found to have the highest inhibition percentage (80.3%) against the mycelial growth of C. acutatum. The endophytic isolate BP11 was molecularly identified as Daldinia eschscholtzii MFLUCC 19-0493. This strain was then selected for an in vivo experiment. Results from the in vivo experiment indicated that the VOCs produced by D. eschscholtzii MFLUCC 19-0493 were able to inhibit infections by C. acutatum on organic fresh strawberry fruits with an average inhibition percentage of 72.4%. The quality of the pathogen-inoculated strawberry fruits treated with VOCs produced by D. eschscholtzii MFLUCC 19-0493 was evaluated. Their fruit firmness, total soluble solids, and pH were found to be similar to the untreated strawberry fruits. Solid phase microextraction-gas chromatographic-mass spectrometric analysis of the VOCs produced by D. eschscholtzii MFLUCC 19-0493 led to the detection and identification of 60 compounds. The major compounds were elemicin (23.8%), benzaldehyde dimethyl acetal (8.5%), ethyl sorbate (6.8%), methyl geranate (6.5%), trans-sabinene hydrate (5.4%), and 3,5-dimethyl-4-heptanone (5.1%). Each major compound was tested for its antifungal activity against C. acutatum using the in vitro assay. While all these selected VOCs showed varying degrees of antifungal activity, elemicin was found to possess the strongest antifungal activity. This work suggests that D. eschscholtzii MFLUCC 19-0493 could be a promising natural preservative for controlling C. acutatum associated anthracnose disease in strawberry fruits during the post-harvest period.

Published
2020

39. Contrasting effects of Rhizophagus irregularis versus bacterial and fungal seed endophytes on Trifolium repens plant-soil feedback

Author

Ghita Amor, Stefano Mazzoleni, Taoufiq Fechtali, Giuliano Bonanomi, Francesca De Filippis, Mohamed Idbella, Fatima Ezzahra Chouyia, Idbella, M., Bonanomi, G., De Filippis, F., Amor, G., Chouyia, F. E., Fechtali, T., and Mazzoleni, S.

Subjects
0106 biological sciences, Rhizophagus irregularis, Fungal endophyte, Plant Science, 010603 evolutionary biology, 01 natural sciences, Endophyte, Plant Roots, Feedback, Rhizophagus intraradices, Soil, AMF, Mycorrhizae, Botany, Genetics, Endophytes, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Soil Microbiology, Abiotic component, Seed, biology, Inoculation, fungi, Community structure, Fungi, food and beverages, Plant Root, General Medicine, Soil-borne pathogen, biology.organism_classification, Bacterial endophyte, Soil water, Seeds, Rhizophagus intraradice, Trifolium repens, Trifolium, 010606 plant biology & botany
Abstract

Interactions between plants and soil affect plant–plant interactions and community composition by modifying soils conditions in plant-soil feedback, where associated microbes have the most crucial role. Both arbuscular mycorrhizal fungi (AMF) and microbial seed endophytes have been demonstrated to influence, directly or indirectly, biotic or abiotic soil properties, thus affecting subsequent plant growth, and community structure. However, little is known about how plant endophyte communities, individually or in interaction with AMF, affect plant-soil feedback processes. Here, we investigated, through a manipulative experiment, the behavior of endophyte-free and endophyte-associated Trifolium repens plants grown in soils previously conditioned by conspecific endophyte-free and endophyte-associated plants, inoculated or not by Rhizophagus intraradices. Furthermore, we identified microbial endophytes directly from the inner tissues of seeds by high-throughput sequencing, to compare seed fungal and bacterial endophyte composition. Results demonstrated that the outcome of simultaneous occurrence of seed endophytes and AMF on plant behavior depended on matching the endophytic status, i.e., either the presence or absence of seed microbial endophytes, of the conditioning and response phase. Seed fungal endophytes generated strong conspecific negative feedback, while seed bacterial endophytes proved to shift the feedback from negative to positive. Moreover, the simultaneous occurrence of both seed endophytes with AMF could either generate or expand negative plant-soil feedback effects. Our results show that seed and root symbionts can play a significant role on setting conspecific plant-soil feedback.

Published
2020

40. Life in mine tailings: microbial population structure across the bulk soil, rhizosphere, and roots of boreal species colonizing mine tailings in northwestern Québec

Author

Charles W. Greer, Jean-Philippe Bellenger, Sébastien Roy, Julien Tremblay, Vanessa Gagnon, Jessica Wasserscheid, Julie Champagne, and Michaël Rodrigue-Morin

Subjects
Mine tailings, 0303 health sciences, Rhizosphere, 030306 microbiology, Bulk soil, food and beverages, Fungal endophyte, Edaphic, Microbial dynamics, Biology, biology.organism_classification, Microbiology, Applied Microbiology and Biotechnology, Tailings, QR1-502, 03 medical and health sciences, Heavy metal, Bacterial endophyte, Contamination, Microbial ecology, Microbial population biology, Botany, Gammaproteobacteria, 030304 developmental biology, Woody plant
Abstract

Purpose Mining activities have negative effects on soil characteristics and can result in low pH, high heavy metal content, and limited levels of essential nutrients. A tailings storage area located in northwestern Québec showed natural colonization by plants from the adjacent natural environment. The objective of the study was to determine the main edaphic parameters that structured microbial populations associated with the indigenous woody plants that had naturally colonized the site. Methods Microbial populations were studied in the bulk soil, the rhizosphere, and inside plant roots using Illumina sequencing, ordination analysis (i.e., redundancy analysis (RDA) and principal coordinates analysis (PCoA)), ternary plotting, and statistical analysis (MANOVA). Results The main variables that drove the microbial community patterns were plant species and the tailings pH. Indeed, the main bacterial classes were Gammaproteobacteria and Deltaproteobacteria in both the rhizosphere and root endosphere. Analysis revealed that some dominant operational taxonomic units (e.g., Pseudomonas sp., Acinetobacter sp., and Delftia sp.) were present in increased proportions in roots for each plant species under study. This study also revealed that many of the most abundant fungal genera (e.g., Claussenomyces, Eupenicillium, and Trichoderma) were more abundant in the rhizosphere than in the root endosphere. Conclusions This comprehensive study of the microbial community dynamics in the bulk soil, rhizosphere, and root endosphere of boreal trees and shrubs could be beneficial in facilitating the rehabilitation of disturbed ecosystems.

Published
2020

41. Maternal Exposure to Ozone Modulates the Endophyte-Conferred Resistance to Aphids in

Author

Ludmila M, Bubica Bustos, Andrea C, Ueno, Tara D, Di Leo, Carlos D, Crocco, M Alejandra, Martínez-Ghersa, Marco A, Molina-Montenegro, and Pedro E, Gundel

Subjects
Lolium multiflorum, transgenerational effects, fungal endophyte, fungi, food and beverages, maternal effects, Article, symbiosis, Rhopalosiphum padi
Abstract

Simple Summary Global change is driving the incidence of novel stress factors such as the tropospheric pollutant ozone. Plants can overcome the environmental challenges by adjusting their phenotypes that eventually, can be transmitted to the progeny. Plants also establish symbiotic interactions with beneficial fungal endophytes, some of which can be transmitted to the progeny through the seeds. We worked with the grass Lolium multiflorum and its common endophyte, Epichloë occultans that benefits the host by coffering resistance to herbivores. Specifically, we studied the effect of exposing endophyte-symbiotic and non-symbiotic plants to ozone on the level of resistance to herbivorous aphids in the progeny. The ozone history impaired the endophyte-conferred resistance to aphids in progeny. This was evident at individual weight level of aphids but not so at population level. Defensive compounds were higher in endophyte-symbiotic seeds but depressed by mother plants exposure to ozone. Despite the negative effect of maternal ozone on the resistance level of plants, symbiotic plants showed a superior biomass compared to endophyte-free plants. Our work illustrates how the environment explored by parent plants can persist transgenerationally and, depending on the symbiotic state, will affect the fate of the progeny. Abstract Plants are challenged by biotic and abiotic stress factors and the incidence of one can increase or decrease resistance to another. These relations can also occur transgenerationally. For instance, progeny plants whose mothers experienced herbivory can be more resistant to herbivores. Certain fungal endophytes that are vertically transmitted endow plants with alkaloids and resistance to herbivores. However, endophyte-symbiotic plants exposed to the oxidative agent ozone became susceptible to aphids. Here, we explored whether this effect persists transgenerationally. We exposed Lolium multiflorum plants with and without fungal endophyte Epichloë occultans to ozone (120 or 0 ppb), and then, challenged the progeny with aphids (Rhopalosiphum padi). The endophyte was the main factor determining the resistance to aphids, but its importance diminished in plants with ozone history. This negative ozone effect on the endophyte-mediated resistance was apparent on aphid individual weights. Phenolic compounds in seeds were increased by the symbiosis and diminished by the ozone. The endophyte effect on phenolics vanished in progeny plants while the negative ozone effect persisted. Independently of ozone, the symbiosis increased the plant biomass (≈24%). Although ozone can diminish the importance of endophyte symbiosis for plant resistance to herbivores, it would be compensated by host growth stimulation.

Published
2020

42. A DNA Repair Inhibitor Isolated from an Ecuadorian Fungal Endophyte Exhibits Synthetic Lethality in PTEN-Deficient Glioblastoma

Author

Scott A. Strobel, Daniel Spakowicz, Meetu Kaushik Tiwari, Jason M. Crawford, Hyun Bong Park, Nneoma Adaku, and Faye A. Rogers

Subjects
DNA Repair, Pharmaceutical Science, Synthetic lethality, Biology, Analytical Chemistry, law.invention, chemistry.chemical_compound, law, Cell Line, Tumor, Drug Discovery, medicine, Endophytes, PTEN, Humans, DNA Breaks, Double-Stranded, Tumor Stem Cell Assay, Pharmacology, Molecular Structure, Brain Neoplasms, Alkaloid, Organic Chemistry, Cell Cycle, Fungal endophyte, PTEN Phosphohydrolase, Cancer, medicine.disease, Complementary and alternative medicine, chemistry, Cancer research, biology.protein, Molecular Medicine, Suppressor, Comet Assay, Ecuador, Drug Screening Assays, Antitumor, Glioblastoma, Synthetic Lethal Mutations, DNA, Mutagens
Abstract

Disruption of the tumor suppressor PTEN, either at the protein or genomic level, plays an important role in human cancer development. The high frequency of PTEN deficiency reported across several cancer subtypes positions therapeutic approaches that exploit PTEN loss-of-function with the ability to significantly impact the treatment strategies of a large patient population. Here, we report that an endophytic fungus isolated from a medicinal plant produces an inhibitor of DNA double-strand-break repair. Furthermore, the novel alkaloid product, which we have named irrepairzepine (1), demonstrated synthetic lethal targeting in PTEN-deficient glioblastoma cells. Our results uncover a new therapeutic lead for PTEN-deficient cancers and an important molecular tool toward enhancing the efficacy of current cancer treatments.

Published
2020

43. Soil-microbes-mediated invasional meltdown in plants

Author

Yanjie Liu, Mark van Kleunen, Zhijie Zhang, and Caroline Brunel

Subjects
Ecology, media_common.quotation_subject, Plant species, Fungal endophyte, Alien, Interspecific competition, Native plant, Biology, Soil conditioning, Alien species, Competition (biology), media_common
Abstract

While most alien species fail to establish, some invade native communities and become widespread. Many of these communities have been invaded by multiple aliens, suggesting that aliens may cause invasional meltdowns. Here, we tested whether and how a third plant species affects the competitive outcome between alien and native plants through its soil legacy. We first conditioned soil with one of ten species (six natives and four aliens) or without plants. Then, we grew on these 11 soils, five aliens and five natives without competition, and with intra- or interspecific competition (all pairwise alien-native combinations). We found that aliens were not more competitive than natives when grown on soil conditioned by other natives or on non-conditioned soil. However, aliens were more competitive than natives on soil conditioned by other aliens. Although soil conditioning rarely affected the strength of competition between later plants, soil conditioned by aliens changed the competitive outcomes by affecting growth of aliens less negatively than that of natives. Microbiome analysis confirmed this finding by showing that the soil-legacy effects of one species on later species were less negative when their fungal endophyte communities were less similar; and that fungal endophyte communities were less similar between two aliens than between aliens and natives. Our study suggests that coexistence between aliens and natives is less likely with more alien species. Such invasional meltdown is likely mediated by spill-over of fungal endophytes, some of which are pathogenic.

Published
2020

44. Endophytic Fungi of Marine Alga From Konkan Coast, India—A Rich Source of Bioactive Material

Author

Chelliah Jayabaskaran, Siya Kamat, Madhuree Kumari, and Sidhartha Taritla

Subjects
0106 biological sciences, food.ingredient, lcsh:QH1-199.5, 010504 meteorology & atmospheric sciences, Ocean Engineering, lcsh:General. Including nature conservation, geographical distribution, Aquatic Science, Oceanography, medicine.disease_cause, 01 natural sciences, Endophyte, Plant use of endophytic fungi in defense, diversity, Microbiology, HeLa, food, medicine, Agar, lcsh:Science, Konkan coast, 0105 earth and related environmental sciences, Water Science and Technology, Global and Planetary Change, Aspergillus, biology, 010604 marine biology & hydrobiology, Aspergillus unguis, apoptosis, Pathogenic bacteria, biology.organism_classification, fungal endophyte, cytotoxicity, lcsh:Q, Antibacterial activity
Abstract

Endophytes are an unexploited source of pharmacologically relevant compounds owing to their species richness and diversity. In this study, a total of 26 endophytic fungi were isolated and identified from 10 marine algal samples collected from the Konkan coast, Goa, India. Eighteen of the fungal isolates belonged to phylum Ascomycota while one belonged to phylum Basidiomycota based on ITS sequencing. Further, the genus Aspergillus sp. was the most common and abundant endophyte found in the sampled algal species. A significant antibacterial activity against five pathogenic bacteria was exhibited by the extracts of fungal isolates AG1.1, AG1.1 (G) and VG2.6 (agar diffusion assay). The extracts of fungal endophytes VB1.1, PG1.2 and VG2.6 demonstrated good antioxidant activity (DPPH scavenging assay). Further, cytotoxicity of all the endophytic extracts on human cancer cell lines was determined by MTT and resazurin assay. The crude extract of Aspergillus unguis (AG 1.2) showed the highest cytotoxic potential on cervical cancer (HeLa), breast cancer (MCF-7), lung cancer (A549), and skin cancer (A431) cell lines in a concentration dependent manner. Moreover, Gas Chromatography-Mass Spectroscopy analysis of the extract of A. unguis (AG 1.2) confirmed the presence of several bioactive metabolites including azelaic acid, azetidine, and furopyrans. The extract of A. unguis (AG 1.2) demonstrated G1 phase cell cycle arrest, reactive oxygen species (ROS)-dependent MMP loss and apoptosis-dependent cell death in A431 cells. The algae-derived fungal endophytes of Konkan coast are a rich source of novel pharmaceutically active compounds as indicated by this work.

Published
2020

45. Variation and plasticity in Epichloë alkaloid content of Festuca rubra across Europe

Author

Beatriz R. Vázquez de Aldana, Kari Saikkonen, Marjo Helander, Iñigo Zabalgogeazcoa, Päivi H. Leinonen, Ministerio de Economía y Competitividad (España), European Commission, Academy of Finland, Vázquez de Aldana, Beatriz R. [0000-0001-6549-3545], Zabalgogeazcoa, Iñigo [0000-0002-9524-7799], Vázquez de Aldana, Beatriz R., and Zabalgogeazcoa, Iñigo

Subjects
0106 biological sciences, Plasticity, Fungal endophyte, Plant Science, 010603 evolutionary biology, 01 natural sciences, Ergovaline, Botany, Peramine, Environmental effect, Transplant experiment, Ecology, Evolution, Behavior and Systematics, Epichloë, 2. Zero hunger, Phenotypic plasticity, Biomass (ecology), Herbivore, Ecology, biology, Host (biology), Ecological Modeling, Red fescue, food and beverages, 15. Life on land, biology.organism_classification, Transplantation, Festuca rubra, 010606 plant biology & botany
Abstract

28 páginas, 4 figuras, 4 tablas. -- The final published version is available at http:www.elsevier.com, Many symbiotic microbes can aid their host plant's defense against herbivores and pathogens either directly or indirectly through plant-mediated mechanisms. Thus, microbes are of interest to agricultural research. In this study, we used vertically transmitted Epichloë species because these fungal endophytes of grasses produce alkaloids that have been shown to protect the host from herbivory. Depending on the amount, type, and profile of alkaloids, Epichloë species can promote the host's defense against invertebrate or vertebrate herbivores. Here, we used Festuca rubra colonized by Epichloë festucae from wild populations of different geographic origins in a reciprocal transplant experiment at three locations across Europe. We sought to determine whether genetic differences among Epichloë-colonized plants from different origins or phenotypic plasticity explained variations in alkaloid content and whether the alkaloid content was correlated with the growth and reproduction of the plants colonized by Epichloë. We found that the geographic origin of the Epichloë-colonized genotypes explained differences in ergovaline and peramine production. The ergovaline content also indicated chemotypic plasticity, as profiles changed when transplanted to a new environment, while the concentration of peramine was constant among the transplantation sites. The lack of a strong correlation between alkaloid content and plant performance (number of reproductive stems and total biomass) indicated that the costs of alkaloid production were too low to have consequences for fitness in terms of those parameters. Our findings emphasize the importance of estimating the fungal alkaloid content in multiple field environments in order to determine its potential toxicity and value for breeding programs that are aimed at the improvement of turfgrass and forage cultivars., This work was supported by INTERACT (Grant Agreement No. 262693) under the European Community’s Seventh Framework Program awarded to KS and MH, Academy of Finland (Projects No. 137909 and 295976) to KS, and Spanish Ministry of Economy, Competitiveness and Innovation, and European Regional Development Fund FEDER (AGL2016-76035-C21R) to BRV and IZ.

Published
2020

46. Fungal endophyte-infected leaf litter alters in-stream microbial communities and negatively influences aquatic fungal sporulation

Author

Emily R. Wolfe, Brett S Younginger, and Carri J. LeRoy

Subjects
0106 biological sciences, 0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Botany, Fungal endophyte, Plant litter, Biology, 010603 evolutionary biology, 01 natural sciences, Litter decomposition, Ecology, Evolution, Behavior and Systematics, Spore
Published
2018

47. Phacidiaceae endophytes of Picea rubens in Eastern Canada

Author

Joey B. Tanney and Keith A. Seifert

Subjects
0301 basic medicine, 03 medical and health sciences, Ecology, Botany, Fungal endophyte, Plant Science, 030108 mycology & parasitology, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Phacidiaceae
Abstract

More than 100 fungal endophyte strains belonging to the family Phacidiaceae were isolated from surface-sterilized Picea rubens Sarg. needles collected from the Acadian Forest Region in New Brunswick, Canada. The strains were characterized morphologically by their asexual states, and phylogenetic analyses were conducted using the nuclear internal transcribed spacer rDNA (ITS) marker and the second largest subunit of ribosomal polymerase II (RPB2). Morphological and phylogenetic data revealed seven species: Darkera cf. parca; Strasseria geniculata; two novel Phacidium species: Phacidium dicosmoanum and Phacidium faciforme; and three novel monotypic genera described to accommodate distinct species: Calvophomopsis rubenticola, Cornibusella ungulata, and Gloeopycnis protuberans. Further analyses of Darkera spp. were performed with ITS and partial translation elongation factor 1-α (TEF1α), and the results suggest that D. parca is a species complex. Phacidiaceae includes hundreds of known species that are unrepresented by sequence data; therefore, ITS sequences were generated from herbarium material including type specimens of Darkera parca, Phacidium lunatum, and specimens of Allantophomopsiella, Allantophomopsis, Bulgaria, Phacidium, and Pseudophacidium species. The description of novel species combined with morphological observations and reference sequences will facilitate the identification of conifer endophytes, both from specimens or cultures and in environmental sequence data, and improve our understanding of this large and mostly neglected family.

Published
2018

48. Benefits of a root fungal endophyte on physiological processes and growth of the vulnerable legume tree Prosopis chilensis (Fabaceae)

Author

Cristian Ibáñez, Andrea Morales, Luisa Bascuñán-Godoy, Marcia González-Teuber, and Alejandro Urzúa

Subjects
0106 biological sciences, 0301 basic medicine, Biomass (ecology), Ecology, ved/biology, ved/biology.organism_classification_rank.species, Fungal endophyte, Prosopis chilensis, Plant Science, Fabaceae, Biology, 01 natural sciences, Plant ecology, 03 medical and health sciences, 030104 developmental biology, Botany, Cultural methods, Revegetation, Ecology, Evolution, Behavior and Systematics, Legume, 010606 plant biology & botany
Published
2018

49. The Fungal EndophyteEpichloë festucaevar.loliiDoes Not Improve the Freezing Tolerance of Perennial Ryegrass

Author

Eric Watkins, Garett C. Heineck, and Nancy Ehlke

Subjects
0106 biological sciences, Perennial plant, Epichloe festucae, Botany, 040103 agronomy & agriculture, Fungal endophyte, 0401 agriculture, forestry, and fisheries, 04 agricultural and veterinary sciences, Biology, 01 natural sciences, Agronomy and Crop Science, Freezing tolerance, 010606 plant biology & botany
Published
2018

50. Whitebark pine foliar fungal endophyte communities in the southern Cascade Range, USA: Host mycobiomes and white pine blister rust

Author

Ehren Moler and Ken Aho

Subjects
0106 biological sciences, 0301 basic medicine, Ecology, biology, Range (biology), Host (biology), Ecological Modeling, fungi, Community structure, Fungal endophyte, food and beverages, Plant Science, biology.organism_classification, 01 natural sciences, Endophyte, Rust, Pinus albicaulis, White (mutation), 03 medical and health sciences, 030104 developmental biology, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany
Abstract

We present an assessment of relationships between correlates, signs, and symptoms of white pine blister rust and fungal endophyte communities of whitebark pine (Pinus albicaulis) foliage in the southern Cascade Range, OR, USA. Parsimonious combinations of historically important predictors of blister rust provided effective logistic models (AUC = 0.83) for predicting blister rust infection in whitebark pines at our sites. Holding ten other predictors constant, multivariate endophyte community structure varied significantly with host tree diameter, mountain aspect, the latitudinal coordinates at which samples were collected, and proximal alternative host plants of the white pine blister rust pathogen. After controlling for multiple comparisons, mountain aspect remained a significant source of variation in endophyte community composition even at the taxonomic rank of class, while the presence/absence of blister rust cankers did not remain significant. We discuss overarching mechanisms that may contribute to novel trends observed in mycobiome variation.

Published
2018

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