Your search keyword '"Armillaria"' showing total 2,531 results

1. Mapping pathogenic fungi in decayed Norway spruce stands: Insights from harvester positional data.

Author

Lara, Wilson, Astrup, Rasmus, Hietala, Ari M., Maleki, Kobra, Belbo, Helmer, and Antón‐Fernández, Clara

Abstract

Root and butt rot caused by pathogenic fungi in the genera Heterobasidion and Armillaria is a pressing issue in managed Norway spruce forests. The disease results in financial losses for the forest owners and reduces the volume of wood that can be used in long‐lived products. Pathogenic wood decay fungi spread either with the aid of airborne spores or via mycelial growth among neighbouring trees, the latter leading to clustering (tendency of decayed trees to be in close proximity relative to their neighbouring trees) of decay‐affected trees in forests. Understanding the spatial patterns of the decay‐affected trees at the forest stand level is vital for designing management strategies to address this problem.We examined decay clustering in 273 clear‐cut Norway spruce stands in Norway using harvester‐recorded data on spatial occurrence of decayed and healthy Norway spruce trees. We tested clustering using three global‐cluster tests that account for population density and distribution, evaluating clustering without identifying specific cluster locations.The proportions of clustered and non‐clustered stands differed depending on the statistical test used for clustering assessment, resulting in overall agreement of 32.8% for clustered and 36.9% for non‐clustered. Clustered stands exhibited a median cluster distance (maximum distance between the decay‐affected trees within a cluster) of 12 m (Inter‐Quantile Range, IQR, 6–20 m) and a median of 6 (IQR 3–16) nearest neighbour trees (number of decayed trees forming a cluster), estimates comparable with prior studies focused on assessment of trees infected by mycelial spread of the same fungal individual. The decay incidence in the clustered stands was 16.24%, while the non‐clustered stands had a butt‐rot incidence of 20.97%. In clustered stands the average number of trees per hectare was higher (693) than in non‐clustered stands (553).Synthesis and applications: Our study demonstrates that Norway spruce stands display a diverse range of spatial patterns of butt rotted trees. We found that higher densities of Norway spruce trees probably facilitate the vegetative spread of pathogenic wood decay fungi, leading to clustering of decay‐affected trees. To disrupt the spread of decay fungi between tree generations, precision planting of trees other than Norway spruce around infested stumps of prior generation trees has been recommended by earlier studies. We discussed the potential of using harvester‐derived geoposition data for butt‐rotted trees upon planning and execution of forest regeneration. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vertical and horizontal gene transfer shaped plant colonization and biomass degradation in the fungal genus Armillaria

Author

Sahu, Neha, Indic, Boris, Wong-Bajracharya, Johanna, Merényi, Zsolt, Ke, Huei-Mien, Ahrendt, Steven, Monk, Tori-Lee, Kocsubé, Sándor, Drula, Elodie, Lipzen, Anna, Bálint, Balázs, Henrissat, Bernard, Andreopoulos, Bill, Martin, Francis M, Bugge Harder, Christoffer, Rigling, Daniel, Ford, Kathryn L, Foster, Gary D, Pangilinan, Jasmyn, Papanicolaou, Alexie, Barry, Kerrie, LaButti, Kurt, Virágh, Máté, Koriabine, Maxim, Yan, Mi, Riley, Robert, Champramary, Simang, Plett, Krista L, Grigoriev, Igor V, Tsai, Isheng Jason, Slot, Jason, Sipos, György, Plett, Jonathan, and Nagy, László G

Subjects

Microbiology, Biological Sciences, Genetics, Infectious Diseases, Armillaria, Biomass, Gene Transfer, Horizontal, Ecosystem, Plants, Medical Microbiology

Abstract

The fungal genus Armillaria contains necrotrophic pathogens and some of the largest terrestrial organisms that cause tremendous losses in diverse ecosystems, yet how they evolved pathogenicity in a clade of dominantly non-pathogenic wood degraders remains elusive. Here we show that Armillaria species, in addition to gene duplications and de novo gene origins, acquired at least 1,025 genes via 124 horizontal gene transfer events, primarily from Ascomycota. Horizontal gene transfer might have affected plant biomass degrading and virulence abilities of Armillaria, and provides an explanation for their unusual, soft rot-like wood decay strategy. Combined multi-species expression data revealed extensive regulation of horizontally acquired and wood-decay related genes, putative virulence factors and two novel conserved pathogenicity-induced small secreted proteins, which induced necrosis in planta. Overall, this study details how evolution knitted together horizontally and vertically inherited genes in complex adaptive traits of plant biomass degradation and pathogenicity in important fungal pathogens.

Published

2023

3. Characteristics and functions of volatile organic compounds in the tripartite symbiotic system of Gastrodia elata-Armillaria gallica-Rahnella aceris HPDA25

Author

Ying Zhang, Tianrui Liu, Tiegui Nan, Zhongyi Hua, Yuyang Zhao, and Yuan Yuan

Subjects

orchid mycorrhizal symbiosis, volatile organic compounds, plant growth-promoting bacteria, gastrodia elata, armillaria, Plant ecology, QK900-989, Biology (General), QH301-705.5

Abstract

Tripartite interactions among plants, fungi, and bacteria are critical for maintaining plant growth and fitness, and volatile organic compounds (VOCs) play a significant role in these interactions. However, the functions of VOCs within the niche of mycoheterotrophic plants, which represent unique types of interactions, remain poorly understood. Gastrodia elata, a mycoheterotrophic orchid species, forms a symbiotic relationship with specific Armillaria species, serving as a model system to investigate this intriguing issue. Rahnella aceris HPDA25 is a plant growth-promoting bacteria isolated from G. elata, which has been found to facilitate the establishment of G. elata-Armillaria symbiosis. In this study, using the tripartite symbiotic system of G. elata-Armillaria gallica-R. aceris HPDA25, we investigate the role of VOCs in the interaction among mycoheterotrophic plants, fungi, and bacteria. Our results showed that 33 VOCs of HPDA25-inducible symbiotic G. elata elevated compared to non-symbiotic G. elata, indicating that VOCs indeed play a role in the symbiotic process. Among these, 21 VOCs were accessible, and six active VOCs showed complete growth inhibition activities against A. gallica, while R. aceris HPDA25 had no significant effect. In addition, three key genes of G. elata have been identified that may contribute to the increased concentration of six active VOCs. These results revealed for the first time the VOCs profile of G. elata and demonstrated its regulatory role in the tripartite symbiotic system involving G. elata, Armillaria, and bacteria.

Published

2024

4. Establishment of an efficient Agrobacterium tumefaciens-mediated transformation system for an Armillaria species, a host of the fully mycoheterotrophic plant Gastrodia elata

Author

Su, Zhongxiang, Li, Hongjing, Xu, Yuxing, Zhang, Cuiping, Wu, Jianqiang, and Lei, Yunting

Published

2024

5. Depicting the Chemical Diversity of Bioactive Meroterpenoids Produced by the Largest Organism on Earth.

Author

Pfütze, Sebastian, Charria‐Girón, Esteban, Schulzke, Esther, Toshe, Rita, Khonsanit, Artit, Franke, Raimo, Surup, Frank, Brönstrup, Mark, and Stadler, Marc

Subjects

*STRUCTURE-activity relationships, *CHEMICAL libraries, *DOUBLE bonds, *NUCLEAR magnetic resonance spectroscopy, *CYTOTOXINS, *TOXAPHENE

Abstract

In this investigation, we explored the diversity of melleolide‐type meroterpenoids produced by Armillaria ostoyae, one of the largest and oldest organisms on Earth, using extracts from liquid and solid fermentation media. The study unveiled three unprecedented dimeric bismelleolides and three novel fatty‐acid‐substituted congeners, along with 11 new and 21 known derivatives. The structures were elucidated by 1D and 2D NMR spectroscopy and HRESI‐MS, and ROESY spectral analysis for relative configurations. Absolute configurations were determined from crystal structures and through ECD spectra comparison. A compound library of melleolide‐type meroterpenoids facilitated metabolomics‐wide associations, revealing production patterns under different culture conditions. The library enabled assessments of antimicrobial and cytotoxic activities, revealing that the Δ2,4 double bond is not crucial for antifungal activity. Cytotoxicity was linked to the presence of an aldehyde at C1, but lost with hydroxylation at C13. Chemoinformatic analyses demonstrated the intricate interplay of chemical modifications on biological properties. This study marks the first systematic exploration of Armillaria spp. meroterpenoid diversity by MS‐based untargeted metabolomics, offering insight into structure–activity relationships through innovative chemoinformatics. [ABSTRACT FROM AUTHOR]

Published

2024

6. Darstellung der chemischen Diversität bioaktiver Meroterpenoide, die vom größten Organismus der Erde produziert werden.

Author

Pfütze, Sebastian, Charria‐Girón, Esteban, Schulzke, Esther, Toshe, Rita, Khonsanit, Artit, Franke, Raimo, Surup, Frank, Brönstrup, Mark, and Stadler, Marc

Abstract

In dieser Forschungsarbeit untersuchten wir die Diversität von Melleolid‐Meroterpenoiden, die von Armillaria ostoyae, einem der größten und ältesten Organismen der Erde, produziert werden. Dazu verwendeten wir Extrakte aus flüssiger und fester Kulturführung. Die Studie führte zur Isolierung und Identifikation von drei neuartigen dimeren Bismelleoliden (1–3) und drei neuen fettsäuresubstituierten Kongeneren (4–6) sowie 11 neuen (7–17) und 21 bekannten (18–38) Derivaten. Die Strukturaufklärung erfolgte durch 1D‐ und 2D NMR‐Spektroskopie, HRESI‐MS‐Daten und Analyse der ROESY‐Spektren für relative Konfigurationen. Absolute Konfigurationen wurden durch den Vergleich von Kristallstrukturen und ECD‐Spektren bestimmt. Eine Substanzbibliothek von Melleolid‐Meroterpenoiden ermöglichte eine Metabolomik‐Studie und zeigte Produktionsmuster unter verschiedenen Kulturbedingungen auf. Unter Verwendung dieser Substanzbibliothek wurden die antimikrobiellen und zytotoxischen Aktivitäten der hierin beschriebenen Substanzen untersucht und gezeigt, dass eine Δ2,4‐Doppelbindung nicht entscheidend für die antimykotische Aktivität ist. Die Zytotoxizität war hingegen an das Vorhandensein eines Aldehyds an C‐1 gebunden, ging jedoch durch eine Hydroxylierung an C‐13 verloren. Chemoinformatische Untersuchungen zeigten das komplexe Zusammenspiel zwischen chemischen Modifikationen und biologischen Eigenschaften. Diese Studie stellt die erste systematische Untersuchung der Vielfalt von Meroterpenoiden aus Armillaria spp. mittels MS‐basierter, nicht‐gezielter Metabolomik dar und bietet Einblicke in die Struktur‐Aktivitäts‐Beziehungen dieser Substanzklasse durch innovative Chemoinformatische Ansätze. [ABSTRACT FROM AUTHOR]

Published

2024

7. Variable, life stage-dependent mycorrhizal specificity and its developmental consequences in the fully myco-heterotrophic orchid Cyrtosia septentrionalis.

Author

Hidetaka Umata, Gale, Stephan W., Kenji Suetsugu, and Yuko Ota

Subjects

*ORCHIDS, *MYCORRHIZAL fungi, *SEEDS

Abstract

The degree of specificity between fully myco-heterotrophic (MH) orchids and mycorrhizal fungi is regarded as high, but some species undergo a mycobiont shift as they transition from juvenile to adult plant. We investigated morphological and physiological aspects of the interaction between the fully MH Cyrtosia septentrionalis and its four known mycobionts to elucidate developmental consequences of variable, life-stage-dependent specificity. Of five randomly sampled germinated seeds co-cultured with each mycobiont, Physisporinus sp. 'TK-10' colonized all, Armillaria gallica and Desarmillaria tabescens colonized one, and A. mellea subsp. nipponica colonized none. Whereas 16.2% of aseptically germinated seeds exhibited onward growth when co-cultured with TK-10, just 1.5-2.6% did so with the other species. Even so, A. gallica colonized and formed internal rhizomorphs within rhizomes established with TK-10, suggesting that this mycobiont can replace and potentially can oust the latter. We infer that the orchid can associate with Armillaria and Desarmillaria mycobionts throughout its life, but that TK-10 enhances early growth. However, because TK-10 has a higher wood-rotting capacity than A. gallica, rapid resource exhaustion may cause nutrient supply shortages. We hypothesize that secondary colonization by Armillaria or Desarmillaria species triggers TK-10 displacement and that this mycobiont shift sustains orchid growth for longer. [ABSTRACT FROM AUTHOR]

Published

2024

8. The role of symbiotic fungi in the life cycle of Gastrodia elata Blume (Orchidaceae): a comprehensive review.

Author

Jia-Jia Liu, Xiao-Qi Yang, Zong-Yang Li, Jia-Yun Miao, Shi-Bo Li, Wen-Ping Zhang, Yi-Cen Lin, and Lian-Bing Lin

Subjects

LIFE cycles (Biology), ORCHIDS, GERMINATION, FUNGI, PLANT-fungus relationships, METABOLITES, HERBS

Abstract

Gastrodia elata Blume, a fully mycoheterotrophic perennial plant of the family Orchidaceae, is a traditional Chinese herb with medicinal and edible value. Interestingly, G. elata requires symbiotic relationships with Mycena and Armillaria strains for seed germination and plant growth, respectively. However, there is no comprehensive summary of the symbiotic mechanism between fungi and G. elata. Here, the colonization and digestion of hyphae, the bidirectional exchange of nutrients, the adaptation of fungi and G. elata to symbiosis, and the role of microorganisms and secondary metabolites in the symbiotic relationship between fungi and G. elata are summarized. We comprehensively and deeply analyzed the mechanism of symbiosis between G. elata and fungi from three perspectives: morphology, nutrition, and molecules. The aim of this review was to enrich the understanding of the mutualistic symbiosis mechanisms between plants and fungi and lay a theoretical foundation for the ecological cultivation of G. elata. [ABSTRACT FROM AUTHOR]

Published

2024

9. Two distinct non-ribosomal peptide synthetase-independent siderophore synthetase gene clusters identified in Armillaria and other species in the Physalacriaceae.

Author

Mensah, Deborah L. Narh, Wingfield, Brenda D., and Coetzee, Martin P. A.

Subjects

*PEPTIDES, *GENE clusters, *IRON in the body, *COMPARATIVE method, *PHYTOPATHOGENIC microorganisms, *GLUTAMINE synthetase, *RIBOSOMAL DNA, *NEUROPEPTIDES

Abstract

Siderophores are important for ferric iron solubilization, sequestration, transportation, and storage, especially under iron-limiting conditions such as aerobic conditions at high pH. Siderophores are mainly produced by non-ribosomal peptide synthetase-dependent siderophore pathway, non-ribosomal peptide synthetase-independent siderophore synthetase pathway, or the hybrid non-ribosomal peptide synthetases/non-ribosomal peptide synthetases-independent siderophore pathway. Outcompeting or inhibition of plant pathogens, alteration of host defense mechanisms, and alteration of plant-fungal interactions have been associated with fungal siderophores. To understand these mechanisms in fungi, studies have been conducted on siderophore biosynthesis by ascomycetes with limited focus on the basidiomycetes. Armillaria includes several species that are pathogens of woody plants and trees important to agriculture, horticulture, and forestry. The aim of this study was to investigate the presence of non-ribosomal peptide synthetases-independent siderophore synthetase gene cluster(s) in genomes of Armillaria species using a comparative genomics approach. Iron-dependent growth and siderophore biosynthesis in strains of selected Armillaria spp. were also evaluated in vitro. Two distinct non-ribosomal peptide synthetases-independent siderophore synthetase gene clusters were identified in all the genomes. All non-ribosomal peptide synthetases-independent siderophore synthetase genes identified putatively encode Type A' non-ribosomal peptide synthetases-independent siderophore synthetases, most of which have IucA_IucC and FhuF-like transporter domains at their N- and C-terminals, respectively. The effect of iron on culture growth varied among the strains studied. Bioassays using the CAS assay on selected Armillaria spp. revealed in vitro siderophore biosynthesis by all strains irrespective of added FeCl3 concentration. This study highlights some of the tools that Armillaria species allocate to iron homeostasis. The information generated from this study may in future aid in developing molecular based methods to control these phytopathogens. [ABSTRACT FROM AUTHOR]

Published

2023

10. Whole genome sequencing and analysis of Armillaria gallica Jzi34 symbiotic with Gastrodia elata

Author

Jinlong Cai, Ikram Muhammad, Bilian Chen, Peng Xu, Yiguo Li, Huini Xu, and Kunzhi Li

Subjects

Armillaria, Gastrodia elata, Symbionts, Genome, Molecular mechanism, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Armillaria species are plant pathogens, but a few Armillaria species can establish a symbiotic relationship with Gastrodia elata, a rootless and leafless orchid, that is used as a Chinese herbal medicine. Armillaria is a nutrient source for the growth of G. elata. However, there are few reports on the molecular mechanism of symbiosis between Armillaria species and G. elata. The genome sequencing and analysis of Armillaria symbiotic with G. elata would provide genomic information for further studying the molecular mechanism of symbiosis. Results The de novo genome assembly was performed with the PacBio Sequel platform and Illumina NovaSeq PE150 for the A. gallica Jzi34 strain, which was symbiotic with G. elata. Its genome assembly contained ~ 79.9 Mbp and consisted of 60 contigs with an N50 of 2,535,910 bp. There were only 4.1% repetitive sequences in the genome assembly. Functional annotation analysis revealed a total of 16,280 protein coding genes. Compared with the other five genomes of Armillaria, the carbohydrate enzyme gene family of the genome was significantly contracted, while it had the largest set of glycosyl transferase (GT) genes. It also had an expansion of auxiliary activity enzymes AA3-2 gene subfamily and cytochrome P450 genes. The synteny analysis result of P450 genes reveals that the evolutionary relationship of P450 proteins between A. gallica Jzi34 and other four Armillaria was complex. Conclusions These characteristics may be beneficial for establishing a symbiotic relationship with G. elata. These results explore the characteristics of A. gallica Jzi34 from a genomic perspective and provide an important genomic resource for further detailed study of Armillaria. This will help to further study the symbiotic mechanism between A. gallica and G. elata.

Published

2023

11. Identification, ecology and function of Armillaria species on oak trees in the Forest of Dean

Author

Diggens, Mallory, McDonald, James, and Hale, Michael

Subjects

579.6, Armillaria, Forest of Dean, Fungi, plant pathology, tree health

Abstract

Armillaria is a genus of filamentous fungi within the phylum Basidiomycota, and comprises 40 species. Species are found globally in both temperate and tropical regions, with some species having a limited geographical range whist others are more widespread. As as soil-borne fungus, Armillaria spp. can act as saprophytes/parasites or pathogens, depending on host species and substrate availability. As a phytopathogen, Armillaria is a facultative necrotroph, causing necrosis of the living tree tissue of a variety of host species. Tree declines arise from a combination of biotic and abiotic factors. In oak, Armillaria species are one of those biotic factors, acting either as primary or secondary pathogens. The events that lead to decline act sequentially, or in parallel, and are often unknown, and Armillaria infection is assumed to occur after a primary pathogen or predisposing factor. However, the function of Armillaria species within oak declines is poorly understood, and in particular, it’s activity as a saprophyte or pathogen of oak has barely been studied. In this work, a combination of isolation studies, molecular identification, rapid diagnostic development, field-based analyses on the ecology and interactions of Armillaria with oak, and contemporary metatranscriptome sequencing was applied to characterise the role of Armillaria spp. in oak declines. First, methodological approaches were optimised for the rapid isolation and growth of Armillaria spp., and subsequent DNA extraction, inhibitor removal and PCR- based analysis of Armillaria phylogenetic marker genes. These approaches formed the basis for the development and validation of a High Resolution Melt curve (HRM)-based rapid diagnostic for Armillaria spp. Subsequently, these approaches were applied in an ecological study of the interactions of Armillaria spp. with native oak in Chestnuts Wood, Forest of Dean, where Armillaria spp. are having a significant impact on tree health. A. gallica was the only species isolated from the study site and was observed as both a pathogen and saprophyte of oak trees, colonising both asymptomatic and symptomatic oak trees. Symptomatic trees were shown to have less buttress roots than asymptomatic trees, which is a potential predisposing factor to disease that could represent a quick tool to identify at risk trees. Soils within 1 m of symptomatic tree were shown to have significantly greater moisture content, suggesting that Armillaria infection induced root malfunction and reduced the trees ability for water uptake. RNAseq analysis identified significantly up-regulated Armillaria genes associated with fungal pathogenesis in symptomatic tree lesions; CP protein, serpin, and Ubiquitin (although one ubiquitin homologue was down-regulated). This work has highlighted that Armillaria acts as a pathogen on trees at this site, and the severity of infection varies. Manion (1981) described the decline disease model, where the cumulative effect of biotic and abiotic factors causes a decline spiral that amplifies disease. The data from this thesis support this model, highlighting a continuum of tree health status from asymptomatic to symptomatic. The presence of A. gallica on asymptomatic trees also indicates that it is broadly distributed and associated with oak at this site, as both saprophytes and pathogens. It is unclear whether there are separate saprophytic and pathogenic Armillaria strains present on the site, or if the switch to pathogenesis is triggered by abiotic and biotic cues.

Published

2020

12. Effect of symbiotic fungi-Armillaria gallica on the yield of Gastrodia elata Bl. and insight into the response of soil microbial community.

Author

Yanhong Wang, Jiao Xu, Qingsong Yuan, Lanping Guo, Chenghong Xiao, Changgui Yang, Liangyuan Li, Weike Jiang, and Tao Zhou

Subjects

MICROBIAL communities, SOIL microbial ecology, SOIL biology, FUNGAL communities, BACTERIAL communities, SOILS

Abstract

Armillaria members play important roles in the nutrient supply and growth modulation of Gastrodia elata Bl., and they will undergo severe competition with native soil organisms before colonization and become symbiotic with G. elata. Unraveling the response of soil microbial organisms to symbiotic fungi will open up new avenues to illustrate the biological mechanisms driving G. elata's benefit from Armillaria. For this purpose, Armillaria strains from four main G. elata production areas in China were collected, identified, and co-planted with G. elata in Guizhou Province. The result of the phylogenetic tree indicated that the four Armillaria strains shared the shortest clade with Armillaria gallica. The yields of G. elata were compared to uncover the potential role of these A. gallica strains. Soil microbial DNA was extracted and sequenced using Illumina sequencing of 16S and ITS rRNA gene amplicons to decipher the changes of soil bacterial and fungal communities arising from A. gallica strains. The yield of G. elata symbiosis with the YN strain (A. gallica collected from Yunnan) was four times higher than that of the GZ strain (A. gallica collected from Guizhou) and nearly two times higher than that of the AH and SX strains (A. gallica collected from Shanxi and Anhui). We found that the GZ strain induced changes in the bacterial community, while the YN strain mainly caused changes in the fungal community. Similar patterns were identified in non-metric multidimensional scaling analysis, in which the GZ strain greatly separated from others in bacterial structure, while the YN strain caused significant separation from other strains in fungal structure. This current study revealed the assembly and response of the soil microbial community to A. gallica strains and suggested that exotic strains of A. gallica might be helpful in improving the yield of G. elata by inducing changes in the soil fungal community. [ABSTRACT FROM AUTHOR]

Published

2023

13. 我国八种蜜环菌的木腐特性.

Author

王传华, 杨惠麟, 曾玉洁, 王业红, and 彭洪林

Subjects

HEMICELLULOSE, BROWN rot, WOOD-decaying fungi, CARBON cycle, LIGNOCELLULOSE, WOOD, SULFURIC acid

Abstract

Copyright of Mycosystema is the property of Mycosystema Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

14. An exploration of mechanism of high quality and yield of Gastrodia elata Bl. f. glauca by the isolation, identification and evaluation of Armillaria

Author

En Yu, Yugang Gao, Yaqi Li, Pu Zang, Yan Zhao, and Zhongmei He

Subjects

Gastrodia elata Bl. f. glauca S. chow, Armillaria, Separation and identification, Nutrition elements, Microbial diversity, Botany, QK1-989

Abstract

Abstract Background Gastrodia elata Bl. f. glauca, a perennial herb of G.elata Bl. in Orchidaceae, is one of the most valuable traditional Chinese medicines. G. elata Bl. is a chlorophyll-free myco-heterotrophic plant, which must rely on the symbiotic growth of Armillaria, but not all Armillaria strains can play the symbiotic role. Additionally, Armillaria is easy to degenerate after multiple generations, and the compatibility between the strains from other areas and G. elata Bl. f. glauca in Changbai Mountain is unstable. Therefore, it is incredibly significant to isolate, identify and screen the symbiotic Armillaria suitable for the growth of G. elata Bl. f. glauca in Changbai Mountain, and to explore the mechanism by which Armillaria improves the production performance of G. elata Bl. f. glauca. Results Firstly, G. elata Bl. f. glauca tubers, and rhizomorphs and fruiting bodies of Armillaria were used for the isolation and identification of Armillaria. Five Armillaria isolates were obtained in our laboratory and named: JMG, JMA, JMB, JMC and JMD. Secondly, Armillaria was selected based on the yield and the effective component content of G. elata Bl. f. glauca. It was concluded that the yield and quality of G. elata Bl. f. glauca co-planted with JMG is the highest. Finally, the mechanism of its high quality and yield was explored by investigating the effects of different Armillaria strains on the soil, its nutrition element contents and the soil microbial diversity around G. elata Bl. f. glauca in Changbai Mountain. Conclusions Compared with commercial strains, JMG significantly increased the content of Na, Al, Si, Mn, Fe, Zn, Rb and the absorption of C, Na, Mg, Ca, Cr, Cu, Zn and Rb in G. elata Bl. f. glauca; it improved the composition, diversity and metabolic functions of soil microbial communities around G. elata Bl. f. glauca at phylum, class and genus levels; it markedly increased the relative abundance of bacteria such as Chthoniobacter and Armillaria in the dominant populations, and enhanced such functions as Cell motility, amino acid metabolism and Lipid metabolism; it dramatically decreased the relative abundance of Bryobacter and other fungi in the dominant populations, and reduced such functions as microbial energy metabolism, translation and carbohydrate metabolism. This is the main reason why excellent Armillaria strains promote the high quality and yield of G. elata Bl. f. glauca in Changbai Mountain.

Published

2022

15. Whole genome sequencing and analysis of Armillaria gallica Jzi34 symbiotic with Gastrodia elata.

Author

Cai, Jinlong, Muhammad, Ikram, Chen, Bilian, Xu, Peng, Li, Yiguo, Xu, Huini, and Li, Kunzhi

Subjects

*WHOLE genome sequencing, *SEQUENCE analysis, *CYTOCHROME P-450, *PHYTOPATHOGENIC microorganisms, *NUCLEOTIDE sequencing, *HERBAL medicine, *GENE families

Abstract

Background: Armillaria species are plant pathogens, but a few Armillaria species can establish a symbiotic relationship with Gastrodia elata, a rootless and leafless orchid, that is used as a Chinese herbal medicine. Armillaria is a nutrient source for the growth of G. elata. However, there are few reports on the molecular mechanism of symbiosis between Armillaria species and G. elata. The genome sequencing and analysis of Armillaria symbiotic with G. elata would provide genomic information for further studying the molecular mechanism of symbiosis. Results: The de novo genome assembly was performed with the PacBio Sequel platform and Illumina NovaSeq PE150 for the A. gallica Jzi34 strain, which was symbiotic with G. elata. Its genome assembly contained ~ 79.9 Mbp and consisted of 60 contigs with an N50 of 2,535,910 bp. There were only 4.1% repetitive sequences in the genome assembly. Functional annotation analysis revealed a total of 16,280 protein coding genes. Compared with the other five genomes of Armillaria, the carbohydrate enzyme gene family of the genome was significantly contracted, while it had the largest set of glycosyl transferase (GT) genes. It also had an expansion of auxiliary activity enzymes AA3-2 gene subfamily and cytochrome P450 genes. The synteny analysis result of P450 genes reveals that the evolutionary relationship of P450 proteins between A. gallica Jzi34 and other four Armillaria was complex. Conclusions: These characteristics may be beneficial for establishing a symbiotic relationship with G. elata. These results explore the characteristics of A. gallica Jzi34 from a genomic perspective and provide an important genomic resource for further detailed study of Armillaria. This will help to further study the symbiotic mechanism between A. gallica and G. elata. [ABSTRACT FROM AUTHOR]

Published

2023

16. Research Status and Application Prospects of the Medicinal Mushroom Armillaria mellea.

Author

Ren, Sizhu, Gao, Yiping, Li, Hui, Ma, Honghong, Han, Xiaoling, Yang, Zitong, and Chen, Wenjie

Abstract

Armillaria is one of the most common diseases underlying chronic root rot in woody plants. Although there is no particularly effective way to prevent it, soil disinfection is a common effective protective measure. However, Armillaria itself has important medicinal value and is a symbiotic fungus in the cultivation of Gastrodia elata and Polyporus umbellatus. Therefore, researching Armillaria is of great practical significance. In this review, the biological characteristics, cultivation methods, chemical components, food and medicinal value and efficacy of Armillaria were all reviewed, and its development and utilization direction were analyzed and discussed. [ABSTRACT FROM AUTHOR]

Published

2023

17. VLIV MYKORHIZNÍHO PŘÍPRAVKU A HNOJIVA NA RŮST A NAPADENÍ SAZENIC SMRKU ZTEPILÉHO VÁCLAVKAMI.

Author

Lorenc, František, Lubojacký, Jan, and Tonka, Tomáš

Subjects

AUTUMN, ECTOMYCORRHIZAL fungi, SILVER fir, FOREST protection, VACCINATION, NORWAY spruce

Abstract

On Norway spruce (Picea abies L. [H.] Karst.) seedlings, influence of three treatments – (i) inoculation with Ectovit® preparation containing ectomycorrhizal fungi (INOCULATION), (ii) Ectovit® + Conavit® fertilizer (INOCULATION + FERTILIZATION), and (iii) untreated group (CONTROL) – were evaluated in this study. In autumn 2021 (3.5 years after inoculation), 100 seedlings/treatment (300 seedlings in total) were sampled to evaluate seedlings survival percentage and growth characteristics, and 10 live seedlings/treatment (30 seedlings in total) to evaluate dry weight and the number of seedlings with Armillaria rhizomorphs. By relating these values to the previous evaluation (autumn 2019), values for period autumn 2019 – autumn 2021 were obtained for statistical analyses. Increment of the seedling height, increment of the root collar diameter and increment of the seedling aboveground dry weight were significantly higher in INOCULATION compared to INOCULATION + FERTILIZATION, the first and second named variables were also significantly higher in INOCULATION compared to CONTROL. There were no significant differences in seedlings survival percentage nor number of seedlings with Armillaria rhizomorphs (all identified as Armillaria ostoyae [Romagn.] Herink). Contrary to the previous evaluation (1.5 years after inoculation), the protective effect of artificial ectomycorrhizal inoculation against infection of seedling by honey fungus was not confirmed. [ABSTRACT FROM AUTHOR]

Published

2023

18. 中国东北长白山蜜环菌属真菌挥发性成分分析.

Author

杨莉, 牛丽君, 于文杰, 邓伦莎, 叶丽, 吴秀玲, 何小稳, and 范宇光

Subjects

GAS chromatography/Mass spectrometry (GC-MS), HETEROCYCLIC compounds, CLUSTER analysis (Statistics), SPECTROMETRY, KETONES

Abstract

Copyright of Mycosystema is the property of Mycosystema Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

19. 中国东北地区三种蜜环菌的生物学特性及奥氏蜜 环菌人工培养.

Author

陈鹏, 宋佳, 郭璞, and 冀瑞卿

Subjects

POTASSIUM dihydrogen phosphate, FRUITING bodies (Fungi), MAGNESIUM sulfate, WOOD waste, STRAIN rate

Abstract

Copyright of Mycosystema is the property of Mycosystema Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

20. An exploration of mechanism of high quality and yield of Gastrodia elata Bl. f. glauca by the isolation, identification and evaluation of Armillaria.

Author

Yu, En, Gao, Yugang, Li, Yaqi, Zang, Pu, Zhao, Yan, and He, Zhongmei

Subjects

*CALCIUM metabolism, *MICROBIAL metabolism, *AMINO acid metabolism, *CARBOHYDRATE metabolism, *CHINESE medicine, *ENERGY metabolism, *LIPID metabolism

Abstract

Background: Gastrodia elata Bl. f. glauca, a perennial herb of G.elata Bl. in Orchidaceae, is one of the most valuable traditional Chinese medicines. G. elata Bl. is a chlorophyll-free myco-heterotrophic plant, which must rely on the symbiotic growth of Armillaria, but not all Armillaria strains can play the symbiotic role. Additionally, Armillaria is easy to degenerate after multiple generations, and the compatibility between the strains from other areas and G. elata Bl. f. glauca in Changbai Mountain is unstable. Therefore, it is incredibly significant to isolate, identify and screen the symbiotic Armillaria suitable for the growth of G. elata Bl. f. glauca in Changbai Mountain, and to explore the mechanism by which Armillaria improves the production performance of G. elata Bl. f. glauca. Results: Firstly, G. elata Bl. f. glauca tubers, and rhizomorphs and fruiting bodies of Armillaria were used for the isolation and identification of Armillaria. Five Armillaria isolates were obtained in our laboratory and named: JMG, JMA, JMB, JMC and JMD. Secondly, Armillaria was selected based on the yield and the effective component content of G. elata Bl. f. glauca. It was concluded that the yield and quality of G. elata Bl. f. glauca co-planted with JMG is the highest. Finally, the mechanism of its high quality and yield was explored by investigating the effects of different Armillaria strains on the soil, its nutrition element contents and the soil microbial diversity around G. elata Bl. f. glauca in Changbai Mountain. Conclusions: Compared with commercial strains, JMG significantly increased the content of Na, Al, Si, Mn, Fe, Zn, Rb and the absorption of C, Na, Mg, Ca, Cr, Cu, Zn and Rb in G. elata Bl. f. glauca; it improved the composition, diversity and metabolic functions of soil microbial communities around G. elata Bl. f. glauca at phylum, class and genus levels; it markedly increased the relative abundance of bacteria such as Chthoniobacter and Armillaria in the dominant populations, and enhanced such functions as Cell motility, amino acid metabolism and Lipid metabolism; it dramatically decreased the relative abundance of Bryobacter and other fungi in the dominant populations, and reduced such functions as microbial energy metabolism, translation and carbohydrate metabolism. This is the main reason why excellent Armillaria strains promote the high quality and yield of G. elata Bl. f. glauca in Changbai Mountain. [ABSTRACT FROM AUTHOR]

Published

2022

21. Characteristics and functions of volatile organic compounds in the tripartite symbiotic system of Gastrodia elata-Armillaria gallica-Rahnella aceris HPDA25.

Author

Zhang Y, Liu T, Nan T, Hua Z, Zhao Y, and Yuan Y

Subjects

Symbiosis physiology, Volatile Organic Compounds metabolism, Gastrodia microbiology, Gastrodia metabolism, Gastrodia genetics, Armillaria metabolism, Armillaria genetics

Abstract

Tripartite interactions among plants, fungi, and bacteria are critical for maintaining plant growth and fitness, and volatile organic compounds (VOCs) play a significant role in these interactions. However, the functions of VOCs within the niche of mycoheterotrophic plants, which represent unique types of interactions, remain poorly understood. Gastrodia elata , a mycoheterotrophic orchid species, forms a symbiotic relationship with specific Armillaria species, serving as a model system to investigate this intriguing issue. Rahnella aceris HPDA25 is a plant growth-promoting bacteria isolated from G. elata , which has been found to facilitate the establishment of G. elata-Armillaria symbiosis. In this study, using the tripartite symbiotic system of G. elata-Armillaria gallica-R. aceris HPDA25, we investigate the role of VOCs in the interaction among mycoheterotrophic plants, fungi, and bacteria. Our results showed that 33 VOCs of HPDA25-inducible symbiotic G. elata elevated compared to non-symbiotic G. elata , indicating that VOCs indeed play a role in the symbiotic process. Among these, 21 VOCs were accessible, and six active VOCs showed complete growth inhibition activities against A. gallica , while R. aceris HPDA25 had no significant effect. In addition, three key genes of G. elata have been identified that may contribute to the increased concentration of six active VOCs. These results revealed for the first time the VOCs profile of G. elata and demonstrated its regulatory role in the tripartite symbiotic system involving G. elata , Armillaria , and bacteria.

Published

2024

22. Fire-associated microbial shifts in soils of western conifer forests with Armillaria root disease.

Author

Fitz Axen AJ, Kim M-S, Klopfenstein NB, Ashiglar S, Hanna JW, Bennett P, and Stewart JE

Subjects

Tracheophyta microbiology, Idaho, Fires, Wildfires, Soil Microbiology, Armillaria, Forests, Plant Roots microbiology, Plant Diseases microbiology, Bacteria classification, Bacteria isolation & purification, Bacteria genetics, Microbiota

Abstract

Fires in coniferous forests throughout the northern United States alter ecosystem processes and ecological communities, including the diversity and composition of microbial communities living in the soil. In addition to its influence on ecosystem processes and functions, the soil microbiome can interact with soilborne pathogens to facilitate or suppress plant disease development. Altering the microbiome composition to promote taxa that inhibit pathogenic activity has been suggested as a management strategy for forest diseases, including Armillaria root disease caused by Armillaria solidipes , which causes growth loss and mortality of conifers. These forest ecosystems are experiencing increased wildfire burn severity that could influence A. solidipes activity and interactions of the soil microbiome with Armillaria root disease. In this research, we examine changes to the soil microbiome following three levels of burn severity in a coniferous forest in northern Idaho, United States, where Armillaria root disease is prevalent. We further determine how these changes correspond to the soil microbiomes associated with the pathogen A. solidipes, and a putatively beneficial species, A. altimontana . At 15-months post-fire, we found significant differences in richness and diversity between bacterial communities associated with unburned and burned areas, yet no significant changes to these metrics were found in fungal communities following fire. However, both bacterial and fungal communities showed compositional changes associated with burn severity, including microbial taxa with altered relative abundance. Further, significant differences in the relative abundance of certain microbial taxa in communities associated with the three burn severity levels overlapped with taxa associated with various Armillaria spp. Following severe burn, we observed a decreased relative abundance of beneficial ectomycorrhizal fungi associated with the microbial communities of A. altimontana, which may contribute to the antagonistic activity of this soil microbial community. Additionally, A. solidipes and associated microbial taxa were found to dominate following high-severity burns, suggesting that severe fires provide suitable environmental conditions for these species. Overall, our results suggest that shifts in the soil microbiome and an associated increase in the activity of A. solidipes following high-severity burns in similar conifer forests may result in priority areas for monitoring and proactive management of Armillaria root disease., Importance: With its influence on ecosystem processes and functions, the soil microbiome can interact with soilborne pathogens to facilitate or suppress plant disease development. These forest ecosystems are experiencing increased wildfire frequency and burn severity that could influence the fungal root pathogen, Armillaria solidipes , and interactions with the soil microbiome. We examined changes to the soil microbiome following three levels of burn severity, and examined how these changes correspond with A. solidipes , and a putatively beneficial species, A. altimontana . Following severe burn, there was a decreased relative abundance of ectomycorrhizal fungi associated A. altimontana . A. solidipes and associated microbial taxa dominated following high-severity burns, suggesting that severe fires provide suitable environmental conditions for these species. Our results suggest that shifts in the soil microbiome and an associated increase in the activity of A. solidipes following high-severity burns in conifer forests may result in priority areas for monitoring and proactive management of Armillaria root disease., Competing Interests: The authors declare no conflict of interest.

Published

2024

23. Genome expansion and lineage-specific genetic innovations in the forest pathogenic fungi Armillaria

Author

Sipos, György, Prasanna, Arun N, Walter, Mathias C, O’Connor, Eoin, Bálint, Balázs, Krizsán, Krisztina, Kiss, Brigitta, Hess, Jaqueline, Varga, Torda, Slot, Jason, Riley, Robert, Bóka, Bettina, Rigling, Daniel, Barry, Kerrie, Lee, Juna, Mihaltcheva, Sirma, LaButti, Kurt, Lipzen, Anna, Waldron, Rose, Moloney, Nicola M, Sperisen, Christoph, Kredics, László, Vágvölgyi, Csaba, Patrignani, Andrea, Fitzpatrick, David, Nagy, István, Doyle, Sean, Anderson, James B, Grigoriev, Igor V, Güldener, Ulrich, Münsterkötter, Martin, and Nagy, László G

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Human Genome, Armillaria, Fungal Proteins, Genome, Fungal, Proteomics, Sequence Analysis, RNA, Species Specificity, Transcriptome, Ecology, Evolutionary biology, Environmental management

Abstract

Armillaria species are both devastating forest pathogens and some of the largest terrestrial organisms on Earth. They forage for hosts and achieve immense colony sizes via rhizomorphs, root-like multicellular structures of clonal dispersal. Here, we sequenced and analysed the genomes of four Armillaria species and performed RNA sequencing and quantitative proteomic analysis on the invasive and reproductive developmental stages of A. ostoyae. Comparison with 22 related fungi revealed a significant genome expansion in Armillaria, affecting several pathogenicity-related genes, lignocellulose-degrading enzymes and lineage-specific genes expressed during rhizomorph development. Rhizomorphs express an evolutionarily young transcriptome that shares features with the transcriptomes of both fruiting bodies and vegetative mycelia. Several genes show concomitant upregulation in rhizomorphs and fruiting bodies and share cis-regulatory signatures in their promoters, providing genetic and regulatory insights into complex multicellularity in fungi. Our results suggest that the evolution of the unique dispersal and pathogenicity mechanisms of Armillaria might have drawn upon ancestral genetic toolkits for wood-decay, morphogenesis and complex multicellularity.

Published

2017

24. 北方蜜环菌菌索生长、发育对环境氧气及土壤湿 度的响应 .

Author

曾玉洁, 王业红, 谭涛, and 王传华

Subjects

PHYTOPATHOGENIC microorganisms, SOIL formation, HUMIDITY, TEST design, SOILS

Abstract

Copyright of Mycosystema is the property of Mycosystema Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

25. Mycorrhizosphere Bacteria, Rahnella sp. HPDA25, Promotes the Growth of Armillaria gallica and Its Parasitic Host Gastrodia elata.

Author

Liu, Tianrui, Hua, Zhongyi, Han, Pengjie, Zhao, Yuyang, Zhou, Junhui, Jin, Yan, Li, Xiaolin, Huang, Luqi, and Yuan, Yuan

Subjects

PECTINESTERASE, SHIFTING cultivation, SOIL sampling, POLYMERASE chain reaction, TUBERS, LIQUID chromatography

Abstract

Gastrodia elata is an entirely heterotrophic plant, the growth of which is completely reliant on Armillaria gallica , an orchid mycorrhizal fungus. To avoid damaging ecosystems, G. elata cultivation is shifting from woodland to farmland. However, whether the microbial community structure remains stable during this conversation is unknown. Here, we cultivated G. elata in woodland or farmland and found that woodland-cultivated G. elata produced a greater yield and larger tuber size. The relative abundance of Rahnella was 22.84- and 122.25-fold higher in woodland- and farmland-cultivated soil samples, respectively, than that in uncultivated soil samples. To investigate how Rahnella impacts the growth of G. elata and establishes symbiosis with Armillaria gallica , three Rahnella spp. strains (HPDA25, SBD3, and SBD11) were isolated from mycorrhizosphere soil samples. It was found that these strains, especially HPDA25, promoted the growth of A. gallica. Ultra-performance liquid chromatography coupled to a triple quadrupole mass spectrometry analysis detected the indole-3-acetic acid with 16.24 ng/ml in HPDA25 fermentation solution. Co-culturing with the strain HPDA25 or exogenous indole-3-acetic acid increased the branching and fresh weight of rhizomorphs and the growth rate and extracellular laccase activity of A. gallica , compared with A. gallica cultured alone. The results of RNA-seq and quantitative real-time polymerase chain reaction analysis showed that co-culturing A. gallica with HPDA25 increased the expression level of the genes including hydrophobin, SUR7/PalI family, and pectin methylesterase, whereas decreased the expression levels of glycolysis-related genes. Furthermore, co-culturing with the strain HPDA25, A. gallica promotes the growth of G. elata and enhances the tuber size of G. elata. These results provide new insights into an orchid mycorrhizal symbiosis and the cultivation of G. elata. [ABSTRACT FROM AUTHOR]

Published

2022

26. Differentiating individuals of Armillaria species in New Zealand forests.

Author

Dodd, Sarah, Shah, Farhat, Kimberley, Mark, Somchit, Chanatda, and Hood, Ian

Subjects

FORESTS & forestry, ARMILLARIA, FUNGAL populations, PLANTATIONS, ROOT diseases

Abstract

Background: Armillaria novae-zelandiae and A. limonea occur naturally as wood decay fungi in native forests in New Zealand. As pathogens they are responsible for significant root disease in trees and shrubs in plantations, crops and urban parks and gardens. A thorough understanding of their population dynamics entails knowledge of the spatial arrangement of their individual mycelia or genets. In previous work the distributions of vegetative compatibility groups (VCGs) of these fungi were mapped in an area of native forest prior to and after replacement by a young Pinus radiata plantation. With the advent of molecular technology, it has become possible to test species identities made earlier using culture techniques and to verify whether or not their VCGs, determined by incompatibility reactions between paired cultures, represent distinct individual genets. Methods: Stock subcultures of isolates representing each VCG were recovered from storage in order to obtain DNA. Extracted DNA was subjected to a polymerase chain reaction procedure (UP-PCR) using 11 universal primers to assess genetic variation between subcultures. Bands were scored as either present or absent for each primer-subculture combination and cluster analysis was undertaken by generating dendrogram trees to reveal genetic groupings among subcultures. Results: DNA cluster analysis divided subcultures of isolates into two species groups, A. novae-zelandiae and A. limonea, corresponding to identities determined through culture morphology. Within species, subcultures grouped into clusters that matched VCGs determined by earlier culture pairing. There was little indication of genetic variation within VCGs, except for one of A. limonea, which comprised two sub-clusters. Conclusions: The Armillaria species and VCGs identified by culture techniques in the laboratory were verified by independent molecular methodology. In general, the VCGs represent discrete individual genets or colonies in the field. Techniques that differentiate isolates based on differences in their DNA sequence provide a quick alternative to time- consuming laboratory culture methods for resolving population spatial structure. However, some complementary isolate pairing may be necessary when rationalising the significance of groupings in dendrogram trees [ABSTRACT FROM AUTHOR]

Published

2022

27. De novo sequencing, assembly and functional annotation of Armillaria borealis genome

Author

Vasilina S. Akulova, Vadim V. Sharov, Anastasiya I. Aksyonova, Yuliya A. Putintseva, Natalya V. Oreshkova, Sergey I. Feranchuk, Dmitry A. Kuzmin, Igor N. Pavlov, Yulia A. Litovka, and Konstantin V. Krutovsky

Subjects

Annotation, Armillaria, De novo sequencing, Fungal forest pathogen, Genome, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Massive forest decline has been observed almost everywhere as a result of negative anthropogenic and climatic effects, which can interact with pests, fungi and other phytopathogens and aggravate their effects. Climatic changes can weaken trees and make fungi, such as Armillaria more destructive. Armillaria borealis (Marxm. & Korhonen) is a fungus from the Physalacriaceae family (Basidiomycota) widely distributed in Eurasia, including Siberia and the Far East. Species from this genus cause the root white rot disease that weakens and often kills woody plants. However, little is known about ecological behavior and genetics of A. borealis. According to field research data, A. borealis is less pathogenic than A. ostoyae, and its aggressive behavior is quite rare. Mainly A. borealis behaves as a secondary pathogen killing trees already weakened by other factors. However, changing environment might cause unpredictable effects in fungus behavior. Results The de novo genome assembly and annotation were performed for the A. borealis species for the first time and presented in this study. The A. borealis genome assembly contained ~ 68 Mbp and was comparable with ~ 60 and ~ 79.5 Mbp for the A. ostoyae and A. mellea genomes, respectively. The N50 for contigs equaled 50,544 bp. Functional annotation analysis revealed 21,969 protein coding genes and provided data for further comparative analysis. Repetitive sequences were also identified. The main focus for further study and comparative analysis will be on the enzymes and regulatory factors associated with pathogenicity. Conclusions Pathogenic fungi such as Armillaria are currently one of the main problems in forest conservation. A comprehensive study of these species and their pathogenicity is of great importance and needs good genomic resources. The assembled genome of A. borealis presented in this study is of sufficiently good quality for further detailed comparative study on the composition of enzymes in other Armillaria species. There is also a fundamental problem with the identification and classification of species of the Armillaria genus, where the study of repetitive sequences in the genomes of basidiomycetes and their comparative analysis will help us identify more accurately taxonomy of these species and reveal their evolutionary relationships.

Published

2020

28. Mycorrhizosphere Bacteria, Rahnella sp. HPDA25, Promotes the Growth of Armillaria gallica and Its Parasitic Host Gastrodia elata

Author

Tianrui Liu, Zhongyi Hua, Pengjie Han, Yuyang Zhao, Junhui Zhou, Yan Jin, Xiaolin Li, Luqi Huang, and Yuan Yuan

Subjects

plant growth-promoting bacteria, orchid mycorrhizal symbiosis, cultivation methods, Rahnella, Armillaria, Microbiology, QR1-502

Abstract

Gastrodia elata is an entirely heterotrophic plant, the growth of which is completely reliant on Armillaria gallica, an orchid mycorrhizal fungus. To avoid damaging ecosystems, G. elata cultivation is shifting from woodland to farmland. However, whether the microbial community structure remains stable during this conversation is unknown. Here, we cultivated G. elata in woodland or farmland and found that woodland-cultivated G. elata produced a greater yield and larger tuber size. The relative abundance of Rahnella was 22.84- and 122.25-fold higher in woodland- and farmland-cultivated soil samples, respectively, than that in uncultivated soil samples. To investigate how Rahnella impacts the growth of G. elata and establishes symbiosis with Armillaria gallica, three Rahnella spp. strains (HPDA25, SBD3, and SBD11) were isolated from mycorrhizosphere soil samples. It was found that these strains, especially HPDA25, promoted the growth of A. gallica. Ultra-performance liquid chromatography coupled to a triple quadrupole mass spectrometry analysis detected the indole-3-acetic acid with 16.24 ng/ml in HPDA25 fermentation solution. Co-culturing with the strain HPDA25 or exogenous indole-3-acetic acid increased the branching and fresh weight of rhizomorphs and the growth rate and extracellular laccase activity of A. gallica, compared with A. gallica cultured alone. The results of RNA-seq and quantitative real-time polymerase chain reaction analysis showed that co-culturing A. gallica with HPDA25 increased the expression level of the genes including hydrophobin, SUR7/PalI family, and pectin methylesterase, whereas decreased the expression levels of glycolysis-related genes. Furthermore, co-culturing with the strain HPDA25, A. gallica promotes the growth of G. elata and enhances the tuber size of G. elata. These results provide new insights into an orchid mycorrhizal symbiosis and the cultivation of G. elata.

Published

2022

29. 发酵饲料对花鳅生长性能、 消化、免疫和抗氧化能力的影响.

Author

赵云龙, 李艳娇, 郭志欣, 尹春丽, 尹智博, 王嘉婧, and 张东鸣

Abstract

The experiment was to study the effect of Armillaria fermented feed on growth performance, digestion, immunity and antioxidant capacity of Cobitistaenis . Add 0 (control group), 6 (test group 1), 12 (test group 2) and 18 mL (test group 3) Armillaria bacteria liquid per kilogram of basic feed, fermented at (20±2) ℃ for 48 h, making four groups of experimental fermented feeds. 360 Cobitistaenis with an initial body weight of (0.92±0.06) g were selected and randomly divide into four groups with three replicates in each group. The experiment lasted for 13 w. The results showed that the crude protein content of fermented feed increased with the increase of the amount of Armillaria bacteria liquid, but the crude fat content decreased. Compared with the control group, the weight gain rate, specific growth rate and fullness of experimental group of loach increased, the feed coefficient decreased. The above indicators of group 2 was the best. The amylase activity in the dried pancreas of group 3 increased significantly ( P <0.05). Dry pancreas trypsin activity in group 2 was significantly increased ( P <0.05). Dry pancreas lysozyme and superoxide dismutase activities in experimental group were both significantly increased ( P <0.05). The total antioxidant capacity of dried pancreas in group 2 and group 3 was significantly enhanced ( P <0.05). The experiment indicates that 1 kg of basic feed fermented with 12 mL of Armillaria bacteria liquid is most helpful to improve the growth performance, digestive enzyme activity, immunity and antioxidant capacity of the [ABSTRACT FROM AUTHOR]

Published

2021

30. Desarmillaria caespitosa, a North American vicariant of D. tabescens.

Author

Antonín, Vladimír, Stewart, Jane E., Ortiz, Rosario Medel, Kim, Mee-Sook, Bonello, Pierluigi (Enrico), Tomšovský, Michal, and Klopfenstein, Ned B.

Subjects

*RNA polymerases, *RNA polymerase II, *BASIDIOSPORES, *RECOMBINANT DNA

Abstract

Desarmillaria caespitosa, a North American vicariant species of European D. tabescens, is redescribed in detail based on recent collections from the USA and Mexico. This species is characterized by morphological features and multilocus phylogenetic analyses using portions of nuc rDNA 28S (28S), translation elongation factor 1-alpha (tef1), the second largest subunit of RNA polymerase II (rpb2), actin (act), and glyceraldehyde-3-phosphate dehydrogenase (gpd). A neotype of D. caespitosa is designated here. Morphological and genetic differences between D. caespitosa and D. tabescens were identified. Morphologically, D. caespitosa differs from D. tabescens by having wider basidiospores, narrower cheilocystidia, which are often irregular or mixed (regular, irregular, or coralloid), and narrower caulocystidia. Phylogenetic analyses of five independent gene regions show that D. caespitosa and D. tabescens are separated by nodes with strong support. The new combination, D. caespitosa, is proposed. [ABSTRACT FROM AUTHOR]

Published

2021

31. Development of RT-PCR for rapid detection of ssRNA ambi-like mycovirus in a root rot fungi (Armillaria spp.).

Author

Tonka, Tomáš, Walterová, Lucie, and Čurn, Vladislav

Subjects

FUNGAL viruses, REVERSE transcriptase polymerase chain reaction, POLYMERASE chain reaction, ROOT rots, FUNGI

Published

2022

32. Mobile genetic elements explain size variation in the mitochondrial genomes of four closely-related Armillaria species

Author

Anna I. Kolesnikova, Yuliya A. Putintseva, Evgeniy P. Simonov, Vladislav V. Biriukov, Natalya V. Oreshkova, Igor N. Pavlov, Vadim V. Sharov, Dmitry A. Kuzmin, James B. Anderson, and Konstantin V. Krutovsky

Subjects

Armillaria, Duplications, Evolution, GIY-YIG, Homing endonucleases, Introns, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Species in the genus Armillaria (fungi, basidiomycota) are well-known as saprophytes and pathogens on plants. Many of them cause white-rot root disease in diverse woody plants worldwide. Mitochondrial genomes (mitogenomes) are widely used in evolutionary and population studies, but despite the importance and wide distribution of Armillaria, the complete mitogenomes have not previously been reported for this genus. Meanwhile, the well-supported phylogeny of Armillaria species provides an excellent framework in which to study variation in mitogenomes and how they have evolved over time. Results Here we completely sequenced, assembled, and annotated the circular mitogenomes of four species: A. borealis, A. gallica, A. sinapina, and A. solidipes (116,443, 98,896, 103,563, and 122,167 bp, respectively). The variation in mitogenome size can be explained by variable numbers of mobile genetic elements, introns, and plasmid-related sequences. Most Armillaria introns contained open reading frames (ORFs) that are related to homing endonucleases of the LAGLIDADG and GIY-YIG families. Insertions of mobile elements were also evident as fragments of plasmid-related sequences in Armillaria mitogenomes. We also found several truncated gene duplications in all four mitogenomes. Conclusions Our study showed that fungal mitogenomes have a high degree of variation in size, gene content, and genomic organization even among closely related species of Armillara. We suggest that mobile genetic elements invading introns and intergenic sequences in the Armillaria mitogenomes have played a significant role in shaping their genome structure. The mitogenome changes we describe here are consistent with widely accepted phylogenetic relationships among the four species.

Published

2019

33. Identification of native endophytic Trichoderma spp. for investigation of in vitro antagonism towards Armillaria mellea using synthetic- and plant-based substrates

Author

Rees, Helen, Bashir, N, Drakulic, J, Cromey, MG, Bailey, AM, and Foster, GD

Published

2021

34. INCIDENCE OF ARMILLARIA SPECIES IN AGRARIAN, FOREST AND ORNAMENTAL ECOSYSTEMS OF THE LAZIO REGION.

Author

ANSELMI, Naldo, SARACENI, Alessandro, and ANSELMI, Andrea

Subjects

*ORNAMENTAL trees, *SILVER fir, *CLIMATE change, *SPECIES, *ECOSYSTEMS

Abstract

A series of investigations to detect the incidence of the various species of Armillaria in the different ecosystems of the Lazio region of Italy have been carried out in the last fifteen years. A. ostoyae has been found only in forests of Abies alba and Pinus spp, over 700 meters a.s.l.; A. gallica and A. tabescens, with a predominantly saprophytic character, have been found on very declining oak forests. The most numerous attacks have been ascribed to A. mellea, in various orchards, vineyards, olive groves, forests, wood plantations, shade trees and other ornamental ecosystems, on broadleaved trees and shrubs, but also on coniferous ones, often as a weakness parasite, but also with evident pathogenic capacity, especially in case of high inoculum pressure. The different predisposing factors have been discussed, with particular emphasis on the declining of the plants due to climatic change. The work concludes with some hints on the possible control strategies. [ABSTRACT FROM AUTHOR]

Published

2021

35. Phylogeography and host range of Armillaria gallica in riparian forests of the northern Great Plains, USA.

Author

Alveshere, Brandon C., McMurtrey, Shawn, Bennett, Patrick, Kim, Mee‐Sook, Hanna, John W., Klopfenstein, Ned B., Blodgett, James T., and LeBoldus, Jared M.

Subjects

*RIPARIAN forests, *TREE growth, *FOREST management, *ROOT diseases, *TREE mortality, *HOST specificity (Biology), *HARDWOOD forests

Abstract

Root disease pathogens, including Armillaria, are a leading cause of growth loss and tree mortality in forest ecosystems of North America. Armillaria spp. have a wide host range and can cause significant reductions in tree growth that may lead to mortality. DNA sequence comparisons and phylogenetic studies have allowed a better understanding of Armillaria spp. taxonomic diversity. Genetic sequencing has facilitated the mapping of species distributions and host associations, providing insights into Armillaria ecology. These studies can help to inform forest management and are essential in the development of disease risk maps, leading to more effective management strategies for Armillaria root disease. Armillaria surveys were conducted on publicly owned lands in North Dakota, South Dakota, and Nebraska, U.S.A. Surveyed stands consisted of riparian forests ≥0.4 hectares in area. Armillaria was found at 78 of 101 sites. A total of 57 Armillaria isolates—associated with 12 host tree species—were used for DNA sequencing of the translation elongation factor‐1 alpha (tef1) gene. Armillaria gallica was the only species identified within the study sites. Results suggest that A. gallica is a common root pathogen of hardwood trees in riparian forests of the northern Great Plains with a wider host range and geographic distribution than previously recognized. [ABSTRACT FROM AUTHOR]

Published

2021

36. Network Pharmacology Analysis of Liquid-Cultured Armillaria ostoyae Mycelial Metabolites and Their Molecular Mechanism of Action against Gastric Cancer.

Author

Wang Z, Wang R, Na Z, Liang S, Wu F, Xie H, Zhang X, Xu W, and Wang X

Subjects

Humans, Molecular Docking Simulation, Network Pharmacology, Phosphatidylinositol 3-Kinases, Ethanol, Stomach Neoplasms drug therapy, Armillaria

Abstract

Armillaria sp. are traditional edible medicinal mushrooms with various health functions; however, the relationship between their composition and efficacy has not yet been determined. Here, the ethanol extract of liquid-cultured Armillaria ostoyae mycelia (AOME), a pure wild Armillaria sp. strain, was analyzed using UHPLC-QTOF/MS, network pharmacology, and molecular docking techniques. The obtained extract affects various metabolic pathways, such as JAK/STAT and PI3K/AKT. The extract also contains important compounds such as 4-(dimethylamino)-N-[7-(hydroxyamino)-7-oxoheptyl] benzamide, isoliquiritigenin, and 7-hydroxycoumarin. Moreover, the extract targets key proteins, including EGFR, SCR, and IL6, to suppress the progression of gastric cancer, thereby synergistically inhibiting cancer development. The molecular docking analyses indicated that the main compounds stably bind to the target proteins. The final cell culture experimental data showed that the ethanol extract inhibited MGC-803 gastric cancer cells. In summary, our research revealed the beneficial components of AOME for treating gastric cancer and its associated molecular pathways. However, further research is needed to confirm its effectiveness and safety in gastric cancer patients.

Published

2024

37. Examining the Impact of Winter and Spring Soil Temperatures on the Growth of Hypholoma fasciculare, a Potential Biocontrol Agent Against Armillaria ostoyae, in Pine Plantations

Author

Ryan Stevens, Gerardo Reyes, and Nandakumar Kanavillil

Subjects

Hypholoma, winter, soil, Armillaria, biocontrol, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

Hypholoma fasciculare is regarded as a potentially effective biocontrol agent against Armillaria root disease. However, trials examining its effectiveness are currently limited to controlled lab conditions and field studies conducted mostly during the summer season. We examined the ability of H. fasciculare to survive and grow underground during the winter and spring seasons to offer insight on its ability to provide year-round protection. Pine blocks inoculated with H. fasciculare were buried in three thinned pine plantations at 30 and 100 cm depths from February 1, 2018 to May 13, 2018 (101 days) to examine how winter and spring soil temperatures at two different soil depths impacted growth. A significant interactive effect of soil depth and month on soil temperature (F3,40 = 15.94, p < 0.001) was observed. Mean growth rates did not vary significantly between the two soil depths (F1,23 = 0.91, p = 0.393) as growth rates were 0.25 ± 0.11 and 0.31 ± 0.10 mm/day at 30 and 100 cm depths, respectively. Our study supports developing H. fasciculare as a biocontrol agent against Armillaria root disease given its ability to grow underground during the winter and early spring seasons, a period during which Armillaria has a reduced growing capacity.

Published

2020

38. Prevalence of major wood‐decay Agaricomycetes in artificial, managed near‐natural and undisturbed forests of South Moravia, Czechia.

Author

Dálya, László Benedek and Sedlák, Petr

Subjects

*ROOT rots, *FOREST management, *MIXED forests, *PLANT diseases, *WOODY plants, *DEAD trees

Abstract

Most wood‐decay fungi contribute to the healthy functioning of forest ecosystems, whereas others cause infectious diseases of woody plants and high economic losses for forest management. In this study, we pursued the hypothesis that pathogenic wood‐rotting Agaricomycetes occur less frequently in undisturbed forests than in managed stands, especially artificial monocultures. The prevalence of two important pathogens, Armillaria spp. and Heterobasidion annosum s.l., was assessed in managed and unmanaged beech, oak and mixed forests, and spruce plantations in South Moravia, Czechia. In addition, the presence of saproparasitic fungi in decayed wood was examined. Identification of fungal species from wood, soil, basidiome and rhizomorph samples was performed by DNA‐based methods. Possible ecological patterns in the distribution of fungi were investigated. Armillaria spp. were ubiquitous; A. cepistipes seems to act as a decomposer, A. gallica is potentially hazardous to oak stands, while A. ostoyae threatens spruce plantations. Basidiomes and epiphytic rhizomorphs of Armillaria were absent in unmanaged stands. Heterobasidion annosum s.s. and H. abietinum basidiocarps were present in 21% and 4% of managed stands, respectively, mostly on conifer stumps. Fomitopsis pinicola, Schizophyllum commune and Stereum spp. were detected in a wide range of hosts and stand types. The results indicate that near‐natural forests are less endangered by root rot disease than monoculture plantations. [ABSTRACT FROM AUTHOR]

Published

2020

39. Fungal lesion length and expansion rate for the root pathogen Armillaria ostoyae in Douglas‐fir affecting root colonization and damage.

Author

Cruickshank, Michael G. and Sattler, Derek F.

Subjects

*DISEASE resistance of plants, *DOUGLAS fir, *TREE size, *COLONIZATION, *RATES, *ENTOMOPATHOGENIC fungi

Abstract

Plant lesions affect disease impact, progression and host resistance. Root lesions caused by Armillaria ostoyae (Romagn.) Herink were inspected on 24‐ to 34‐year‐old planted Douglas‐fir (Pseudotsuga menziesii (Mirb.) Franco) pulled from the soil in five locations. Four hundred seventy‐nine lesions were measured for length (mm), expansion rate (mm/year) and lesion type. Lesion types were patch lesions on a root side, girdled lesions covering the root circumference and root collar lesions on the stem below ground. Non‐linear mixed modelling revealed that fungal lesion length at girdled and collar lesions increased but the expansion rate slowed as a power function of time, indicating increasing secondary inoculum and host resistance. Average fungal lesion expansion rate in girdled root and collar lesions was 127 mm the first year which then declined non‐linearly to 26 mm/year after 10 years. Fungal lesion length in patch lesions showed little change after the first year of infection. For girdled and collar lesions, fungal lesion length increased with tree size at the time of infection. Sites with a longer frost‐free period had shorter girdled root and stem lesions, probably because of more active host defence. Results indicate that mortality would be rare from one infection event. Furthermore, patch lesions pose a lower risk of mortality than other lesions because of a lower fungal lesion expansion rate and secondary inoculum. Tree size, lesion position, lesion type and fungal lesion expansion rate need to be considered when assessing the risk of lesions to individual tree survival. Techniques to minimize the disease impact are discussed. [ABSTRACT FROM AUTHOR]

Published

2020

40. 天麻栽培用蜜环菌的遗传多样性、生长和水解酶.

Author

王洋洋, 涂璇, 王传华, 卢杉, 邓啟玉, and 孙小兵

Subjects

BIODIVERSITY, PHYLOGENY, SYMBIOSIS, PLANT molecular biology, PROVINCES

Abstract

Copyright of Mycosystema is the property of Mycosystema Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

41. Vertical and horizontal gene transfer shaped plant colonization and biomass degradation in the fungal genus Armillaria.

Author

Bálint, Balázs, Bálint, Balázs, Henrissat, Bernard, Andreopoulos, Bill, Martin, Francis, Bugge Harder, Christoffer, Rigling, Daniel, Ford, Kathryn, Foster, Gary, Pangilinan, Jasmyn, Papanicolaou, Alexie, Barry, Kerrie, LaButti, Kurt, Virágh, Máté, Koriabine, Maxim, Yan, Mi, Sahu, Neha, Indic, Boris, Wong-Bajracharya, Johanna, Merényi, Zsolt, Ke, Huei-Mien, Ahrendt, Steven, Monk, Tori-Lee, Kocsubé, Sándor, Drula, Elodie, Champramary, Simang, Plett, Krista, Tsai, Isheng, Slot, Jason, Sipos, György, Plett, Jonathan, Nagy, László, Grigoriev, Igor, Lipzen, Anna, Riley, Robert, Bálint, Balázs, Bálint, Balázs, Henrissat, Bernard, Andreopoulos, Bill, Martin, Francis, Bugge Harder, Christoffer, Rigling, Daniel, Ford, Kathryn, Foster, Gary, Pangilinan, Jasmyn, Papanicolaou, Alexie, Barry, Kerrie, LaButti, Kurt, Virágh, Máté, Koriabine, Maxim, Yan, Mi, Sahu, Neha, Indic, Boris, Wong-Bajracharya, Johanna, Merényi, Zsolt, Ke, Huei-Mien, Ahrendt, Steven, Monk, Tori-Lee, Kocsubé, Sándor, Drula, Elodie, Champramary, Simang, Plett, Krista, Tsai, Isheng, Slot, Jason, Sipos, György, Plett, Jonathan, Nagy, László, Grigoriev, Igor, Lipzen, Anna, and Riley, Robert

Abstract

The fungal genus Armillaria contains necrotrophic pathogens and some of the largest terrestrial organisms that cause tremendous losses in diverse ecosystems, yet how they evolved pathogenicity in a clade of dominantly non-pathogenic wood degraders remains elusive. Here we show that Armillaria species, in addition to gene duplications and de novo gene origins, acquired at least 1,025 genes via 124 horizontal gene transfer events, primarily from Ascomycota. Horizontal gene transfer might have affected plant biomass degrading and virulence abilities of Armillaria, and provides an explanation for their unusual, soft rot-like wood decay strategy. Combined multi-species expression data revealed extensive regulation of horizontally acquired and wood-decay related genes, putative virulence factors and two novel conserved pathogenicity-induced small secreted proteins, which induced necrosis in planta. Overall, this study details how evolution knitted together horizontally and vertically inherited genes in complex adaptive traits of plant biomass degradation and pathogenicity in important fungal pathogens.

Published

2023

42. The Armillaria response to Gastrodia elata is partially mediated by strigolactone-induced changes in reactive oxygen species.

Author

Hua, Zhongyi, Teng, Xiying, Huang, Jingwen, Zhou, Junhui, Zhao, Yuyang, Huang, Luqi, and Yuan, Yuan

Subjects

*REACTIVE oxygen species, *GENE families, *GENE expression, *GLUTATHIONE reductase, *ROOT diseases, *WOOD chemistry, *COMPARATIVE genomics

Abstract

Armillaria root diseases, caused by Armillaria spp., pose a significant threat to woody plants worldwide and result in substantial economic losses. However, certain species in the genus Armillaria can establish a unique symbiotic relationship with Gastrodia elata, which is the only known example of a plant benefiting from Armillaria. Although various plant signals that play a role in this interaction have been identified, the mechanism remains largely unknown from the Armillaria 's perspective. In this study, we performed whole-genome sequencing of an Armillaria gallica strain named NRC001 isolated from G. elata. Comparative genomic analysis showed it is low-pathogenic Armillaria spp., which possesses 169 expanded gene families compared to high-pathogenic Armillaria spp. Among these expanded families, transcriptomic analysis revealed a significant increase in expression levels of four reactive oxygen species (ROS)-related gene families in A. gallica on G. elata compared to A. gallica on wood. Thus, a systematic survey of ROS-related gene families was carried out, and a total of 218 genes belonging to 44 ROS-related gene families in A. gallica were identified. Physiological experiments and transcriptome analysis showed that strigolactones (SLs) released by G. elata have a mediation impact on ROS, particularly enhancing the ROS scavenging activities by increasing the expression level and activity of several enzymes, such as catalase and glutathione reductase. Among the ROS-related genes, the aquaporin (AQP) is crucial as it is responsible for transporting hydrogen peroxide (H 2 O 2) across the cell membrane. Five orthologs of AQP genes in A. gallica were identified and overexpressed in yeast. Only AgAQPA from the so-called 'other aquaglyceroporin' subfamily was demonstrated to be capable of mediating H 2 O 2 transport in A. gallica. To our best knowledge, this is the first 'other aquaglyceroporins' gene in fungi to be identified as having transporter capacity. This study not only provides new insights into the mechanisms by which SL signaling regulates interactions between Armillaria and G. elata , but also sheds light on the function of fungal AQPs. • Gastrodia elata can mediate Armillaria reactive oxygen species (ROS) homeostasis. • Strigolactone plays a role in the Gastrodia elata regulation on Armillaria ROS homeostasis. • A novel aquaporin gene involved in the transportation of ROS in Armillaria gallica has been discovered. [ABSTRACT FROM AUTHOR]

Published

2024

43. Transcriptome analysis of Armillaria gallica 012 m in response to auxin

Author

Yapu Cao, Kaixiang He, Qingqing Li, Xin Chen, Haiying Mo, Zhihao Li, Qiaolin Ji, Ganpeng Li, Gang Du, and Haiying Yang

Subjects

Indoleacetic Acids, Plant Growth Regulators, Gene Expression Profiling, General Medicine, Armillaria, Applied Microbiology and Biotechnology

Abstract

Gastrodia elata is an achlorophyllous and fully mycoheterotrophic orchid which obtains carbon and other nutrients from Armillaria species in its life cycle. Many researchers suggested that plant hormones, as signing molecules, play a central role in the plant-fungi interaction. In the process of Armillaria gallica 012 m cultivation, both exogenous indole-3-acetic acid (IAA) and indole-3-butyric acid (IBA) distinctly stimulated the growth of mycelia in solid media. The differential expression genes (DEGs) of A. gallica 012 m with IAA versus blank control (BK) and IBA versus BK were investigated. The results showed that more than 80% of DEGs of the IAA group were coincident with the DEGs of the IBA group, and more than half of upregulated DEGs and most of the downregulated DEGs of the IAA group coincided with those DEGs of the IBA group. Above research implied that A. gallica 012 m could perceive IAA and IBA, and possess similar responses and signaling pathways to IAA and IBA. The overlapping differential genes of the IAA group and IBA group were analyzed by GO term, and the results showed that several DEGs identified were related to biological processes including positive regulation of the biological process and biological process. The downregulated NmrA-like and FKBP_C genes might be benefit to the growth of mycelia. Those results can explain that exiguous IAA and IBA improved the growth of A. gallica to some extent. We speculate that IAA and IBA are signaling molecules, and regulate the expression of growth-related genes of A. gallica 012 m by the same signaling pathway.

Published

2022

44. Armillaria root disease and affected acreage on three Ranger Districts on the Black Hills National Forest.

Author

Holah, J.C., U.S. Department of Agriculture, National Agricultural Library, and Holah, J.C.

Subjects

Armillaria, Dendroctonus ponderosae, disease surveys, forest pests, Fungal diseases of plants, infestation, Insect pests, interactions, Logging, logging effects, national forests, Pinus ponderosa, root rot, South Dakota

Published

1993

45. Modeling initial conditions for root rot in forest stands : random proportions /

Author

Marsden, Michael A., Eav, Bov Bang, 1948, Thompson, Matthew K., Rocky Mountain Forest and Range Experiment Station (Fort Collins, Colo.), United States. Forest Service, U.S. Department of Agriculture, National Agricultural Library, Marsden, Michael A., Eav, Bov Bang, 1948, Thompson, Matthew K., Rocky Mountain Forest and Range Experiment Station (Fort Collins, Colo.), and United States. Forest Service

Subjects

Armillaria, Armillaria root rot, Diseases and pests, Forests and forestry, Fungal diseases, Hymenochaetaceae, Management, Mathematical models, Models, Phellinus, Phellinus weirii, plant diseases and disorders, Root rots, Roots (Botany), Tricholomataceae, West (U.S.)

Published

1993

46. Temporal development of collar necroses and butt rot in association with ash dieback

Author

Enderle R, Sander F, and Metzler B

Subjects

Ash Dieback, Collar Necrosis, Disease Progression, Armillaria, Butt Rot, Epidemiology, Forestry, SD1-669.5

Abstract

In recent years collar necroses and butt rot associated with the ash dieback disease occurred with alarming frequency in Fraxinus excelsior. We analysed tree ring structures to identify the year of necrosis initiation on a set of 507 necroses on 155 stem discs from nine severely diseased south-western German stands. The number of first-time infections of trees was highest from 2010 to 2012 and slightly decreased in 2013 and 2014, whereas the total number of newly emerging individual necroses remained high. Logistic modelling of disease progression suggests that collar rot infection has almost reached its maximum incidence and that a fraction of trees will remain healthy at the root collar. On average, Hymenoscyphus fraxineus was isolated more frequently from younger collar necroses, whereas older necroses were more often colonized by Armillaria spp. Advanced stages of rot that may pose a risk to forest workers, visitors and traffic were observed already in two years-old necroses infected by Armillaria spp.

Published

2017

47. In vitro fruiting of Armillaria species /

Author

Reaves, Jimmy L., McWilliams, Michael (Michael G.), Pacific Northwest Research Station (Portland, Or.), U.S. Department of Agriculture, National Agricultural Library, Reaves, Jimmy L., McWilliams, Michael (Michael G.), and Pacific Northwest Research Station (Portland, Or.)

Subjects

Armillaria, Basidiomycetes, Fungi

Published

1991

48. Variable, life stage-dependent mycorrhizal specificity and its developmental consequences in the fully myco-heterotrophic orchid Cyrtosia septentrionalis .

Author

Umata H, Gale SW, Suetsugu K, and Ota Y

Abstract

The degree of specificity between fully myco-heterotrophic (MH) orchids and mycorrhizal fungi is regarded as high, but some species undergo a mycobiont shift as they transition from juvenile to adult plant. We investigated morphological and physiological aspects of the interaction between the fully MH Cyrtosia septentrionalis and its four known mycobionts to elucidate developmental consequences of variable, life-stage-dependent specificity. Of five randomly sampled germinated seeds co-cultured with each mycobiont, Physisporinus sp. ' TK-10 ' colonized all, Armillaria gallica and Desarmillaria tabescens colonized one, and A. mellea subsp. nipponica colonized none. Whereas 16.2% of aseptically germinated seeds exhibited onward growth when co-cultured with TK-10 , just 1.5-2.6% did so with the other species. Even so, A. gallica colonized and formed internal rhizomorphs within rhizomes established with TK-10 , suggesting that this mycobiont can replace and potentially can oust the latter. We infer that the orchid can associate with Armillaria and Desarmillaria mycobionts throughout its life, but that TK-10 enhances early growth. However, because TK-10 has a higher wood-rotting capacity than A. gallica , rapid resource exhaustion may cause nutrient supply shortages. We hypothesize that secondary colonization by Armillaria or Desarmillaria species triggers TK-10 displacement and that this mycobiont shift sustains orchid growth for longer., (2024, by The Mycological Society of Japan.)

Published

2024

49. Glucans from Armillaria luteo-virens : Structural Characterization and In Vivo Immunomodulatory Investigation under Different Administration Routes.

Author

Liu Y, Li Y, Sun B, Kang J, Hu X, Zou L, Cui SW, and Guo Q

Subjects

Animals, Mice, Glucans, Polysaccharides, Cyclophosphamide, Armillaria, beta-Glucans

Abstract

Polysaccharides from Armillaria luteo-virens (ALP) were investigated for structural characterization and immunomodulatory activities. Three fractions (ALP-1, ALP-2, and ALP-3) were obtained with the yield of 2.4, 3.7, and 3.0 wt %, respectively. ALP-1 was proposed as a β-(1 → 3)(1 → 6)-glucan with a triple-helix conformation; ALP-2 and ALP-3 were both identified as α-(1 → 4)(1 → 6)-glucan differing in their M w and branching degree with a spherical conformation. The in vitro digestibility experiment and in vivo experiments using cyclophosphamide (CY)-treated mice demonstrated that intraperitoneal injection of α-glucan (1 mg·kg -1 ·day -1 ) and intragastric gavage of β-glucan (10 mg·kg -1 ·day -1 ) both effectively restored the decrease in body weight, immune organ indexes, immune cell activities, serum immune marker levels, colonic short-chain fatty acids (SCFA) levels, and Bacteroidetes / Firmicutes ratio in immunosuppression mice. This study provides novel insights into the immunomodulatory activity of α- and β-glucans under different administration routes, thereby promoting their application in both food and pharmaceutical areas.

Published

2024

50. Armillariella tabescens polysaccharide treated rats with oral ulcers through modulation of oral microbiota and activation of the Nrf2/HO-1 pathway.

Author

Zhang K, Chen H, Hao Y, Li W, Li Y, Zhang W, and Chen Y

Subjects

Rats, Animals, Humans, NF-E2-Related Factor 2 metabolism, Quality of Life, Polysaccharides pharmacology, Polysaccharides therapeutic use, Oxidative Stress, Oral Ulcer drug therapy, Microbiota, Armillaria

Abstract

We identified Armillariella tabescens polysaccharide (PAT-W), a compound isolated from a Chinese medicinal mushroom, as a potential novel oral ulcer (OU) drug. In treating OU rats with PAT-W, especially in the high-dose group, oral mucous tissue TNF-α, IL-1β, and IL-6 levels were markedly reduced, and pathological morphology and oxidative stress were effectively improved. Western blot analysis showed that the PAT-W channel ameliorated OU mucous tissue damage, which depends on the activation of the Nrf2/HO-1 antioxidant signaling pathway. Furthermore, high-throughput sequencing results showed that PAT-W regulated the maladjustment of the oral microbiota caused by OU. Therefore, based on the new viewpoint of activating the Nrf2/HO-1 pathway and regulating oral microbiota, PAT-W is expected to become a new natural drug for treating oral ulcers and improving patients' quality of life., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024