Your search keyword '"Ustilaginales"' showing total 2,979 results

1. Smut fungus (Langdonia walkerae) incidence is lower in two bunchgrass species (Aristida stricta and A. beyrichiana) after fires early in the year.

Author

Fill, Jennifer M., Meadows, Inga, Walker, Joan L., Crandall, Raelene M., and Kerrigan, Julia L.

Subjects

*PRESCRIBED burning, *PODZOL, *SPECIES, *FUNGI

Abstract

Premise: In frequently burned southeastern USA pine‐grassland communities, wiregrass (Aristida stricta and A. beyrichiana) are dominant bunchgrasses whose flowers are infected during flowering by a smut fungus (Langdonia walkerae). We hypothesized that because prescribed fire timing affects wiregrass flowering patterns, it could affect smut incidence (occurrence of smut on plants) and severity of infection in inflorescences and spikelets. Because soil order could influence plant susceptibility, we hypothesized that these patterns would differ between soil orders. We hypothesized differences between species as representative of geographic variation in this ecosystem. Methods: We surveyed the incidence and severity of L. walkerae in wiregrass populations (85 populations at 14 sites) that had been prescription burned at different times during the previous year. We used binomial regressions to test whether incidence and severity differed by burn day, soil order, or species, with site as a random effect. Results: Fires that occurred in the winter were associated with significantly lower incidence than fires later in the year (as the months progressed into summer). Plants growing on Spodosol soils were significantly less likely to be infected than those on other soils. More variation in incidence, however, was explained by site, suggesting that site‐specific characteristics were important. Smut severity in inflorescences and spikelets was greater overall in populations of A. stricta than in southern populations (A. beyrichiana). Conclusions: Our findings indicate that fire timing and soil order affect L. walkerae incidence in wiregrass plants, but neither appears to be associated with greater severity. Patterns of smut infection are related to site history and geographic variation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Production of ent-kaurene from lignocellulosic hydrolysate in Rhodosporidium toruloides

Author

Geiselman, Gina M, Zhuang, Xun, Kirby, James, Tran-Gyamfi, Mary B, Prahl, Jan-Philip, Sundstrom, Eric R, Gao, Yuqian, Munoz Munoz, Nathalie, Nicora, Carrie D, Clay, Derek M, Papa, Gabriella, Burnum-Johnson, Kristin E, Magnuson, Jon K, Tanjore, Deepti, Skerker, Jeffrey M, and Gladden, John M

Subjects

Biological Sciences, Industrial Biotechnology, Animals, Diterpenes, Kaurane, Lignin, Metabolic Engineering, Plant Proteins, Ustilaginales, Rhodotorula, Mevalonate pathway, Diterpene, Geranylgeranyl pyrophosphate synthase, Mutant farnesyl pyrophosphate synthase, Metabolic engineering, Microbiology, Biotechnology

Abstract

BackgroundRhodosporidium toruloides has emerged as a promising host for the production of bioproducts from lignocellulose, in part due to its ability to grow on lignocellulosic feedstocks, tolerate growth inhibitors, and co-utilize sugars and lignin-derived monomers. Ent-kaurene derivatives have a diverse range of potential applications from therapeutics to novel resin-based materials.ResultsThe Design, Build, Test, and Learn (DBTL) approach was employed to engineer production of the non-native diterpene ent-kaurene in R. toruloides. Following expression of kaurene synthase (KS) in R. toruloides in the first DBTL cycle, a key limitation appeared to be the availability of the diterpene precursor, geranylgeranyl diphosphate (GGPP). Further DBTL cycles were carried out to select an optimal GGPP synthase and to balance its expression with KS, requiring two of the strongest promoters in R. toruloides, ANT (adenine nucleotide translocase) and TEF1 (translational elongation factor 1) to drive expression of the KS from Gibberella fujikuroi and a mutant version of an FPP synthase from Gallus gallus that produces GGPP. Scale-up of cultivation in a 2 L bioreactor using a corn stover hydrolysate resulted in an ent-kaurene titer of 1.4 g/L.ConclusionThis study builds upon previous work demonstrating the potential of R. toruloides as a robust and versatile host for the production of both mono- and sesquiterpenes, and is the first demonstration of the production of a non-native diterpene in this organism.

Published

2020

3. Monoterpene production by the carotenogenic yeast Rhodosporidium toruloides

Author

Zhuang, Xun, Kilian, Oliver, Monroe, Eric, Ito, Masakazu, Tran-Gymfi, Mary Bao, Liu, Fang, Davis, Ryan W, Mirsiaghi, Mona, Sundstrom, Eric, Pray, Todd, Skerker, Jeffrey M, George, Anthe, and Gladden, John M

Subjects

Biological Sciences, Industrial Biotechnology, Responsible Consumption and Production, Affordable and Clean Energy, Biofuels, Biomass, Carotenoids, Fermentation, Lignin, Monoterpenes, Ustilaginales, Rhodosporidium toruloides, Monoterpene, 1, 8-Cineole, Biofuel, Microbiology, Biotechnology

Abstract

BackgroundDue to their high energy density and compatible physical properties, several monoterpenes have been investigated as potential renewable transportation fuels, either as blendstocks with petroleum or as drop-in replacements for use in vehicles (both heavy and light-weight) or in aviation. Sustainable microbial production of these biofuels requires the ability to utilize cheap and readily available feedstocks such as lignocellulosic biomass, which can be depolymerized into fermentable carbon sources such as glucose and xylose. However, common microbial production platforms such as the yeast Saccharomyces cerevisiae are not naturally capable of utilizing xylose, hence requiring extensive strain engineering and optimization to efficiently utilize lignocellulosic feedstocks. In contrast, the oleaginous red yeast Rhodosporidium toruloides is capable of efficiently metabolizing both xylose and glucose, suggesting that it may be a suitable host for the production of lignocellulosic bioproducts. In addition, R. toruloides naturally produces several carotenoids (C40 terpenoids), indicating that it may have a naturally high carbon flux through its mevalonate (MVA) pathway, providing pools of intermediates for the production of a wide range of heterologous terpene-based biofuels and bioproducts from lignocellulose.ResultsSixteen terpene synthases (TS) originating from plants, bacteria and fungi were evaluated for their ability to produce a total of nine different monoterpenes in R. toruloides. Eight of these TS were functional and produced several different monoterpenes, either as individual compounds or as mixtures, with 1,8-cineole, sabinene, ocimene, pinene, limonene, and carene being produced at the highest levels. The 1,8-cineole synthase HYP3 from Hypoxylon sp. E74060B produced the highest titer of 14.94 ± 1.84 mg/L 1,8-cineole in YPD medium and was selected for further optimization and fuel properties study. Production of 1,8-cineole from lignocellulose was also demonstrated in a 2L batch fermentation, and cineole production titers reached 34.6 mg/L in DMR-EH (Deacetylated, Mechanically Refined, Enzymatically Hydorlized) hydrolysate. Finally, the fuel properties of 1,8-cineole were examined, and indicate that it may be a suitable petroleum blend stock or drop-in replacement fuel for spark ignition engines.ConclusionOur results demonstrate that Rhodosporidium toruloides is a suitable microbial platform for the production of non-native monoterpenes with biofuel applications from lignocellulosic biomass.

Published

2019

4. Broad Genomic Sampling Reveals a Smut Pathogenic Ancestry of the Fungal Clade Ustilaginomycotina

Author

Kijpornyongpan, Teeratas, Mondo, Stephen J, Barry, Kerrie, Sandor, Laura, Lee, Juna, Lipzen, Anna, Pangilinan, Jasmyn, LaButti, Kurt, Hainaut, Matthieu, Henrissat, Bernard, Grigoriev, Igor V, Spatafora, Joseph W, and Aime, M Catherine

Subjects

Microbiology, Biological Sciences, Evolutionary Biology, Genetics, Infectious Diseases, Biotechnology, Human Genome, Genome, Fungal, Host-Pathogen Interactions, Phylogeny, Plant Diseases, Ustilaginales, Whole Genome Sequencing, phylogenomics, tree expansion analysis, CAZymes, undersampled lineages, Exobasidiomycetes, Malasseziomycetes, Biochemistry and Cell Biology, Biochemistry and cell biology, Evolutionary biology

Abstract

Ustilaginomycotina is home to a broad array of fungi including important plant pathogens collectively called smut fungi. Smuts are biotrophs that produce characteristic perennating propagules called teliospores, one of which, Ustilago maydis, is a model genetic organism. Broad exploration of smut biology has been hampered by limited phylogenetic resolution of Ustilaginiomycotina as well as an overall lack of genomic data for members of this subphylum. In this study, we sequenced eight Ustilaginomycotina genomes from previously unrepresented lineages, deciphered ordinal-level phylogenetic relationships for the subphylum, and performed comparative analyses. Unlike other Basidiomycota subphyla, all sampled Ustilaginomycotina genomes are relatively small and compact. Ancestral state reconstruction analyses indicate that teliospore formation was present at the origin of the subphylum. Divergence time estimation dates the divergence of most extant smut fungi after that of grasses (Poaceae). However, we found limited conservation of well-characterized genes related to smut pathogenesis from U. maydis, indicating dissimilar pathogenic mechanisms exist across other smut lineages. The genomes of Malasseziomycetes are highly diverged from the other sampled Ustilaginomycotina, likely due to their unique history as mammal-associated lipophilic yeasts. Despite extensive genomic data, the phylogenetic placement of this class remains ambiguous. Although the sampled Ustilaginomycotina members lack many core enzymes for plant cell wall decomposition and starch catabolism, we identified several novel carbohydrate active enzymes potentially related to pectin breakdown. Finally, ∼50% of Ustilaginomycotina species-specific genes are present in previously undersampled and rare lineages, highlighting the importance of exploring fungal diversity as a resource for novel gene discovery.

Published

2018

5. Obituary for Kálmán Vánky (1930–2021)

Author

Shivas, Roger, McTaggart, Alistair, Begerow, Dominik, Denchev, Cvetomir M., Denchev, Teodor T., Kemler, Martin, Kruse, Julia, Lutz, Matthias, Piątek, Marcin, Piepenbring, Meike, and Thines, Marco

Abstract

Kálmán Vánky (15th of June 1930–18th of October 2021) was arguably the most prolific researcher of smut fungi so far. He published more than 1000 taxonomic novelties, and crowned his outstanding oeuvre with the most comprehensive monograph of the smut fungi (Smut Fungi of the World) written to date. [ABSTRACT FROM AUTHOR]

Published

2022

6. Enhancement of lipid synthesis by the transcription factor Asg1 in Saitozyma podzolica zwy-2-3 under dissolved oxygen stress.

Author

Yang Q, Ran Y, Guo Y, Zeng J, Song Y, Qiao D, Xu H, and Cao Y

Subjects

Lipid Metabolism, Fungal Proteins metabolism, Nitric Oxide metabolism, Reactive Oxygen Species metabolism, Stress, Physiological, Ustilaginales, Glucose metabolism, Oxygen metabolism, Transcription Factors metabolism, Lipids biosynthesis

Abstract

Microbial oils have been of considerable interest as food additives and biofuel resources due to high lipid contents, but lipid accumulation of oleaginous microorganisms can be induced by environmental stresses, such as dissolved oxygen (DO), which limit large-scale lipid production. Here, DO stress gave rise to the endogenous nitric oxide (NO) level to mediate S-nitrosylation of SpAsg1, regulating the lipid accumulation in Saitozyma podzolica zwy-2-3. Notably, qRT-PCR, yeast one-hybrid, dual-luciferase reporter assays, and metabolomics analysis exhibited that overexpression of SpAsg1 promoted lipid synthesis by directly regulation of glucose metabolism, enhancing glucose uptake, ATP and NADPH contents under DO stress. Meanwhile, SpAsg1 improved the antioxidant capacity to reduce the intracellular reactive oxygen species (ROS) and NO levels. Overall, we systematically investigated the regulation of SpAsg1 on lipid metabolism of S. podzolica zwy-2-3 under DO stress, which sheds light on further studies for alleviating oxygen limitation of lipid production in microbial industry., 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 Ltd.)

Published

2024

7. First Case of Subcutaneous Mycoses Caused by Dirkmeia churashimaensis and a Literature Review of Human Ustilaginales Infections.

Author

Hu, Fengming, Wang, Chong, Wang, Peng, Zhang, Lei, Jiang, Qing, Al-Hatmi, Abdullah M. S., Blechert, Oliver, and Zhan, Ping

Subjects

MYCOSES, LITERATURE reviews, ANTIFUNGAL agents, IDENTIFICATION of fungi, SKIN infections, CROHN'S disease

Abstract

Objective: Dirkmeia churashimaensis , belonging to Ustilaginales fungi, has never been reported as clinical pathogenic until very recently. In this study, we report an unusual subcutaneous infection with Dirkmeia churashimaensis and reviewed all human Ustilaginales infections. The aim is to better understand their epidemiology, infection type, risk factors, and the sensitivity to antifungal agents. Methods: An 80-year-old female farmer developed extensive plaques and nodules on her left arm within 2 years. Pathological and microbiological examinations identified a new pathological agent, Dirkmeia churashimaensis , as the cause of this infection. The patient was successfully cured by oral itraconazole. We reviewed a total of 31 cases of Ustilaginales cases, among of which only three were skin infections. Results: Local barrier damage (i.e., surgery, trauma, and basic dermatosis) and systemic immunodeficiency (i.e., preterm and low birthweight, Crohn's disease, malignant cancer, and chemotherapy) are risk factors for Ustilaginales infection. The D1/D2 and ITS regions are the frequently used loci for identifying the pathogens together with phenotype. Most patients could survive due to antifungal treatment, whereas seven patients died. Amphotericin B, posaconazole, itraconazole, and voriconazole showed good activity against these reported strains, whereas fluconazole, 5-flucytosine, and echinocandins usually showed low susceptibility. Itraconazole had good efficiency for subcutaneous infections. Conclusions: The present case study and literature review reveal that Ustilaginales can be opportunistic pathogenic normally in immunocompromised and barrier damage people. A proper identification of fungi can be crucial for clinical treatment, and more data of antifungal are needed for choice of medication against this kind of infections. [ABSTRACT FROM AUTHOR]

Published

2021

8. First Case of Subcutaneous Mycoses Caused by Dirkmeia churashimaensis and a Literature Review of Human Ustilaginales Infections

Author

Fengming Hu, Chong Wang, Peng Wang, Lei Zhang, Qing Jiang, Abdullah M. S. Al-Hatmi, Oliver Blechert, and Ping Zhan

Subjects

Dirkmeia, Pseudozyma, Moesziomyces, Ustilaginales, infection, subcutaneous, Microbiology, QR1-502

Abstract

ObjectiveDirkmeia churashimaensis, belonging to Ustilaginales fungi, has never been reported as clinical pathogenic until very recently. In this study, we report an unusual subcutaneous infection with Dirkmeia churashimaensis and reviewed all human Ustilaginales infections. The aim is to better understand their epidemiology, infection type, risk factors, and the sensitivity to antifungal agents.MethodsAn 80-year-old female farmer developed extensive plaques and nodules on her left arm within 2 years. Pathological and microbiological examinations identified a new pathological agent, Dirkmeia churashimaensis, as the cause of this infection. The patient was successfully cured by oral itraconazole. We reviewed a total of 31 cases of Ustilaginales cases, among of which only three were skin infections.ResultsLocal barrier damage (i.e., surgery, trauma, and basic dermatosis) and systemic immunodeficiency (i.e., preterm and low birthweight, Crohn’s disease, malignant cancer, and chemotherapy) are risk factors for Ustilaginales infection. The D1/D2 and ITS regions are the frequently used loci for identifying the pathogens together with phenotype. Most patients could survive due to antifungal treatment, whereas seven patients died. Amphotericin B, posaconazole, itraconazole, and voriconazole showed good activity against these reported strains, whereas fluconazole, 5-flucytosine, and echinocandins usually showed low susceptibility. Itraconazole had good efficiency for subcutaneous infections.ConclusionsThe present case study and literature review reveal that Ustilaginales can be opportunistic pathogenic normally in immunocompromised and barrier damage people. A proper identification of fungi can be crucial for clinical treatment, and more data of antifungal are needed for choice of medication against this kind of infections.

Published

2021

9. Emlékeim Vánky Kálmánról (1930-2021).

Author

BORHIDI, Attila

Abstract

Copyright of Kitaibelia is the property of University of Debrecen 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

10. サクラソウに感染するくろぼ菌, Urocystis tranzscheliana の宿主植物内での存在部位.

Author

紙谷　幸子 and 柿嶌　　眞

Abstract

Primula sieboldii（ Primulaceae） is a common plant grown in woodlands of Japan and listed as an endangered species. A smut fungus, Urocystis tranzscheliana has been reported to cause systemic infection of this plant and destroys its seed production because this fungus produces sori in its ovaries. However, locations and behavior of the fungus in the plant have not been clarified. Specific primers for PCR detections of this fungus were designed and its locations in different tissues of the plant were examined. The fungus was detected from rhizomes, scapes and flowers in infected plants, but not detected from roots, rachises and leaves. The fungus was also detected in rhizomes of ramets originated from infected plants. Fungal DNA was not amplified in any tissues of non-infected plants. These results suggest that the fungus survives in rhizomes in infected plants and moves to flower organs through new flower buds and scapes along with plant growth. The fungus also transmits to new ramets through asexual buds. [ABSTRACT FROM AUTHOR]

Published

2021

11. Anthracoidea obtusatae (Anthracoideaceae, Ustilaginales), a new smut fungus on Carex obtusata (Cyperaceae) from Central Asia

Author

TEODOR T. DENCHEV, CVETOMIR M. DENCHEV, DOMINIK BEGEROW, and MARTIN KEMLER

Subjects

Anthracoideaceae, Basidiomycota, Fungi, Ustilaginomycetes, Biodiversity, Plant Science, Ustilaginales, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

Anthracoidea species are highly host-specific smut fungi. Their host range is restricted to a single sedge species or sedge species belonging to the same or closely related sections. The species on Carex obtusata was referred to as Anthracoidea caryophylleae. However, the hosts of A. caryophylleae were reduced to carices in Carex sect. Mitratae, in its traditional circumscription. In the most recently proposed classification of Carex, C. obtusata has been placed within the Capitata Clade of C. subgen. Euthyceras. In order to clarify the taxonomic status of the Anthracoidea species on C. obtusata, we conducted a molecular study of specimens on C. obtusata and C. caryophyllea, using LSU rDNA sequences. It was found that the Anthracoidea species on C. obtusata is distinct from A. caryophylleae. A new species, Anthracoidea obtusatae on C. obtusata, is described and illustrated from Russia, based on a specimen from the Altay Mts. Its phylogenetic placement and affinities in Anthracoidea are analyzed. Anthracoidea obtusatae is distributed in Central Asia—the Northern Tian Shan Range (Zailiysky Alatau Range and Ketmen Ridge) and the Russian and Mongolian Altay Mts. A morphological examination of a specimen of Anthracoidea on C. obtusata from Canada found that its spore morphology did not match that of A. obtusatae. Additional collections and molecular study are required to clarify the taxonomic status of the North American Anthracoidea species on C. obtusata.

Published

2023

12. A fungal member of the Arabidopsis thaliana phyllosphere antagonizes Albugo laibachii via a GH25 lysozyme

Author

Katharina Eitzen, Priyamedha Sengupta, Samuel Kroll, Eric Kemen, and Gunther Doehlemann

Subjects

microbial antagonism, albugo laibachii, ustilaginales, arabidopsis, transcriptomics, effectors, Medicine, Science, Biology (General), QH301-705.5

Abstract

Plants are not only challenged by pathogenic organisms but also colonized by commensal microbes. The network of interactions these microbes establish with their host and among each other is suggested to contribute to the immune responses of plants against pathogens. In wild Arabidopsis thaliana populations, the oomycete pathogen Albugo laibachii plays an influential role in structuring the leaf phyllosphere. We show that the epiphytic yeast Moesziomyces bullatus ex Albugo on Arabidopsis, a close relative of pathogenic smut fungi, is an antagonistic member of the A. thaliana phyllosphere, which reduces infection of A. thaliana by A. laibachii. Combination of transcriptomics, reverse genetics, and protein characterization identified a GH25 hydrolase with lysozyme activity as a major effector of this microbial antagonism. Our findings broaden the understanding of microbial interactions within the phyllosphere, provide insights into the evolution of epiphytic basidiomycete yeasts, and pave the way for novel biocontrol strategies.

Published

2021

13. Broad and narrow host ranges in resolved species of Cintractia limitata s. lat. (Anthracoideaceae, Ustilaginomycotina) on Cyperus.

Author

Kruse, J., McTaggart, A. R., Dhileepan, K., Musili, P. M., Mutie, F. M., Ntandu, J. E., Edogbanya, P. R. O., Chukwuma, E. C., and Shivas, R. G.

Abstract

Cintractia (Anthracoideaceae, Ustilaginomycotina) is a widespread genus of smut fungi that parasitizes species of Cyperaceae. Specimens of Cintractia spp. on species of Cyperus s. lat. were examined to resolve their taxonomy, including a species on Cyperus aromaticus, which is an invasive weed in Australia. A phylogenetic species concept was used to show that Cintractia limitata s. lat. contains three different species, Cintractia limitata, C. tangensis, and a new species C. kyllingae. The proposed taxonomy is based on phylogenetic analyses of the ITS rDNA region and on the position of the sori in diverse parts of inflorescences examined in approximately 100 specimens of Cintractia. A morphological synapomorphy in C. tangensis is sori with firmly agglutinated spore masses around the base of the peduncles, rarely in the spikelets. Cintractia limitata forms powdery spore masses between flowers and is known only to occur on Cyperus species with spikelets in capitate heads. Cintractia kyllingae was found on Cy. aromaticus and may have potential as a biological control agent in Australia. [ABSTRACT FROM AUTHOR]

Published

2021

14. Novel Secreted Effectors Conserved Among Smut Fungi Contribute to the Virulence of Ustilago maydis .

Author

Schuster M, Schweizer G, Reißmann S, Happel P, Aßmann D, Rössel N, Güldener U, Mannhaupt G, Ludwig N, Winterberg S, Pellegrin C, Tanaka S, Vincon V, Presti LL, Wang L, Bender L, Gonzalez C, Vranes M, Kämper J, Seong K, Krasileva K, and Kahmann R

Subjects

Virulence genetics, Plant Diseases microbiology, Fungal Proteins genetics, Fungal Proteins metabolism, Zea mays microbiology, Ustilago genetics, Ustilaginales, Basidiomycota

Abstract

Fungal pathogens deploy a set of molecules (proteins, specialized metabolites, and sRNAs), so-called effectors, to aid the infection process. In comparison to other plant pathogens, smut fungi have small genomes and secretomes of 20 Mb and around 500 proteins, respectively. Previous comparative genomic studies have shown that many secreted effector proteins without known domains, i.e., novel, are conserved only in the Ustilaginaceae family. By analyzing the secretomes of 11 species within Ustilaginaceae, we identified 53 core homologous groups commonly present in this lineage. By collecting existing mutants and generating additional ones, we gathered 44 Ustilago maydis strains lacking single core effectors as well as 9 strains containing multiple deletions of core effector gene families. Pathogenicity assays revealed that 20 of these 53 mutant strains were affected in virulence. Among the 33 mutants that had no obvious phenotypic changes, 13 carried additional, sequence-divergent, structurally similar paralogs. We report a virulence contribution of seven previously uncharacterized single core effectors and of one effector family. Our results help to prioritize effectors for understanding U. maydis virulence and provide genetic resources for further characterization. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license., Competing Interests: The author(s) declare no conflict of interest.

Published

2024

15. Total Synthesis of Mannosylerythritol Lipids and Structure-Function Relationship Studies.

Author

Takahashi D and Toshima K

Subjects

Glycolipids chemistry, Fatty Acids, Structure-Activity Relationship, Surface-Active Agents chemistry, Ustilaginales

Abstract

Mannosylerythritol lipid (MEL) has attracted much attention as an environmentally benign and biocompatible material in many research fields due to its significant biochemical and physiological properties. However, heterogeneity always exists in MEL obtained from microbial products with respect to the chain length of the fatty acids. In this context, the total synthesis of the 20 members of MEL was effectively and stereoselectively achieved using our boron-mediated aglycon delivery (BMAD) method. In addition, structure-function relationship (SFR) studies of antibacterial activity, self-assembling properties, and recovery effects on damaged skin cells have been conducted, and these results are introduced in this mini-review article.

Published

2024

16. Intracellular polyamines regulate redox homeostasis with cAMP-PKA signalling during sexual mating/filamentation and pathogenicity of Sporisorium scitamineum.

Author

Yin K, Cui G, Bi X, Liang M, Hu Z, and Deng YZ

Subjects

Virulence, Polyamines metabolism, Reactive Oxygen Species metabolism, Oxidation-Reduction, Putrescine metabolism, Spermidine metabolism, Homeostasis, Ustilaginales, Saccharum genetics, Saccharum metabolism, Saccharum microbiology, Basidiomycota

Abstract

Sugarcane smut caused by Sporisorium scitamineum seriously impairs sugarcane production and quality. Sexual mating/filamentation is a critical step of S. scitamineum pathogenesis, yet the regulatory mechanisms are not fully understood. In this study, we identified the SsAGA, SsODC, and SsSAMDC genes, which are involved in polyamine biosynthesis in S. scitamineum. Deletion of SsODC led to complete loss of filamentous growth after sexual mating, and deletion of SsAGA or SsSAMDC caused reduced filamentation. Double deletion of SsODC and SsSAMDC resulted in auxotrophy for putrescine (PUT) and spermidine (SPD) when grown on minimal medium (MM), indicating that these two genes encode enzymes that are critical for PUT and SPD biosynthesis. We further showed that low PUT concentrations promoted S. scitamineum filamentation, while high PUT concentrations suppressed filamentation. Disrupted fungal polyamine biosynthesis also resulted in a loss of pathogenicity and reduced fungal biomass within infected plants at the early infection stage. SPD formed a gradient from the diseased part to nonsymptom parts of the cane stem, suggesting that SPD is probably favourable for fungal virulence. Mutants of the cAMP-PKA (SsGPA3-SsUAC1-SsADR1) signalling pathway displayed up-regulation of the SsODC gene and elevated intracellular levels of PUT. SsODC directly interacted with SsGPA3, and sporidia of the ss1uac1ΔodcΔ mutant displayed abundant pseudohyphae. Furthermore, we found that elevated PUT levels caused accumulation of intracellular reactive oxygen species (ROS), probably by suppressing transcription of ROS-scavenging enzymes, while SPD played the opposite role. Overall, our work proves that polyamines play important roles in the pathogenic development of sugarcane smut fungus, probably by collaboratively regulating intracellular redox homeostasis with the cAMP-PKA signalling pathway., (© 2023 The Authors. Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)

Published

2024

17. Farysia magdalena sp. nov. and description of the anamorph of Anthracocystis heteropogonicola from the Americas.

Author

Rush, Tomás Allen, Albu, Sebastian, Kijpornyongpan, Teeratas, and Aime, M. Catherine

Abstract

Several interesting Ustilaginaceae yeast morphs were isolated during ongoing surveys of phylloplane-associated fungi in Louisiana (USA) and Guyana. Here we describe Farysia magdalena sp. nov., a phylloplane yeast isolated in southern Louisiana, based on phylogenetic analyses, assimilation profiles and morphological characters, and discuss the yeast morphs in this genus. Additionally, we describe the anamorphic stage of Anthracocystis heteropogonicola, isolated from plant phylloplanes from the Americas. This is the first report of this fungus in the Western Hemisphere and the first description of the yeast morph for a species of Anthracocystis. [ABSTRACT FROM AUTHOR]

Published

2020

18. Pathogenic Fungi in Ferns and Angiosperms: A Comparative Study.

Author

Antonovics, Janis

Subjects

*PATHOGENIC fungi, *FERNS, *ANGIOSPERMS, *PLANT species, *COMPARATIVE studies

Abstract

This study used existing databases to test the hypothesis that fern species harbor fewer pathogen species than angiosperm species. Analysis was limited to fungal pathogens because of their visibility and to herbaceous perennial dicots (forbs) because they have a similar growth form to ferns. From complete listings in the United States Department of Agriculture plant-fungal database, the number of pathogen species recorded on 200 randomly chosen ferns and herbaceous perennial dicot species were assessed. To control for differences in study effort, the number of citations to these species in the Web of Science was determined. The results showed that the major predictor of the number of fungal pathogen species known to occur on a plant species was study effort, but after controlling for this, the likelihood of a fern species being recorded as having a fungal pathogen species was much less than that for a forb. When pathogens were present, there were approximately 50% fewer pathogen species recorded on fern species than on forb species. This pattern is present even though fern species were cited on average more often than forb species, and it is consistent with impressions in the literature from studies in other parts of the world. Testable hypotheses to explain this difference are evaluated in the context of evolutionary processes leading to variation for pathogen incidence in different phylogenetic lineages, but the physiological or molecular processes that determine the higher resistance of ferns to fungal pathogens remain unknown. [ABSTRACT FROM AUTHOR]

Published

2020

19. Anthracoidea obtusatae T. Denchev, Denchev, Begerow & Kemler 2023, sp. nov

Author

Denchev, Teodor T., Denchev, Cvetomir M., Begerow, Dominik, and Kemler, Martin

Subjects

Anthracoideaceae, Basidiomycota, Fungi, Ustilaginomycetes, Biodiversity, Anthracoidea, Ustilaginales, Anthracoidea obtusatae, Taxonomy

Abstract

Anthracoidea obtusatae T. Denchev, Denchev, Begerow & Kemler, sp. nov. (Figs 2–6) Index Fungorum number: IF 900382 Type: —On Carex obtusata Lilj. (Cyperaceae). RUSSIA. Altay Republic: Altay Mts, Kosh-Agachskiy Rayon, 19 km ENE Kosh-Agach, valley of the Kokorya River, 50°05′56″N, 88°53′35″E, elev. 2060 m, 8 August 2008, leg. B. Martins & M. Schnittler 2468, comm. C.M. Denchev & T.T. Denchev (SOMF 30400, holotype). LSU rDNA GenBank accession no.: —OQ679943. Diagnosis: — Anthracoidea obtusatae differs from the Anthracoidea species on hosts in the Carex Capitata Clade by having small-sized spores while A. nardinae and A. rupestris possess medium-sized spores. Etymology: —The epithet is derived from the host plant, Carex obtusata. Infection local. Sori in some female flowers, around aborted nuts as ovoid or ellipsoidal, hard bodies, 1.3–2.5 mm long, initially covered by a thin, greyish peridium that later flakes away exposing a black spore mass, powdery on the surface. Spores small-sized, flattened, in plane view irregularly rounded, suborbicular, broadly elliptical, elliptical or ovate, in plane view (12.5–)13.5–19(–20) × (10.5–)11.5–15.5(–17) (15.7 ± 1.3 × 13.2 ± 1.0) μm (n = 300), in side view 12–14.5 μm thick, medium to dark reddish brown; wall unevenly thickened, 0.8–2.0(–2.3) μm thick, with 1–3(–4), well visible internal swellings, light refractive areas and protuberances absent; smooth. In SEM, sparsely punctate, ornaments up to 0.1 μm high. Spore germination unknown. Known host and distribution: —On Cyperaceae: Carex, Capitata Clade of C. subgen. Euthyceras: Carex obtusata, Central Asia (Kazakhstan, Mongolia, Russia) (Fig. 7). Literature records (specimens not seen):— On Carex obtusata. MONGOLIA. Uvs Province: Mongolian Altay Range, Turgen-uul, Burgastayn-gol valley, 15 km S of Uureg-nuur Lake, at approximately 49°53′N, 1 August 1964, leg. M. Schmiedeknecht 2239a (as ‘ Cintractia / Anthracoidea caricis ’) (Schmiedeknecht & Puncag 1966, Braun 1999). — KAZAKHSTAN. Northern Tian Shan Range, Zailiysky Alatau Range, Big Almaty Gorge, 43°03′50.6″N, 76°59′05.1″Е, elev. 2480 m, 3 September 2018, leg. U.K. Jetigenova s.n. (as ‘ Anthracoidea caricis ’) (AA; Sypabekkyzy et al. 2020). — Northern Tian Shan Range, Ketmen Ridge, Komirchi, elev. ca. 2800 m, 6 August 1946, leg. N. Rubtsov & E. Stepanova s.n. (as ‘ Cintractia caricis ’) (Schwartzman 1960). Additional specimens examined: — Anthracoidea caricis-pauciflorae (Lehtola) Kukkonen on Carex pauciflora Lightf. FINLAND. Satakunta, Kankaanpää, Luomajärvi, Vääräneva, 18 August 1935, leg. L.E. Kari, in Fungi Exsicc. Fenn. 220 (K(M), isoparatype). — Anthracoidea caryophylleae Kukkonen on Carex caryophyllea Latourr. BULGARIA. Pernik Province: above Kralev Dol village, 42°33′42.0″N, 23°05′04.4″E, elev. 845 m, 9 May 2014, leg. C.M. Denchev & T.T. Denchev 1414 (SOMF 30399); LSU rDNA accession no. OQ679944. — Anthracoidea externa on Carex filifolia Nutt. U.S.A. Wyoming: Buffalo, August 1808, leg. Williams & Griffiths, in D. Griffiths, West American Fungi 305 (NY, isotype). — Anthracoidea rupestris on Carex rupestris All. GREENLAND. West Greenland: Ilulissat (as ‘Jakobshavn’), 69°13′N, 51°06′W, 19 July 1892, leg. G.H. Sørensen s.n., comm. C.M. Denchev & T.T. Denchev (CGreenland herb., s.n.). — West Greenland: Sisimiut, 31 July 1947, leg. T. Sørensen s.n., comm. C.M. Denchev & T.T. Denchev (C-Greenland herb., s.n.). — Anthracoidea sp. on Carex obtusata. CANADA. Yukon: Mt. Caribou, 5 mi. N of Carcross, 17 August 1949, leg. J.M. Gillett 4550 & D.A. Mitchell, det. D.B.O. Savile (DAOM 28184, as ‘ Cintractia caricis var. intermedia Savile’, Savile 1952: 425; a paratype of Anthracoidea caryophylleae, Kukkonen 1963: 55). Comments: — Carex obtusata is distributed in North, Central, and East Europe, the Caucasus, Siberia, Russian Far East, Central Asia to NE China, Alaska, Canada, and the Rocky Mts (Egorova 1999, Murray 2002, Koopman 2022). It is an Eurasiatic–amphi-Beringian–North American (western) species (Egorova 1999, Elven et al. 2018). Only two smut fungi are known to infect C. obtusata: Anthracoidea / Cintractia caricis (Savile 1952, Fischer 1953, Zundel 1953, Schwartzman 1960, Jørstad 1962, Sypabekkyzy et al. 2020) and Anthracoidea caryophylleae (Kukkonen 1963, Nannfeldt 1979, Vánky 2011a). In the past, Anthracoidea / Cintractia caricis was considered in a very broad sense (e.g. Fischer 1953, Zundel 1953, Schwartzman 1960). Vánky (2011a: 26–27) listed many carices that were cited in the literature or preserved in herbaria as hosts of Anthracoidea caricis. Currently, the hosts of A. caricis are reduced to members of Carex sect. Acrocystis (Vánky 2011a, Denchev et al. 2021a). Similarly, the hosts of A. caryophylleae are reduced to carices in C. sect. Mitratae, in its traditional circumscription (Denchev et al. 2013). To test the hypothesis that Carex obtusata is not a host of A. caryophylleae, we carried out a molecular study of a specimen of A. caryophylleae on Carex caryophyllea Latourr. (a type host of this smut fungus) from Bulgaria. The data obtained confirmed that Anthracoidea obtusatae is a distinct species from A. caryophylleae (Fig. 1, Table 1). From Europe, Anthracoidea on Carex obtusata had been reported only once (Zundel 1953: 23, as ‘ Cintractia caricis ’), based on the following specimen: Germany, Berlin, Pichelswerder, 30 May 1869, leg. Vatke s.n. (HBC, as ‘ Ustilago urceolorum (DC.) Tul. & C. Tul. ’, q.e. Anthracoidea caricis (Pers.) Bref.). Scholz & Scholz (1988: 45), however, noted that both the fungus and the host plant of this specimen were misidentified, instead of A. caryophylleae on Carex supina Wahlenb. From North America, Anthracoidea on Carex obtusata is known from Alaska (Jørstad 1962), Canada — Yukon (Savile 1952, as ‘ Cintractia caricis var. intermedia ’; Nannfeldt 1979, as ‘ Anthracoidea caryophylleae ’) and Saskatchewan (Fischer 1953, as ‘ Ci. caricis ’), and U.S.A.—Montana, Galcier National Park (DAOM, as ‘ Anthracoidea caryophylleae ’). We examined a specimen of Anthracoidea on Carex obtusata from Yukon (DAOM 28184) and found that its spore morphology does not agree with that of Anthracoidea obtusatae. The Canadian specimen differs by having (i) larger spores, (15.5–)16.5–21(–22.5) × (13.5–)14.5–18(–19) (19.0 ± 1.4 × 16.2 ± 1.1) μm (n = 100), (ii) higher warts, up to 0.35 μm high, and (iii) fewer and less conspicuous internal swellings (Figs. 8–11). Additional collections and molecular study are required to further clarify the taxonomic position of the North American Anthracoidea species on Carex obtusata. Carex obtusata has been traditionally included in a monotypic section, C. sect. Obtusatae (Tuck.) Mack. (Egorova 1999, Murray 2002) of Carex subgen. Psyllophora (Degl.) Peterm. A recently proposed classification of Carex places this sedge within the Capitata Clade of Carex subgen. Euthyceras Peterm. (Roalson et al. 2021). The Capitata Clade is an informal group of species that includes 11 carices with a single, terminal androgynous spike: C. arctogena Harry Sm., C. argunensis Turcz. ex Trevir., C. capitata Sol., C. microglochin Wahlenb., C. monostachya A. Rich., C. motuoensis Y.C. Yang, C. nardina (Hornem.) Fr., C. obtusata, C. oreophila C.A. Mey., C. runssoroensis K. Schum., and C. rupestris (Roalson et al. 2021). Two Anthracoidea species have been previously reported on carices in the Capitata Clade: A. nardinae (Kukkonen) Nannf. on Carex nardina, and A. rupestris Kukkonen on Carex rupestris (Vánky 2011a, Denchev et al. 2020). Anthracoidea obtusatae differs from A. nardinae by having small-sized spores versus medium-sized spores, (16–)17–22(–23) (19.2 ± 0.9) μm long, for A. nardinae (after Denchev et al. 2020). Anthracoidea obtusatae can be distinguished from A. rupestris by having (i) small-sized spores versus medium-sized spores, (16–)17–23(–26) (20.3 ± 1.5) μm long, for A. rupestris, (ii) thinner spore wall, 0.8–2.0(–2.3) μm thick versus 1–3(–3.8) μm thick for A. rupestris, and (iii) sparsely punctate wall ornamentation, with ornaments up to 0.1 μm high, versus densely spaced, minutely verruculose ornamentation for A. rupestris (data for A. rupestris based on our study of Greenlandic specimens in C-Greenland herb.). In the most recent infrageneric classification of Carex, Roalson et al. (2021) applied combinations of informally named clades that have the potential to be described as formal sections, but that are not currently recognized as such, and formally named sections to reflect the current state of knowledge of Carex phylogeny. The Capitata–Schiedeanae Clade comprises species mainly with unbranched terminal spikes (excl. C. sect. Schiedeanae), and it is divided into five named clades/sections (Roalson et al. op.cit.). In these phylogenetic clades, there are additional carices with known Anthracoidea species on them: A. breweri Salo & Vánky on Carex breweri Boott and C. subnigricans Stacey, A. caricis-pauciflorae (Lehtola) Kukkonen on Carex pauciflora Lightf., A. externa (Griffiths) Kukkonen on Carex filifolia Nutt., and A. kenaica (Savile) Piątek on Carex micropoda C.A. Mey. (Kukkonen 1963, Nannfeldt 1979, Vánky 2011a, b, Denchev et al. 2020, Denchev & Denchev 2022). ......continued on the next page Anthracoidea obtusatae can easily be differentiated from these species by spore size and other features. Anthracoidea breweri (after Vánky 2011b) has medium-sized to large-sized spores, 20–27 μm long; evenly thickened spore wall, ca. 1.5 μm thick, without internal swellings; and presence of distinctly and densely minutely verruculose ornamentation. Anthracoidea caricis-pauciflorae (our study of Fungi Exsicc. Fenn. 220, K(M), isoparatype) has large-sized spores, (18.5–)19.5–28(–30.5) (23.3 ± 2.1) μm long; spore wall without internal swellings; light refractive areas common (often with more than one); and minutely to moderately verruculose ornamentation, warts 0.2–0.4 μm high. Anthracoidea externa (our study of D. Griffiths, West American Fungi 305, NY, isotype) has medium-sized spores, (16–)17–21.5(–23) (18.8 ± 1.5) μm long, with more regular shape (in plane view orbicular or broadly elliptical); absence of internal swellings; presence of a well developed hyaline sheath. Anthracoidea kenaica (after Denchev & Denchev 2022) has medium-sized spores, (16–)17–21(–23) (19.3 ± 1.1) μm long; evenly or almost evenly thickened spore wall, 0.8–1.2(–1.5) μm thick, presence of a thin hyaline sheath around some spores. Five other species in the Capitata–Schiedeanae Clade, C. capillacea Boott, C. capitata L., C. leptalea Wahlenb., C. microglochin Wahlenb., and C. rara Boott, are recorded as hosts of Anthracoidea caricis (see Vánky 2011a: 26), but as was stated above, currently, the host range of A. caricis includes only sedges in Carex sect. Acrocystis, and the phylogenetic placement of the Anthracoidea species on these carices remains unresolved., Published as part of Denchev, Teodor T., Denchev, Cvetomir M., Begerow, Dominik & Kemler, Martin, 2023, Anthracoidea obtusatae (Anthracoideaceae, Ustilaginales), a new smut fungus on Carex obtusata (Cyperaceae) from Central Asia, pp. 139-148 in Phytotaxa 595 (2) on pages 142-146, DOI: 10.11646/phytotaxa.595.2.2, http://zenodo.org/record/7905832, {"references":["Shorthouse, D. P. (2010) SimpleMappr, an online tool to produce publication-quality point maps. Available from: http: // www. simplemappr. net (accessed: 26 March 2023).","Schmiedeknecht, M. & Puncag, T. (1966) Ustilaginales aus der Mongolischen Volksrepublik. Ergebnisse der Mongolisch-Deutschen Biologisehen Expeditionen seit 1962, Nr. 17. Feddes Repertorium 73 (3): 170 - 183. https: // doi. org / 10.1002 / fedr. 4910730304","Braun, U. (1999) An annotated list of Mongolian phytoparasitic micromycetes. Schlechtendalia 3: 1 - 32.","Sypabekkyzy, G., Rakhimova, Y. V., Yermekova, B. D., Kyzmetova, L. A. & Assylbek, A. M. (2020) Smut fungi of Zailiysky Alatau: species composition, host range and distribution features. Eurasian Journal of Ecology 62 (1): 87 - 98. https: // doi. org / 10.26577 / EJE. 2020. v 62. i 1.09","Schwartzman, S. R. (1960) Smut fungi. In: Cryptogamic flora of Kazakhstan. Vol. 2. Izdatel'stvo Akademii Nauk Kazakhskoi SSR, Alma Ata, 369 pp. [In Russian]","Savile, D. B. O. (1952) A study of the species of Cintractia on Carex, Kobresia, and Scirpus in North America. Canadian Journal of Botany 30: 410 - 435. https: // doi. org / 10.1139 / b 52 - 032","Kukkonen, I. (1963) Taxonomic studies on the genus Anthracoidea (Ustilaginales). Annales Botanici Societatis Zoologicae Botanicae Fennicae ' Vanamo' 34 (3): 1 - 122.","Egorova, T. V. (1999) The sedges (Carex L.) of Russia and adjacent states (within the limits of the former USSR). St. Petersburg State Chemical-Pharmaceutical Academy, St. Petersburg & Missouri Botanical Garden Press, St. Louis, 773 pp.","Murray, D. F. (2002) Carex section Obtusatae (Tuckerman) Mackenzie. In: Flora of North America Editorial Committee (Eds.) Flora of North America, north of Mexico. Magnoliophyta: Commelinidae (in part): Cyperaceae. Vol. 23. Oxford University Press, New York, pp. 555.","Koopman, J. (2022) Carex Europaea. 3 rd edn. The genus Carex L. in Europe. Vol. 1. Accepted names, hybrids, synonyms, distribution, chromosome numbers. Margraf Publishers, Weikersheim, Germany, 808 pp.","Elven, R., Murray, D. F., Razzhivin, V. Y. & Yurtsev, B. A. (Eds.) (2018) Annotated checklist of the Panarctic Flora (PAF). Vascular plants. Natural History Museum, University of Oslo. Available from: https: // panarcticflora. org / (accessed: 22 March 2023).","Fischer, G. W. (1953) Manual of the North American smut fungi. Ronald Press Co., New York, 343 pp.","Zundel, G. L. (1953) The Ustilaginales of the World. Pennsylvania State College, School of Agriculture, Department of Botany. Contributions 176: i - xi + 1 - 410.","Jorstad, I. (1962) Parasitic fungi collected in Alaska by Olav Gjaerevoll. Kongelige Norske Videnskabers Selskabs Skrifter (Trondheim) 1962 (4): 1 - 22.","Nannfeldt, J. A. (1979) Anthracoidea (Ustilaginales) on Nordic Cyperaceae-Caricoideae, a concluding synopsis. Symbolae Botanicae Upsalienses 22 (3): 1 - 41.","Vanky, K. (2011 a) Smut fungi of the world. APS Press, St. Paul, 1458 pp.","Denchev, T. T., Denchev, C. M., Koopman, J., Begerow, D. & Kemler, M. (2021 a) Host specialization and molecular evidence support a distinct species of smut fungus, Anthracoidea hallerianae (Anthracoideaceae), on Carex halleriana (Cyperaceae). Willdenowia 51: 57 - 67. https: // doi. org / 10.3372 / wi. 51.51105","Denchev, T. T., Denchev, C. M., Michikawa, M. & Kakishima, M. (2013) The genus Anthracoidea (Anthracoideaceae) in Japan and some adjacent regions. Mycobiota 2: 1 - 125. https: // doi. org / 10.12664 / mycobiota. 2013.02.01","Scholz, H. & Scholz, I. (1988) Die Brandpilze Deutschlands (Ustilaginales). Englera 8: 1 - 691. https: // doi. org / 10.2307 / 3776736","Roalson, E. H., Jimenez-Mejias, P., Hipp, A. L., Benitez-Benitez, C., Bruederle, L. P., Chung, K. - S., Escudero, M., Ford, B. A., Ford, K., Gebauer, S., Gehrke, B., Hahn, M., Hayat, M. Q., Hoffmann, M. H., Jin, X. - F., Kim, S., Larridon, I., Leveille-Bourret, E., Lu, Y. - F., Luceno, M., Maguilla, E., Marquez-Corro, J. I., Martin-Bravo, S., Masaki, T., Miguez, M., Naczi, R. F. C., Reznicek, A. A., Spalink, D., Starr, J. R., Uzma, Villaverde, T., Waterway, M. J., Wilson, K. L. & Zhang, S. - R. (2021) A framework infrageneric classification of Carex (Cyperaceae) and its organizing principles. Journal of Systematics and Evolution 59: 726 - 762. https: // doi. org / 10.1111 / jse. 12722","Denchev, T. T., Knudsen, H. & Denchev, C. M. (2020) The smut fungi of Greenland. MycoKeys 64: 1 - 164. https: // doi. org / 10.3897 / mycokeys. 64.47380","Denchev, T. T. & Denchev, C. M. (2022) Anthracoidea kenaica - a new record from Russia. Mycotaxon 137: 353 - 358. https: // doi. org / 10.5248 / 137.353","Hendrichs, M., Begerow, D., Bauer, R. & Oberwinkler, F. (2005) The genus Anthracoidea (Basidiomycota, Ustilaginales): a molecular phylogenetic approach using LSU rDNA sequences. Mycological Research 109: 31 - 40. https: // doi. org / 10.1017 / S 0953756204001686","Savchenko, K. G., Lutz, M., Piatek, M., Heluta, V. & Nevo, E. (2013) Anthracoidea caricis-meadii is a new North American smut fungus on Carex sect. Paniceae. Mycologia 105: 181 - 193. https: // doi. org / 10.3852 / 12 - 074","Piatek, M., Lutz, M., Nobis, M. & Nowak, A. (2015) Phylogeny and morphology of Anthracoidea pamiroalaica sp. nov. infecting the endemic sedge Carex koshewnikowii in the Pamir Alai Mts (Tajikistan). Mycological Progress 14: 120. https: // doi. org / 10.1007 / s 11557 - 015 - 1140 - 1","Matheny, P. B., Gossmann, J. A., Zalar, P., Kumar, T. K. A. & Hibbett, D. S. (2007) Resolving the phylogenetic position of the Wallemiomycetes: an enigmatic major lineage of Basidiomycota. Canadian Journal of Botany 84: 1794 - 1805. https: // doi. org / 10.1139 / b 06 - 128","Piepenbring, M., Begerow, D. & Oberwinkler, F. (1999) Molecular sequence data assess the value of morphological characteristics for a phylogenetic classification of species of Cintractia. Mycologia 91: 485 - 498. https: // doi. org / 10.1080 / 00275514.1999.12061042","Begerow, D., Stoll, M. & Bauer, R. (2006) A phylogenetic hypothesis of Ustilaginomycotina based on multiple gene analyses and morphological data. Mycologia 98: 906 - 916. https: // doi. org / 10.1080 / 15572536.2006.11832620","Denchev, T. T., Martin, M. P., Kemler, M. & Denchev, C. M. (2021 b) Additions to the smut fungi of the Iberian Peninsula. Anales del Jardin Botanico de Madrid 78: e 109 [pp. 1 - 13]. https: // doi. org / 10.3989 / ajbm. 2589","Gonzalez, V., Vanky, K., Platas, G. & Lutz, M. (2007) Portalia gen. nov. (Ustilaginomycotina). Fungal Diversity 27: 45 - 55.","Kijpornyongpan, T., Mondo, S. J., Barry, K., Sandor, L., Lee, J., Lipzen, A., Pangilinan, J., LaButti, K., Hainaut, M., Henrissat, B., Grigoriev, I. V., Spatafora, J. W. & Aime, M. C. (2018) Broad genomic sampling reveals a smut pathogenic ancestry of the fungal clade Ustilaginomycotina. Molecular Biology and Evolution 35: 1840 - 1854. https: // doi. org / 10.1093 / molbev / msy 072","Vanky, K. (2008) Taxonomic studies on Ustilaginomycetes - 28. Mycotaxon 106: 133 - 178.","Begerow, D., Bauer, R. & Oberwinkler, F. (1998) Phylogenetic studies on nuclear large subunit ribosomal DNA sequences of smut fungi and related taxa. Canadian Journal of Botany 75: 2045 - 2056. https: // doi. org / 10.1139 / b 97 - 916","Vanky, K. (2011 b) Seven new species of smut fungi (Ustilaginomycotina). Mycologia Balcanica 8: 97 - 104. https: // doi. org / 10.5281 / zenodo. 2550638"]}

Published

2023

20. Tranzscheliella helutae K. G. Savchenko 2023, sp. nov

Author

Savchenko, Kyryll and Mahmood, Huda

Subjects

Basidiomycota, Ustilaginaceae, Fungi, Ustilaginomycetes, Biodiversity, Ustilaginales, Tranzscheliella, Taxonomy, Tranzscheliella helutae

Abstract

Tranzscheliella helutae K.G. Savchenko sp. nov. MycoBank: 846947 Etymology: After a Ukrainian mycologist Dr. Vasyl P. Heluta. Sori in the culms and surrounding the upper internodes and axes of abortive inflorescences, initially covered by the leaf sheath, later exposed. Peridium absent. Spore mass semi-agglutinated to powdery, dark brown. Spores globose to subglobose, 4.5–5.5 × 5–6.5 μm, dark olive-brown. Spores rarely with polar cups, medium brown, without appendages; spore wall c. 0.5–1 μm, smooth. In SEM unevenly, moderately verruculose. Typification: UKRAINE. Kherson Oblast: Hola Prystan District, Chernomorsky Biosphere Reserve, 46°45′15′′ N, 32°12′74′′ E, 7 m. asl, On Agropyron cristatum, 07 June 2009, K. G. Savchenko, BUT-F 304 (holotype). Other specimens examined: UKRAINE. Kherson Oblast: Hola Prystan District, Chernomorsky Biosphere Reserve, 46°31′35′′ N, 31°94′22′′ E, 1 m. asl, on Agropyron cristatum, 09 June 2009, K. G. Savchenko, BUT-F 305 (paratype). Note— Tranzscheliella helutae is a part of T. hypodytes species complex. Tranzscheliella helutae is the only species from this genus occurring on Agropyron (subfamily Pooideae, tribe Triticeae). Agropyron contains about seven species found in temperate, mostly arid regions of Eurasia (Dewey 1986). Several species of Agropyron were listed as hosts of T. hypodytes s.l. by Vánky (2012). Tranzscheliella helutae has slightly larger and darker spores than T. hypodytes s.str. (4–4.5 × 4.5–5.5 μm). The spores of T. helutae are unevenly, and moderately verruculose in SEM, which differ from the densely, minutely, uniformly verruculose spores of T. hypodytes s.str. In the phylogenetic analysis, specimens of T. helutae were resolved in a well-supported monophyletic clade (Fig. 1). In a concatenated alignment there are 25 base pair differences between T. helutae and the most closely related species, T. yupeitaniae., Published as part of Savchenko, Kyryll & Mahmood, Huda, 2023, Tranzscheliella helutae sp. nov. on Agropyron cristatum from Ukraine, pp. 151-156 in Phytotaxa 592 (2) on pages 154-155, DOI: 10.11646/phytotaxa.592.2.9, http://zenodo.org/record/7840526, {"references":["Dewey, D. R. (1986) Taxonomy of the crested wheatgrass (Agropyron). In: Johnson, K. L. (ed.) Crested wheatgrass: its values, problems and myths. Utah State University, Logan, pp. 31 - 44.","Vanky, K. (2012) Smut fungi of the world. APS Press, St. Paul, MN, 1458 pp."]}

Published

2023

21. Tranzscheliella helutae sp. nov. on Agropyron cristatum from Ukraine

Author

KYRYLL SAVCHENKO and HUDA MAHMOOD

Subjects

Basidiomycota, Ustilaginaceae, Fungi, Ustilaginomycetes, Plant Science, Biodiversity, Ustilaginales, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

The morphology and phylogeny of Tranzscheliella on Agropyron cristatum (Triticeae) collected in Ukraine were studied by light microscopy, scanning electron microscopy and a molecular phylogenetic data of two rDNA loci (ITS and 28S). As a result, T. helutae sp. nov. is described. The fungus differs from other species from the T. hypodytes complex by a combination of morphological and molecular data.

Published

2023

22. Substrates of Opposite Polarities and Downstream Processing for Efficient Production of the Biosurfactant Mannosylerythritol Lipids from Moesziomyces spp.

Author

Faria NT, Nascimento MF, Ferreira FA, Esteves T, Santos MV, and Ferreira FC

Subjects

Soybean Oil, Oils, Glycolipids, Surface-Active Agents chemistry, Glucose, Carbon, Ustilaginales

Abstract

Biosurfactants can replace fossil-driven surfactants with positive environmental impacts, owing to their low eco-toxicity and high biodegradability. However, their large-scale production and application are restricted by high production costs. Such costs can be reduced using renewable raw materials and facilitated downstream processing. Here, a novel strategy for mannosylerythritol lipid (MEL) production explores the combination of hydrophilic and hydrophobic carbon sources sideways with a novel downstream processing strategy, based on nanofiltration technology. Co-substrate MEL production by Moesziomyces antarcticus was threefold higher than using D-glucose with low levels of residual lipids. The use of waste frying oil instead of soybean oil (SBO) in co-substrate strategy resulted in similar MEL production. Moesziomyces antarcticus cultivations, using 3.9 M of total carbon in substrates, yields 7.3, 18.1, and 20.1 g/L of MEL, and 2.1, 10.0, and 5.1 g/L of residual lipids, for D-glucose, SBO, and a combination of D-Glucose and SBO, respectively. Such approach makes it possible to reduce the amount of oil used, offset by the equivalent molar increase in D-glucose, improving sustainability and decreasing residual unconsumed oil substrates, facilitating downstream processing. Moesziomyces spp. also produces lipases that broken down the oil and, thus, residual unconsumed oils are in the form of free fatty-acids or monoacylglycerol, which are smaller molecules than MEL. Therefore, nanofiltration of ethyl acetate extracts from co-substrate-based culture broths allows to improve MEL purity (ratio of MEL per total MEL and residual lipids) from 66 to 93% using 3-diavolumes., (© 2023. The Author(s).)

Published

2023

23. A sugarcane smut fungus effector simulates the host endogenous elicitor peptide to suppress plant immunity

Author

Haitao Cui, Weihua Su, Xueqin Fu, Ning Huang, Zaofa Zhong, Wenxiong Lin, Hui Ling, and Youxiong Que

Subjects

biology, Physiology, Ustilago, Effector, Sugarcane smut, food and beverages, Virulence, Plant Immunity, Plant Science, biology.organism_classification, Saccharum, Cell biology, Elicitor, Smut, Peptides, Ustilaginales, Gene, Plant Diseases

Abstract

The smut fungus Sporisorium scitamineum causes the most prevalent disease on sugarcane. The mechanism of its pathogenesis, especially the functions and host targets of its effector proteins, are unknown. In order to identify putative effectors involving in S. scitamineum infection, a weighted gene co-expression network analysis was conducted based on the transcriptome profiles of both smut fungus and sugarcane using a customized microarray. A smut effector gene, termed SsPele1, showed strong co-expression with sugarcane PLANT ELICITOR PEPTIDE RECEPTOR1 (ScPEPR1), which encodes a receptor like kinase for perception of plant elicitor peptide1 (ScPep1). The relationship between SsPele1 and ScPEPR1, and the biological function of SsPele1 were characterized in this study. The SsPele1 C-terminus contains a plant elicitor peptide-like motif, by which SsPele1 interacts strongly with ScPEPR1. Strikingly, the perception of ScPep1 on ScPEPR1 is competed by SsPele1 association, leading to the suppression of ScPEPR1-mediated immune responses. Moreover, the Ustilago maydis effector UmPele1, an ortholog of SsPele1, promotes fungal virulence using the same strategy. This study reveals a novel strategy by which a fungal effector can mimic the plant elicitor peptide to complete its perception and attenuate receptor-activated immunity.

Published

2021

24. Effect of Chemical Seed Treatment on Rice False Smut Control in Field

Author

Junbin Huang, Weixiao Yin, Jie-Hui Song, Yufu Wang, and Chaoxi Luo

Subjects

China, biology, food and beverages, Ustilaginoidea virens, Oryza, Plant Science, biology.organism_classification, Fungicides, Industrial, chemistry.chemical_compound, Agronomy, chemistry, Seed treatment, Seeds, Rice false smut, Ustilaginales, Agronomy and Crop Science, Plant Diseases

Abstract

Rice false smut, caused by the pathogen Ustilaginoidea virens, is a severe emerging disease in China. It affects not only the quality of rice but also yields of rice production. To make clear the effect of chemical seed treatment on the rice false smut control in fields, during 2014 to 2017, four fungicides with different modes of action were used to treat rice seeds contaminated by false smut balls. In rice-growing seasons, samples of rice tissues were taken for detection of U. virens by using a specific nested PCR method at different rice-growing stages. In addition, the occurrence of rice false smut was investigated at maturation stage. Results showed that U. virens in plant tissues decreased significantly at the seedling stage upon chemical seed treatment. Four chemical treatments decreased the detection rate significantly (P < 0.01) compared with the water treatment, but no significant difference was observed among four chemical treatments. However, the detection rate did not decease significantly at the tillering and booting stages. Similarly, the final occurrence of rice false smut did not show significant difference between each chemical and water treatment. These results suggested that chemical seed treatment had only limited efficacy in preventing occurrence of rice false smut; application of fungicides at the booting stage or integrated use of fungicides and agricultural practices might give a better control for this disease.

Published

2021

25. Phyllosphere microbiome induces host metabolic defence against rice false-smut disease.

Author

Liu X, Matsumoto H, Lv T, Zhan C, Fang H, Pan Q, Xu H, Fan X, Chu T, Chen S, Qiao K, Ma Y, Sun L, Wang Q, and Wang M

Subjects

Hydrogen Peroxide, Leucine, Oryza genetics, Ustilaginales

Abstract

Mutualistic interactions between host plants and their microbiota have the potential to provide disease resistance. Most research has focused on the rhizosphere, but it is unclear how the microbiome associated with the aerial surface of plants protects against infection. Here we identify a metabolic defence underlying the mutualistic interaction between the panicle and the resident microbiota in rice to defend against a globally prevalent phytopathogen, Ustilaginoidea virens, which causes false-smut disease. Analysis of the 16S ribosomal RNA gene and internal transcribed spacer sequencing data identified keystone microbial taxa enriched in the disease-suppressive panicle, in particular Lactobacillus spp. and Aspergillus spp. Integration of these data with primary metabolism profiling, host genome editing and microbial isolate transplantation experiments revealed that plants with these taxa could resist U. virens infection in a host branched-chain amino acid (BCAA)-dependent manner. Leucine, a predominant BCAA, suppressed U. virens pathogenicity by inducing apoptosis-like cell death through H 2 O 2 overproduction. Additionally, preliminary field experiments showed that leucine could be used in combination with chemical fungicides with a 50% reduction in dose but similar efficacy to higher fungicide concentrations. These findings may facilitate protection of crops from panicle diseases prevalent at a global scale., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

26. WGCNA Identifies a Comprehensive and Dynamic Gene Co-Expression Network That Associates with Smut Resistance in Sugarcane

Author

Qibin Wu, Yong-Bao Pan, Yachun Su, Wenhui Zou, Fu Xu, Tingting Sun, Michael P. Grisham, Shaolin Yang, Liping Xu, and Youxiong Que

Subjects

Flavonoids, Organic Chemistry, sugarcane, smut resistance, gene co-expression network, hub genes, WGCNA, General Medicine, Glutathione, Hormones, Catalysis, Saccharum, Computer Science Applications, Inorganic Chemistry, Plant Breeding, Gene Expression Regulation, Plant, Gene Regulatory Networks, Amino Acids, Physical and Theoretical Chemistry, Edible Grain, Ustilaginales, Molecular Biology, Spectroscopy, Plant Diseases, Plant Proteins

Abstract

Sugarcane smut is a major fungal disease caused by Sporisorium scitamineum, which seriously reduces the yield and quality of sugarcane. In this study, 36 transcriptome data were collected from two sugarcane genotypes, YT93-159 (resistant) and ROC22 (susceptible) upon S. scitamineum infection. Data analysis revealed 20,273 (12,659 up-regulated and 7614 down-regulated) and 11,897 (7806 up-regulated and 4091 down-regulated) differentially expressed genes (DEGs) in YT93-159 and ROC22, respectively. A co-expression network was then constructed by weighted gene co-expression network analysis (WGCNA), which identified 5010 DEGs in 15 co-expressed gene modules. Four of the 15 modules, namely, Skyblue, Salmon, Darkorange, and Grey60, were significantly associated with smut resistance. The GO and KEGG enrichment analyses indicated that the DEGs involving in these four modules could be enriched in stress-related metabolic pathways, such as MAPK and hormone signal transduction, plant-pathogen interaction, amino acid metabolism, glutathione metabolism, and flavonoid, and phenylpropanoid biosynthesis. In total, 38 hub genes, including six from the Skyblue module, four from the Salmon module, 12 from the Darkorange module, and 16 from the Grey60 module, were screened as candidate hub genes by calculating gene connectivity in the corresponding network. Only 30 hub genes were amplifiable with RT-qPCR, of which 27 were up-regulated upon S. scitamineum infection. The results were consistent with the trend of gene expression in RNA-Seq, suggesting their positive roles in smut resistance. Interestingly, the expression levels of AOX, Cyb5, and LAC were higher in ROC22 than in YT93-159, indicating these three genes may act as negative regulators in response to S. scitamineum infection. This study revealed the transcriptome dynamics in sugarcane challenged by S. scitamineum infection and provided gene targets for smut resistance breeding in sugarcane.

Published

2022

27. Improvement of Oil Degradation and MEL Production in a Yeast Strain, Pseudozyma tsukubaensis, by Translation Elongation Factor 1 Promoter-driven Expression of a Lipase

Author

Azusa Saika, Hideaki Koike, Shuhei Yamamoto, Tomohiro Sugahara, Akio Kawahara, Atsushi Sogabe, and Tomotake Morita

Subjects

Surface-Active Agents, Peptide Elongation Factor 1, General Chemical Engineering, Basidiomycota, General Medicine, General Chemistry, Lipase, Glycolipids, Ustilaginales

Abstract

The basidiomycetous yeast Pseudozyma tsukubaensis produces a mannosylerythritol lipid (MEL) homologue, a diastereomer type of MEL-B, from olive oil. In a previous study, MEL-B production was increased by the overexpression of lipase PaLIPAp in P. tsukubaensis 1E5, through the enhancement of oil consumption. In the present study, RNA sequence analysis was used to identify a promoter able to induce high-level PaLIPA expression. The recombinant strain, expressing PaLIPA via the translation elongation factor 1 alpha/Tu promoter, showed higher lipase activity, rates of oil degradation, and MEL-B production than the strain which generated in our previous study.

Published

2022

28. Production of mannosylerythritol lipids: biosynthesis, multi-omics approaches, and commercial exploitation

Author

Stefany Solano-González and Frank Solano-Campos

Subjects

Nitrogen, Multigene Family, Fatty Acids, Genetics, Ustilaginales, Molecular Biology, Biochemistry, Carbon

Abstract

The production of mannosylerythritol lipids (MELs) has been reported on different smut fungi. These biomolecules possess four typical conformations to which key commercially interesting properties have been attributed.

Published

2022

29. Aminotransferase SsAro8 Regulates Tryptophan Metabolism Essential for Filamentous Growth of Sugarcane Smut Fungus

Author

Guobing, Cui, Chengwei, Huang, Xinping, Bi, Yixu, Wang, Kai, Yin, Luyuan, Zhu, Zide, Jiang, Baoshan, Chen, and Yi Zhen, Deng

Subjects

Tryptophan Transaminase, Basidiomycota, Tryptophan, Ustilaginales, Transaminases, Plant Diseases, Saccharum

Abstract

Sugarcane smut caused by the basidiomycetous fungus Sporisorium scitamineum leads to severe economic losses globally. Sexual mating/filamentation of S. scitamineum is critical for its pathogenicity, as only the dikaryotic hyphae formed after sexual mating are capable of invading the host cane. Our comparative transcriptome analysis showed that the mitogen-activated protein kinase (MAPK) pathway and the AGC kinase Agc1 (orthologous to yeast Rim15), both governing

Published

2022

30. An overview of erythritol production by yeast strains

Author

Anil B Khatape, Syed G Dastager, and Vidhya Rangaswamy

Subjects

Erythritol, Ascomycota, Osmotic Pressure, Genetics, Animals, Yarrowia, Bees, Ustilaginales, Molecular Biology, Microbiology, Candida

Abstract

Erythritol is a 4-carbon polyol produced with the aid of microbes in presence of hyper-osmotic stress. It is the most effective sugar alcohol that is produced predominantly by fermentation. In comparison to various polyols, it has many precise functions and is used as a flavor enhancer, sequestrant, humectant, nutritive sweetener, stabilizer, formulation aid, thickener, and a texturizer. Erythritol production is a common trait in a number of the yeast genera viz., Trigonopsis, Candida, Pichia, Moniliella, Yarrowia, Pseudozyma, Trichosporonoides, Aureobasidium, and Trichoderma. Extensive work has been carried out on the biological production of erythritol through Yarrowia, Moniliella, Candida, and other yeast strains, and numerous strategies used to improve erythritol productivity through mutagenesis and genetic engineering are discussed in this review.

Published

2022

31. Effectors involved in fungal-fungal interaction lead to a rare phenomenon of hyperbiotrophy in the tritrophic system biocontrol agent-powdery mildew-plant.

Author

Laur, Joan, Ramakrishnan, Gowsica Bojarajan, Labbé, Caroline, Lefebvre, François, Spanu, Pietro D., and Bélanger, Richard R.

Subjects

*BIOLOGICAL pest control agents, *ERYSIPHE graminis, *BLUMERIA diseases, *BARLEY, *PLANT genetics, *NUCLEOTIDE sequence

Abstract

* Tritrophic interactions involving a biocontrol agent, a pathogen and a plant have been analyzed predominantly from the perspective of the biocontrol agent. We have conducted the first comprehensive transcriptomic analysis of all three organisms in an effort to understand the elusive properties of Pseudozyma flocculosa in the context of its biocontrol activity against Blumeria graminis f.sp. hordei as it parasitizes Hordeum vulgare. * After inoculation of P. flocculosa, the tripartite interaction was monitored over time and samples collected for scanning electron microscopy and RNA sequencing. * Based on our observations, P. flocculosa indirectly parasitizes barley, albeit transiently, by diverting nutrients extracted by B. graminis from barley leaves through a process involving unique effectors. This brings novel evidence that such molecules can also influence fungal-fungal interactions. Their release is synchronized with a higher expression of powdery mildew haustorial effectors, a sharp decline in the photosynthetic machinery of barley and a developmental peak in P. flocculosa. The interaction culminates with a collapse of B. graminis haustoria, thereby stopping P. flocculosa growth, as barley plants show higher metabolic activity. * To conclude, our study has uncovered a complex and intricate phenomenon, described here as hyperbiotrophy, only achievable through the conjugated action of the three protagonists. [ABSTRACT FROM AUTHOR]

Published

2018

32. Teleomorph–anamorph connection of Macalpinomyces spermophorus with Pseudozyma tsukubaensis and corresponding erythritol production.

Author

Tanaka, Eiji and Honda, Yuji

Subjects

*LOVE grass, *TEFF, *TELIOSPORES, *ION exchange chromatography, *NUCLEAR magnetic resonance

Abstract

A basidiomycetous yeast, Pseudozyma tsukubaensis , has been isolated from a variety of plant materials. Previous molecular phylogenetic analyses have suggested this yeast is an asexual stage of the smut fungus Macalpinomyces spermophorus (synonym Ustilago spermophora , Ustilaginales). To reveal the teleomorph–anamorph connection, yeast-like isolates from germinated teliospores of morphologically identified M. spermophorus on Eragrostis ferruginea from Japan were analyzed. The internal transcribed spacer region of rDNA of the yeast isolates was mostly identical with that of known isolates of P. tsukubaensis . Physiological analysis showed that the characteristics of the yeast isolates correlated well with P. tsukubaensis . These data revealed that P. tsukubaensis is the anamorph of M. spermophorus and should be treated as a synonym of M. spermophorus . In addition, the erythritol-producing ability of the yeast isolates derived from teliospores of M. spermophorus were confirmed by high-performance ion-exchange chromatography and 13 C NMR analyses. [ABSTRACT FROM AUTHOR]

Published

2017

33. Confluenine G, a new compound from a basidiomycetous yeast Moesziomyces sp. FKI-9540 derived from the gut of a moth Acherontia lachesis (Lepidoptera, Sphingidae)

Author

Naozumi Kondo, Kazunari Sakai, Aoi Kimishima, Rei Hokari, Masako Honsho, Mai Sato, Kamrun Naher, Hidetaka Yuge, Masato Iwatsuki, Kenichi Nonaka, and Yukihiro Asami

Subjects

Biological Products, Organic Chemistry, General Medicine, Moths, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Lepidoptera, Yeasts, Viperidae, Animals, DNA, Fungal, Ustilaginales, Molecular Biology, Biotechnology

Abstract

Most natural products derived from microorganisms have been sought from actinomycetes and filamentous fungi. As an attempt to develop new microbial resources in the exploratory research for natural products, we searched for new compounds from unexploited microbial taxa presumed to have biosynthetic gene clusters. A new compound confluenine G (1) and a known compound (2Z)-2-octyl-2-pentenedioic acid (2) were isolated from a cultured broth of basidiomycetous yeast, Moesziomyces sp. FKI-9540, derived from the gut of a moth Acherontia lachesis (Lepidoptera, Sphingidae). Based on the results of HR-ESI-MS and NMR analyses, the planar structure of 1 was elucidated. Confluenine G (1) was a new analog of nitrogen-oxidized isoleucine and had rare substructures with oxime and hydroxamic acid in molecule

Published

2022

34. The calcareous mires in South-East Poland are home to two rare Anthracoidea species

Author

Marcin Piątek and Wiesław Mułenko

Subjects

Ustilaginales, smut fungi, Carex, Europe, Biology (General), QH301-705.5

Abstract

The new collections of Anthracoidea buxbaumii Kukkonen on Carex buxbaumii Wahlenb. and Anthracoidea hostianae B.Lindeb. ex Nannf. on Carex lepidocarpa Tausch recorded in the calcareous mires in South-East Poland are described, illustrated and discussed. The holotype of the latter smut is also re-examined, described and illustrated in detail. Anthracoidea buxbaumii is reported for the second time from Poland on a new host plant. Anthracoidea hostianae is new to Poland. The variability of spore sizes of both species is discussed. The conspecificity of Anthracoidea buxbaumii and A. hostianae suggested in the literature is analyzed.

Published

2013

35. The first complete mitochondrial genome of Macalpinomyces bursus (Ustilaginales: Ustilaginaceae) and insights into its phylogeny

Author

Tianhao Lu, Jingwei Huang, and Peng Wang

Subjects

Genetics, Mitochondrial DNA, biology, Ustilago, Ustilaginaceae, Transfer RNA, Ustilaginales, Ribosomal RNA, biology.organism_classification, Molecular Biology, Gene, GC-content

Abstract

In the present study, the complete mitochondrial genome of Macalpinomyces bursus (Berk.) Vanky 2002 was sequenced and assembled. The complete mitochondrial genome of M. bursus was 49,024 bp in length, with the GC content of 30.4%. The M. bursus mitochondrial genome contained 27 protein-coding genes, 2 ribosomal RNA (rRNA) genes, and 22 transfer RNA (tRNA) genes. Phylogenetic analysis based on combined mitochondrial gene dataset indicated that the M. bursus exhibited a close relationship with species from the genera Ustilago, Sporisorium, and Anthracocystis.

Published

2021

36. Uracil-auxotrophic marker recycling system for multiple gene disruption in Pseudozyma antarctica

Author

Yuka Sameshima-Yamashita, Tohru Yarimizu, Hirohide Uenishi, Takumi Tanaka, and Hiroko Kitamoto

Subjects

Basidiomycota, Organic Chemistry, General Medicine, Saccharomyces cerevisiae, Uracil, Ustilaginales, Molecular Biology, Applied Microbiology and Biotechnology, Biochemistry, Analytical Chemistry, Biotechnology

Abstract

The basidiomycetous yeast Pseudozyma antarctica, which has multiple auxotrophic markers, was constructed, without inserting a foreign gene, as the host strain for the introduction of multiple useful genes. P. antarctica was more resistant to ultraviolet (UV) irradiation than the model yeast Saccharomyces cerevisiae, and a Paura3 mutant (C867T) was obtained after 3 min of UV exposure. A uracil-auxotrophic marker (URA3) recycling system developed in ascomycetous yeasts and fungi was applied to the P. antarctica Paura3 strain. The PaLYS12 and PaADE2 loci were disrupted via site-directed homologous recombination of PaURA3 (pop-in), followed by the removal of PaURA3 (pop-out). In the obtained double auxotrophic strain (Palys12Δ, Paura3), PaADE2 was further disrupted, and PaURA3 was removed to obtain the triple auxotrophic strain PGB800 (Paura3, Palys12Δ, Paade2Δ). The whole-genome sequence of the PGB800 strain did not contain foreign genes used for genetic manipulation and disrupted PaADE2 and PaLYS12 and removed PaURA3, as planned.

Published

2022

37. A Bacterial Type Three Secretion-Based Delivery System for Functional Characterization of

Author

Thiago, Maia, Hugo V S, Rody, Renato G H, Bombardelli, Tiarla Graciane, Souto, Luis Eduardo Aranha, Camargo, and Claudia Barros, Monteiro-Vitorello

Subjects

Bacterial Proteins, Gene Expression Regulation, Plant, Basidiomycota, Reproducibility of Results, Ustilaginales, Bacterial Secretion Systems, Plant Diseases, Plant Proteins, Saccharum

Abstract

The facultative biotrophic basidiomycete

Published

2022

38. Import and Export of Mannosylerythritol Lipids by Ustilago maydis

Author

Fabienne Becker, Uwe Linne, Xiulan Xie, Anna-Lena Hemer, Michael Bölker, Johannes Freitag, Björn Sandrock, and Biologie

Subjects

Nitrogen, Detergents, Fatty Acids, Microbiology, Life sciences, Carbon, Surface-Active Agents, Biowissenschaften, Biologie, Acetyltransferases, Virology, ddc:570, Glycolipids, Ustilaginales, Carrier Proteins, secondary metabolites, glycolipids, mannosylerythritol lipids, major facilitator transporter, Ustilago maydis

Abstract

Upon nitrogen starvation, the basidiomycete Ustilago maydis, which causes smut disease on corn, secretes amphipathic glycolipids, including mannosylerythritol lipids (MELs). MELs consist of a carbohydrate core whose mannosyl moiety is both acylated with fatty acids of different lengths and acetylated. Here, we report the transport of MELs into and out of the cell depending on the transport protein Mmf1, which belongs to the major facilitator superfamily. Analysis of mmf1 mutants and mutants lacking the acetyltransferase Mat1 revealed that Mmf1 is necessary for the export of acetylated MELs, while MELs without an acetyl group are secreted independently of this transporter. Upon deletion of mmf1, we detected novel MEL species lacking the acyl side chain at C-3′. With the help of feeding experiments, we demonstrate that MELs are taken up by U. maydis in an mmf1-independent manner. This leads to catabolism or rearrangement of acetyl and acyl side groups and subsequent secretion. The catabolism of MELs involves the presence of Mac2, an enzyme required for MEL biosynthesis. In cocultivation experiments, mutual exchange of MELs between different mutants was observed. Thus, we propose a novel function for fungal glycolipids as an external carbon storage.

Published

2022

39. New smut-specific primers for multilocus genotyping and phylogenetics of Ustilaginaceae.

Author

Kruse, Julia, Mishra, Bagdevi, Choi, Young-Joon, Sharma, Rahul, and Thines, Marco

Abstract

The Ustilaginomycotina, often collectively referred to as smut fungi, represent one of the three subphyla of the Basidiomycota. Smut fungi predominantly parasitize Angiosperms, are globally distributed, and contain several economically important pathogens. The most species-rich family of the smut fungi is the Ustilaginaceae. To investigate the molecular phylogeny of smut fungi, most studies rely on nrDNA loci, such as ITS and LSU. Protein coding genes, like rpb1, rpb2, TeF1 a, atp6, and ß-tubulin, have been used in some studies. However, because of the huge diversity of smut fungi and the lack of dedicated primers, amplification of these loci has proven difficult for several groups. Thus, it was the aim of the current study to develop primers for new loci for the smut fungi with the focus on the largest family, the Ustilaginaceae. Here, the development and testing of new primers for nine loci based on protein-coding genes is reported ( myosin, map, rpl3, tif2, ssc1, ß-tubulin, sdh1, rpl4A and atp2). A list of various primer combinations for the amplification of the new loci is given, with the corresponding PCR conditions and the best combinations for several genera of the Ustilaginaceae and some other Ustilaginomycetes. We hope that the primers presented in this study will be useful in overcoming the limitations of currently-used loci in terms of phylogenetic resolution, especially with respect to resolving species complexes and providing a better resolution of the higher-level phylogenetic relationships of smut fungi. [ABSTRACT FROM AUTHOR]

Published

2017

40. Anther smuts of Silene acaulis and S. uniflora in the Outer Hebrides, including an assessment of ITS genotypes of Microbotryum silenes-acaulis.

Author

Smith, Paul A., Lutz, Matthias, Ziegler, Rebekka, and Piątek, Marcin

Subjects

*SMUT diseases, *CARYOPHYLLACEAE, *MOLECULAR phylogeny

Abstract

Anther smuts on Silene acaulis and S. uniflora from the Outer Hebrides, Scotland, UK), are analysed using morphological and molecular techniques, and found to represent Microbotryum silenes-acaulis and M. silenes-inflatae, respectively. This is the first identification of caryophyllaceous anther smuts in the Outer Hebrides according to modern species concepts and the first report of Microbotryum silenes-acaulis confirmed by molecular analysis from the British Isles. Additionally, the genetic structure of Microbotryum silenesacaulis, based on all currently available ITS sequences, is analysed and discussed. Seven ITS genotypes are determined for Microbotryum silenes-acaulis, including three genotypes in North America and four genotypes in Europe. Compared to European accessions, all North American accessions share specific nucleotides and are genetically divergent. [ABSTRACT FROM AUTHOR]

Published

2017

41. Transcriptomic and Metabolomic Analyses Provide Insights into the Pathogenic Mechanism of the Rice False Smut Pathogen Ustilaginoidea virens .

Author

Fu R, Wang J, Chen C, Liu Y, Zhao L, and Lu D

Subjects

Transcriptome, Saccharomyces cerevisiae genetics, Gene Expression Profiling, Amino Acids genetics, Carbohydrates, Plant Diseases genetics, Plant Diseases microbiology, Oryza genetics, Hypocreales, Ustilaginales

Abstract

Rice false smut, caused by the fungal pathogen Ustilaginoidea virens , is a worldwide rice fungal disease. However, the molecular mechanism of the pathogenicity of the fungus U. virens remains unclear. To understand the molecular mechanism of pathogenesis of the fungus U. virens , we performed an integrated analysis of the transcriptome and metabolome of strongly (S) and weakly (W) virulent strains both before and after the infection of panicles. A total of 7932 differential expressed genes (DEGs) were identified using transcriptome analysis. Gene ontology (GO) and metabolic pathway enrichment analysis indicated that amino acid metabolism, autophagy-yeast, MAPK signaling pathway-yeast, and starch and sucrose metabolism were closely related to the pathogenicity of U. virens . Genes related to pathogenicity were significantly upregulated in the strongly virulent strain, and were ATG , MAPK , STE , TPS , and NTH genes. However, genes involved in the negative regulation of pathogenesis were significantly downregulated and contained TOR kinase, TORC1 , and autophagy-related protein genes. Metabolome analysis identified 698 differentially accumulated metabolites (DAMs), including 13 categories of organic acids and derivatives, lipids and lipid-like molecules, organoheterocyclic compounds. The significantly enriched pathways of DAMs mainly included amino acids and carbohydrates, and they accumulated after infection by the S strain. To understand the relevance of DEGs and DAMs in the pathogenicity of U. virens , transcriptomic and metabolomic data were integrated and analyzed. These results further confirmed that the pathogenesis of U. virens was regulated by DEGs and DAMs related to these four pathways, involving arginine and proline metabolism, lysine biosynthesis, alanine, aspartate and glutamate metabolism, and starch and sugar metabolism. Therefore, we speculate that the pathogenicity of U. virens is closely related to the accumulation of amino acids and carbohydrates, and to the changes in the expression of related genes.

Published

2023

42. Kernel Smut and False Smut: The Old-Emerging Diseases of Rice-A Review.

Author

Khanal S, Gaire SP, and Zhou XG

Subjects

Plant Diseases prevention & control, Plant Diseases microbiology, Genomics, Edible Grain, Oryza microbiology, Hypocreales, Ustilaginales

Abstract

Kernel smut, caused by Tilletia horrida , is a disease characterized by the replacement of rice grains with black sooty masses of teliospores or chlamydospores. Kernel smut differs from rice false smut, caused by Ustilaginoidea virens , in the color of chlamydospores. False smut is characterized by globose, velvety spore balls ranging from orangish yellow to greenish black in color. Both kernel smut and false smut have been persistent but are considered minor diseases in many countries since they were discovered in the late 1870s to the 1980s due to their sporadic outbreaks and limited economic impacts. In recent years, however, kernel smut and false smut have emerged as two of the most economically important diseases in rice, including organic rice, in many countries, especially in the United States. The increased use of susceptible rice cultivars, especially hybrids, excessive use of nitrogen fertilizer, and short crop rotations have resulted in an increase in kernel smut and false smut, causing significant losses in grain yield and quality. In this article, we provide a review of the distribution and economic importance of kernel smut; our current understanding of the taxonomy, biology, and epidemiology of kernel smut; and the genomics of the kernel smut fungus as compared with false smut and its causal agent. We also provide an update on the current management strategies of pathogen exclusion, cultivar resistance, fungicides, biological control, and cultural practices for kernel smut and false smut of rice., Competing Interests: The author(s) declare no conflict of interest.

Published

2023

43. Optimization of Ustilago nuda Inoculum Concentration for Screening Un8 -Mediated Loose Smut Resistance in Barley Reveals a Resistance Reaction that Disrupts Seed Germination and Suggests a Role for Abscisic Acid in Disease Development.

Author

Zang W, Zhang XM, Eckstein PE, Yang F, Colin M, and Beattie AD

Subjects

Germination genetics, Abscisic Acid, Seeds, Plant Diseases, Seedlings genetics, Plant Growth Regulators, Hordeum genetics, Ustilaginales

Abstract

Barley loose smut has been effectively controlled for decades through resistance conferred by the Un8 gene. However, evaluation of loose smut reaction using floret inoculation at the standard inoculum concentration is associated with the production of small, discolored seeds in Un8 carriers and susceptible genotypes. Interestingly, Un8 carriers also displayed significantly poorer germination than susceptible genotypes and produce short-lived seedlings following inoculation. To understand these observations, a Un8 carrier (TR11698) and susceptible non- Un8 carrier (CDC Austenson) were assessed for seed traits, Ustilago nuda biomass in the seed, infection rate, and phytohormone profile across a range of lower inoculum concentrations. At lower inoculum concentrations, seed appearance and weight improved in both genotypes, and infection rate increased in CDC Austenson. Pathogen load in the seed was similar in both genotypes and was positively correlated with the CDC Austenson infection rate. No infection was ever observed in TR11698. Significantly, germination rate improved in CDC Austenson, whereas the very low germination rate and short-lived seedlings remained associated with TR11698. It appears that poor seed appearance in both genotypes and low germination rate in the susceptible genotype can be improved by lowering the inoculum concentration. However, the very low germination rates and seedling death associated with the Un8 carrier TR11698 are indicative of Un8 -mediated resistance to loose smut. Finally, profiling of 38 phytohormones revealed that larger seeds observed at some inoculum concentrations compared with mock inoculation had higher abscisic acid concentrations. This could represent a pathogen survival strategy by ensuring better growth of the host., Competing Interests: The author(s) declare no conflict of interest.

Published

2023

44. Shivasia gen. nov. for the Australasian smut Ustilago solida that historically shifted through five different genera

Author

Matthias Lutz, Kálmán Vánky, and Marcin Piątek

Subjects

BASIDIOMYCOTA, BIOGEOGRAPHY, MOLECULAR PHYLOGENETICS, PLANT PATHOGENS, SCHOENUS, USTILAGINALES, Botany, QK1-989

Abstract

The generic position of the enigmatic smut fungus Ustilago solida is evaluated applying molecular phylogenetic analyses using ITS and LSU rDNA sequences as well as light and scanning electron microscopical investigations of several collections of this species. Ustilago solida has previously been included in five different genera (Ustilago, Urocystis, Sorosporium, Cintractia, and Tolyposporium), however, molecular analyses revealed that this smut does not belong to any of these genera and represents a distinct ustilaginalean lineage. The closest known phylogenetic relative of Ustilago solida is Heterotolyposporium lepidospermatis, the type species of the monotypic genus Heterotolyposporium. Both smuts differ considerably in both LSU sequences and in several morphological traits, such as the structure of sori and the characteristics of spore balls. Accordingly, the new genus Shivasia is described to accommodate Ustilago solida. This smut infects different Schoenus species (Cyperaceae) in Australia and New Zealand. The description of Shivasia increases the number of endemic smut genera in Australasia to ten. Compared to all other continents the number of endemic smut genera is exceptionally high, which may point at fast evolving characters and/or may be caused by the regional history, including the long-term geographic isolation of Australasia.

Published

2012

45. Addendum to the mycobiota of smut fungi in Poland

Author

Agata Wołczańska, Anna Cwener, and Hanna Wójciak

Subjects

Urocystales, Ustilaginales, Anthracoidea, Urocystis, distribution in Poland, Biology (General), QH301-705.5

Abstract

The paper presents new records of three rare species of smut fungi in Poland. Anthracoidea buxbaumii was collected in new localities, A. caricis collected on Carex montana is a new fungus/host combination in Poland, and Urocystis ranunculi-auricomi was found in the country after almost 50 years.

Published

2016

46. Commelinaceomyces, gen. nov., for four clavicipitaceous species misplaced in Ustilago that infect Commelinaceae

Author

Roger G. Shivas, Bhushan Shrestha, and Eiji Tanaka

Subjects

0106 biological sciences, 0303 health sciences, Clavicipitaceae, biology, Ascomycota, Physiology, Ustilago, Hypocreales, fungi, food and beverages, Ustilaginales, Cell Biology, General Medicine, Commelinaceae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 030308 mycology & parasitology, Conidium, 03 medical and health sciences, Commelinales, Botany, Genetics, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

A fungus causing false smut in the flowers of Murdannia keisak (Commelinaceae, Commelinales, Monocots) in Japan was morphologically identical to Ustilago aneilematis. The fungus infected ovaries of most flowers of host plants. Infected flowers were filled with yellow to orange thick-walled conidia that became olivaceous green at maturity. However, multilocus phylogenetic analysis of DNA sequences (18S, 28S, translation elongation factor 1α [TEF], the largest [RPB1] and the second largest [RPB2] subunit of RNA polymerase II) showed that the fungus belonged to the tribe Ustilaginoideae (Clavicipitaceae, Hypocreales, Ascomycota). Microscopic examination showed that the fungus developed conidia at the apex of conidiogenous cells, in contrast to other species in the Ustilaginoideae that develop conidia pleurogenously. A new genus, Commelinaceomyces, is formally proposed in the Ustilaginoideae to accommodate this fungus. Four species previously misplaced in Ustilago (Ustilaginales, Basidiomycota) are transferred to Commelinaceomyces, including the type of the genus, C. aneilematis, on Murdannia keisak. This is the first report of a clavicipitaceous species infecting host plants in the Commelinaceae.

Published

2020

47. Mycosarcoma aegyptiacum sp. nov., an antagonistic polymorphic basidiomycetous yeast related to smut fungi

Author

Matthias Sipiczki

Subjects

0106 biological sciences, 0301 basic medicine, biology, Phylogenetic tree, Ustilaginaceae, Ustilaginales, General Medicine, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Microbiology, Yeast, Spore, 03 medical and health sciences, 030104 developmental biology, Smut, Botany, Mating, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

Six polymorphic yeast strains with strong antifungal activities isolated from dicot plants in an alkaline-lake desert region were subjected to taxonomic examination. The phylogenetic trees reconstructed by using neighbour-joining, maximum-likelihood and Bayesian methods from concatenated D1/D2 and ITS-5.8S-ITS2 sequences revealed phylogenetic affinity to Ustilaginaceae, but the large phylogenetic distance separating the isolates from the most closely related groups of species indicates that they represent a separate species. The sequences of the genes coding for the LSU rDNA, act1, rpb2 and a protein of unknown function corroborate this position. The isolates can easily be distinguished from their closest relatives by physiological tests (utilisation of carbon and nitrogen sources). Based on these results, a new species, Mycosarcoma aegyptiacum sp. nov., is proposed to accommodate the isolates. All isolates are polymorphic. Transitions between budding-yeast and pseudohyphal morphologies which take place during colony formation result in morphologically different colony sectors and invasive growth into the medium. Neither sexual mating nor sporulation was observed in cultures growing on laboratory media.

Published

2020

48. Discovery and characterization of a stable lipase with preference toward long-chain fatty acids

Author

Huaiyuan Zhang, Wu Yang, Caili Sun, Yuanda Song, Junhuan Yang, Chen Meiling, and Xiuzhen Gao

Subjects

0106 biological sciences, 0301 basic medicine, Hot Temperature, Linolenic acid, Linoleic acid, Bioengineering, 01 natural sciences, Applied Microbiology and Biotechnology, Substrate Specificity, 03 medical and health sciences, chemistry.chemical_compound, 010608 biotechnology, Enzyme Stability, Data Mining, Lipase, Ustilaginales, Unsaturated fatty acid, Candida, chemistry.chemical_classification, biology, Fatty Acids, General Medicine, Hydrogen-Ion Concentration, biology.organism_classification, Oleic acid, 030104 developmental biology, chemistry, Biochemistry, Mucor circinelloides, biology.protein, Candida antarctica, Oils, Biotechnology, Polyunsaturated fatty acid

Abstract

To identify novel lipases with stability and long-chain fatty acids preference by phylogenetic evolution analysis methods from database. Thermo-stable Candida antarctica Lipase-A (CALA) was set as a template for gene mining by PSI-BLAST. Based on phylogenetic analysis, three candidate lipases exhibiting 97%, 55%, and 35% identities with CALA, respectively, were selected for overexpression and characterization. Lipase, PhLip from Pseudozyma hubeiensis SY62 showed highest activity towards long-chain fatty acids, and showed maximum activity at pH 9.0 and 60 °C, and stability between 40 and 50 °C for 4 h and at pH 7–10 for 12 h. Enzymatic hydrolysis of Mucor circinelloides WJ11 oils by PhLip was about twofold higher than that by CALA, with respect to hydrolysis of long-chain fatty acids. Besides, fatty acids with 18 carbons, including oleic acid, linoleic acid, and linolenic acid, were preferred as substrates. The current investigation discovered a stable lipase PhLip with long-chain fatty acids preference. PhLip may be a potential candidate for producing polyunsaturated fatty acids from natural oils.

Published

2019

49. Loop-Mediated Isothermal Amplification for Rapid Detection of Mating Types of

Author

Xiayan, Pan, Xiao, Wang, Junjie, Yu, Mina, Yu, Huijuan, Cao, Mingli, Yong, Tianqiao, Song, Zhongqiang, Qi, Yan, Du, Rongsheng, Zhang, and Yongfeng, Liu

Subjects

Molecular Diagnostic Techniques, Reproduction, Hypocreales, Oryza, Ustilaginales, Nucleic Acid Amplification Techniques

Abstract

Rice false smut (RFS), caused by

Published

2021

50. Mannosylerythritol lipids: production, downstream processing, and potential applications

Author

Cristiano J, de Andrade, Ana Ls, Coelho, Paulo E, Feuser, Lidiane M, de Andrade, Bruno Am, Carciofi, and Débora, de Oliveira

Subjects

Surface-Active Agents, Biomedical Engineering, Bioengineering, Glycolipids, Ustilaginales, Biotechnology

Abstract

Mannosylerythritol lipids (MELs) are biosurfactants produced by various fungal species. Depending on the degree of acetylation and further chemical modifications, these glycolipids can show remarkable biological properties, including the increase of water retention in the stratum corneum suppression of melanogenic enzymes tyrosinase-1 and -2, reversion of UV-A radiation-induced aquaporin-3 suppression, skin whitening, and anti-aging effects. These applications of MELs require high purity, which is usually reached by liquid-liquid extraction followed by chromatography, obtaining ≥95% purity. This worked aimed to critically discuss the current state of the art and trends on the production of MELs, including post-production treatment as enzymatic conversion. In addition, their application as skincare or pharmaceutical agents and agricultural biostimulants.

Published

2022