Your search keyword '"Pucciniomycotina"' showing total 189 results

1. Variations in the root mycobiome and mycorrhizal fungi between different types of Vanilla forest farms on Réunion Island

Author

Hellequin, Eve, Rech, Philippe, Petrolli, Rémi, Selosse, Marc-André, Kodja, Hippolyte, Piquet, Bérénice, and Martos, Florent

Published

2024

2. Diversity of colacosome-interacting mycoparasites expands the understanding of the evolution and ecology of Microbotryomycetes.

Author

Schoutteten, N., Yurkov, A., Leroux, O., Haelewaters, D., Van Der Straeten, D., Miettinen, O., Boekhout, T., Begerow, D., and Verbeken, A.

Subjects

TRANSMISSION electron microscopy, YEAST culture, BASIDIOMYCOTA, NUCLEOTIDE sequence, DNA sequencing

Abstract

Mycoparasites in Basidiomycota comprise a diverse group of fungi, both morphologically and phylogenetically. They interact with their hosts through either fusion-interaction or colacosome-interaction. Colacosomes are subcellular structures formed by the mycoparasite at the host-parasite interface, which penetrate the parasite and host cell walls. Previously, these structures were detected in 19 fungal species, usually by means of transmission electron microscopy. Most colacosome-forming species have been assigned to Microbotryomycetes (Pucciniomycotina, Basidiomycota), a highly diverse class, comprising saprobic yeasts, mycoparasites, and phytoparasites. In general, these myco- and phytoparasites are dimorphic organisms, with a parasitic filamentous morph and saprobic yeast morph. We investigated colacosome-forming mycoparasites based on fungarium material, freshly collected specimens, and cultures of yeast morphs. We characterised the micromorphology of filamentous morphs, the physiological characteristics of yeast morphs, and inferred phylogenetic relationships based on DNA sequence data from seven loci. We outline and employ an epifluorescence-based microscopic method to assess the presence and organisation of colacosomes. We describe five new species in the genus Colacogloea, the novel dimorphic mycoparasite Mycogloiocolax gerardii, and provide the first report of a sexual, mycoparasitic morph in Colacogloea philyla and in the genus Slooffia. We detected colacosomes in eight fungal species, which brings the total number of known colacosome-forming fungi to 27. Finally, we revealed three distinct types of colacosome organisation in Microbotryomycetes. [ABSTRACT FROM AUTHOR]

Published

2023

3. Insights into Diversity, Distribution, and Systematics of Rust Genus Puccinia.

Author

Avasthi, Shubhi, Gautam, Ajay Kumar, Niranjan, Mekala, Verma, Rajnish Kumar, Karunarathna, Samantha C., Kumar, Ashwani, and Suwannarach, Nakarin

Subjects

*PUCCINIA, *RUST fungi, *STRIPE rust, *NUMBERS of species, *LEAF rust of wheat, *NUCLEOTIDE sequence, *AGRICULTURE

Abstract

Puccinia, which comprises 4000 species, is the largest genus of rust fungi and one of the destructive plant pathogenic rust genera that are reported to infect both agricultural and nonagricultural plants with severe illnesses. The presence of bi-celled teliospores is one of the major features of these rust fungi that differentiated them from Uromyces, which is another largest genus of rust fungi. In the present study, an overview of the current knowledge on the general taxonomy and ecology of the rust genus Puccinia is presented. The status of the molecular identification of this genus along with updated species numbers and their current statuses in the 21st century are also presented, in addition to their threats to both agricultural and nonagricultural plants. Furthermore, a phylogenetic analysis based on ITS and LSU DNA sequence data available in GenBank and the published literature was performed to examine the intergeneric relationships of Puccinia. The obtained results revealed the worldwide distribution of Puccinia. Compared with other nations, a reasonable increase in research publications over the current century was demonstrated in Asian countries. The plant families Asteraceae and Poaceae were observed as the most infected in the 21st century. The phylogenetic studies of the LSU and ITS sequence data revealed the polyphyletic nature of Puccinia. In addition, the presences of too short, too lengthy, and incomplete sequences in the NCBI database demonstrate the need for extensive DNA-based analyses for a better understanding of the taxonomic placement of Puccinia. [ABSTRACT FROM AUTHOR]

Published

2023

4. Leucosporidium egoroviorum f.a., sp. nov., a New Yeast Species Isolated from Zucchini.

Author

Kachalkin, A. V., Glushakova, A. M., and Tomashevskaya, M. A.

Subjects

*ZUCCHINI, *CUCURBITA pepo, *SPECIES, *YEAST

Abstract

Leucosporidium egoroviorum f.a., sp. nov., a new anamorphic species of the basidiomycetous yeasts, was isolated as an endophyte from the fruits of Cucurbita pepo subsp. pepo (zucchini). According to its genetic, physiological, and morphological characteristics, the new species differed significantly from the closely related species L. fellii, L. intermedium, and L. krtinense. The holotype of the new species, KBP Y-6804T, is preserved in a metabolically inactive state; its isotype strains are VKM Y-3065, DSM 113574, and CBS 17590. The MycoBank number is MB 842805. [ABSTRACT FROM AUTHOR]

Published

2023

5. Phylogeny of Rhodotorula pinalis and Its Reclassification as Fellozyma pinalis comb. nov.

Author

Kachalkin, A. V.

Subjects

*RHODOTORULA, *PHYLOGENY, *PEAT mosses, *RECOMBINANT DNA

Abstract

The type strain Rhodotorula pinalis VKM Y-2963 has been characterized genetically and phylogenetically. The rDNA sequences obtained for the ITS region and D1/D2 domains of LSU have been deposited to NCBI GenBank (OM666053). Strains from the Moscow region, Fellozyma sp. KBP 3851 from Sphagnum mosses and Rh. pinalis VKM Y-2963 from dead conifer needles, were found to be conspecific. The results of phylogenetic analysis suggested that the species Rh. pinalis should be reassigned to the genus Fellozyma. The new combination, Fellozyma pinalis comb. nov., is proposed, MycoBank MB842988. [ABSTRACT FROM AUTHOR]

Published

2022

6. Insights into Diversity, Distribution, and Systematics of Rust Genus Puccinia

Author

Shubhi Avasthi, Ajay Kumar Gautam, Mekala Niranjan, Rajnish Kumar Verma, Samantha C. Karunarathna, Ashwani Kumar, and Nakarin Suwannarach

Subjects

current status, ITS, LSU, phylogeny, Pucciniomycotina, rust fungi, Biology (General), QH301-705.5

Abstract

Puccinia, which comprises 4000 species, is the largest genus of rust fungi and one of the destructive plant pathogenic rust genera that are reported to infect both agricultural and nonagricultural plants with severe illnesses. The presence of bi-celled teliospores is one of the major features of these rust fungi that differentiated them from Uromyces, which is another largest genus of rust fungi. In the present study, an overview of the current knowledge on the general taxonomy and ecology of the rust genus Puccinia is presented. The status of the molecular identification of this genus along with updated species numbers and their current statuses in the 21st century are also presented, in addition to their threats to both agricultural and nonagricultural plants. Furthermore, a phylogenetic analysis based on ITS and LSU DNA sequence data available in GenBank and the published literature was performed to examine the intergeneric relationships of Puccinia. The obtained results revealed the worldwide distribution of Puccinia. Compared with other nations, a reasonable increase in research publications over the current century was demonstrated in Asian countries. The plant families Asteraceae and Poaceae were observed as the most infected in the 21st century. The phylogenetic studies of the LSU and ITS sequence data revealed the polyphyletic nature of Puccinia. In addition, the presences of too short, too lengthy, and incomplete sequences in the NCBI database demonstrate the need for extensive DNA-based analyses for a better understanding of the taxonomic placement of Puccinia.

Published

2023

7. A Global Overview of Diversity and Phylogeny of the Rust Genus Uromyces.

Author

Gautam, Ajay Kumar, Avasthi, Shubhi, Verma, Rajnish Kumar, Sushma, Niranjan, Mekala, Devadatha, Bandarupalli, Jayawardena, Ruvishika S., Suwannarach, Nakarin, and Karunarathna, Samantha C.

Subjects

*PHYLOGENY, *NUCLEOTIDE sequence, *DNA sequencing, *LIFE cycles (Biology), *PUCCINIA

Abstract

Uromyces is the second-largest plant pathogenic rust genus, is responsible for numerous diseases, and has major effects on both agricultural and non-agricultural plants. The genus is generally characterized by its unicellular teliospores that help to characterize it and distinguish it from another important rust genus, Puccinia. In this study, a global overview of the diversity and distribution of Uromyces is presented based on both online and offline resources. The information obtained was analyzed for numerical and graphical summaries to provide the diversity and distribution of the genus by country and continent. Besides this, broad taxonomical aspects, a brief life cycle, and other comparative aspects on diversity and distribution were also provided. In addition, a phylogenetic analysis based on the ITS and nLSU DNA sequence data available in GenBank and published literature was performed to examine the intergeneric relationships of Uromyces. The results obtained revealed that the rust genus is found distributed over 150 countries, territories, and occupancies of the world on around 647 plant genera belonging to 95 plant families. Phylogenetic studies based on LSU and ITS sequence data revealed that Uromyces species are polyphyletic and require more DNA-based analyses for a better understanding of their taxonomic placement. [ABSTRACT FROM AUTHOR]

Published

2022

8. Cryptic diversity and significant cophylogenetic signal detected by DNA barcoding the rust fungi (Pucciniaceae) of Cyperaceae–Juncaceae.

Author

Léveillé‐Bourret, Étienne, Eggertson, Quinn, Hambleton, Sarah, and Starr, Julian R.

Subjects

*RUST fungi, *GENETIC barcoding, *ANIMAL diversity, *BIODIVERSITY conservation, *PLANT diversity

Abstract

Plants play important roles as habitat and food for a tremendous diversity of specialist animals and fungi. The disappearance of any plant species can lead to extinction cascades of its associated biota. In consequence, documenting the diversity and specificity of plant‐associated organisms is of high practical relevance in biodiversity conservation. Here, we present the first large‐scale molecular investigation into the diversity, host specificity, and cophylogenetic congruence of an especially rich plant–fungal association, the rust fungi (Pucciniaceae) of Cyperaceae and Juncaceae. Using the largest rust fungi DNA barcoding dataset published to date (252 sequences, 82 taxa), we reject the presence of a global ITS2‐28S barcode gap, but find a local gap in Cyperaceae–Juncaceae rusts, and suggest the existence of many cryptic species in North America, with some broadly circumscribed species possibly corresponding to >10 cryptic species. We test previous hypotheses of correlations between the phylogenies of rust fungi and their Cyperaceae–Juncaceae hosts using a combination of global‐fit and event‐based cophylogenetic methods. A significant cophylogenetic signal is detected between rusts and their hosts, but the small number of cospeciations argues for preferential host jumps as the driving process behind these correlations. In addition, temporal congruence between the origin of major Carex clades and their rusts suggests that host diversification may have promoted parasite diversification. Finally, we discuss the relevance of rust infection patterns to the systematics of Cyperaceae, highlight some taxonomic problems uncovered by the analyses, and call attention to the promise of DNA barcoding for bridging knowledge gaps in poorly studied plant‐associated microorganisms. [ABSTRACT FROM AUTHOR]

Published

2021

9. A Global Overview of Diversity and Phylogeny of the Rust Genus Uromyces

Author

Ajay Kumar Gautam, Shubhi Avasthi, Rajnish Kumar Verma, Sushma, Mekala Niranjan, Bandarupalli Devadatha, Ruvishika S. Jayawardena, Nakarin Suwannarach, and Samantha C. Karunarathna

Subjects

phylogeny, Pucciniomycotina, rust fungi, taxonomy, Uromyces, Biology (General), QH301-705.5

Abstract

Uromyces is the second-largest plant pathogenic rust genus, is responsible for numerous diseases, and has major effects on both agricultural and non-agricultural plants. The genus is generally characterized by its unicellular teliospores that help to characterize it and distinguish it from another important rust genus, Puccinia. In this study, a global overview of the diversity and distribution of Uromyces is presented based on both online and offline resources. The information obtained was analyzed for numerical and graphical summaries to provide the diversity and distribution of the genus by country and continent. Besides this, broad taxonomical aspects, a brief life cycle, and other comparative aspects on diversity and distribution were also provided. In addition, a phylogenetic analysis based on the ITS and nLSU DNA sequence data available in GenBank and published literature was performed to examine the intergeneric relationships of Uromyces. The results obtained revealed that the rust genus is found distributed over 150 countries, territories, and occupancies of the world on around 647 plant genera belonging to 95 plant families. Phylogenetic studies based on LSU and ITS sequence data revealed that Uromyces species are polyphyletic and require more DNA-based analyses for a better understanding of their taxonomic placement.

Published

2022

10. Austropuccinia psidii, causing myrtle rust, has a gigabase-sized genome shaped by transposable elements.

Author

Tobias, Peri A., Schwessinger, Benjamin, Deng, Cecilia H., Chen Wu, Chongmei Dong, Sperschneider, Jana, Jones, Ashley, Zhenyan Lou, Peng Zhang, Sandhu, Karanjeet, Smith, Grant R., Tibbits, Josquin, Chagné, David, and Park, Robert F.

Subjects

*INFECTIOUS disease transmission, *GENOME size, *GENOMES, *RUST diseases, *PHYTOPATHOGENIC microorganisms, *STEEL corrosion

Abstract

Austropuccinia psidii, originating in South America, is a globally invasive fungal plant pathogen that causes rust disease on Myrtaceae. Several biotypes are recognized, with the most widely distributed pandemic biotype spreading throughout the Asia-Pacific and Oceania regions over the last decade. Austropuccinia psidii has a broad host range with more than 480 myrtaceous species. Since first detected in Australia in 2010, the pathogen has caused the near extinction of at least three species and negatively affected commercial production of several Myrtaceae. To enable molecular and evolutionary studies into A. psidii pathogenicity, we assembled a highly contiguous genome for the pandemic biotype. With an estimated haploid genome size of just over 1Gb (gigabases), it is the largest assembled fungal genome to date. The genome has undergone massive expansion via distinct transposable element (TE) bursts. Over 90% of the genome is covered by TEs predominantly belonging to the Gypsy superfamily. These TE bursts have likely been followed by deamination events of methylated cytosines to silence the repetitive elements. This in turn led to the depletion of CpG sites in TEs and a very low overall GC content of 33.8%. Compared to other Pucciniales, the intergenic distances are increased by an order of magnitude indicating a general insertion of TEs between genes. Overall, we show how TEs shaped the genome evolution of A. psidii and provide a greatly needed resource for strategic approaches to combat disease spread. [ABSTRACT FROM AUTHOR]

Published

2021

11. Identification of novel genes in the carotenogenic and oleaginous yeast Rhodotorula toruloides through genome-wide insertional mutagenesis

Author

Yanbin Liu, Chong Mei John Koh, Sihui Amy Yap, Minge Du, Mya Myintzu Hlaing, and Lianghui Ji

Subjects

Agrobacterium tumefaciens-mediated transformation, Pucciniomycotina, Insertional mutagenesis, Metabolic engineering, Carotenoid and lipid biosynthesis, Microbiology, QR1-502

Abstract

Abstract Background Rhodotorula toruloides is an outstanding producer of lipids and carotenoids. Currently, information on the key metabolic pathways and their molecular basis of regulation remains scarce, severely limiting efforts to engineer it as an industrial host. Results We have adapted Agrobacterium tumefaciens-mediated transformation (ATMT) as a gene-tagging tool for the identification of novel genes in R. toruloides. Multiple factors affecting transformation efficiency in several species in the Pucciniomycotina subphylum were optimized. The Agrobacterium transfer DNA (T-DNA) showed predominantly single-copy chromosomal integrations in R. toruloides, which were trackable by high efficiency thermal asymmetric interlaced PCR (hiTAIL-PCR). To demonstrate the application of random T-DNA insertions for strain improvement and gene hunting, 3 T-DNA insertional libraries were screened against cerulenin, nile red and tetrazolium violet respectively, resulting in the identification of 22 mutants with obvious phenotypes in fatty acid or lipid metabolism. Similarly, 5 carotenoid biosynthetic mutants were obtained through visual screening of the transformants. To further validate the gene tagging strategy, one of the carotenoid production mutants, RAM5, was analyzed in detail. The mutant had a T-DNA inserted at the putative phytoene desaturase gene CAR1. Deletion of CAR1 by homologous recombination led to a phenotype similar to RAM5 and it could be genetically complemented by re-introduction of the wild-type CAR1 genome sequence. Conclusions T-DNA insertional mutagenesis is an efficient forward genetic tool for gene discovery in R. toruloides and related oleaginous yeast species. It is also valuable for metabolic engineering in these hosts. Further analysis of the 27 mutants identified in this study should augment our knowledge of the lipid and carotenoid biosynthesis, which may be exploited for oil and isoprenoid metabolic engineering.

Published

2018

12. Taxonomic revision of species of Kuehneola and Phragmidium on Rosa, including two new species from China.

Author

Liu, Yun, Liang, Ying-Mei, and Ono, Yoshitaka

Subjects

*SURFACE structure, *ROSES, *ROSACEAE, *RECOMBINANT DNA

Abstract

Kuehneola japonica and K. warburgiana are the only species of genus Kuehneola that parasitize plants belonging to genus Rosa (Rosaceae). Systematic revision of the genus Phragmidium and related genera by molecular phylogenetic analyses using nuc rDNA internal transcribed spacer (5.8S-ITS2 = ITS2) and nuc rDNA 28S (28S) sequences indicated that K. japonica and K. warburgiana belong to a group of Phragmidium species that also occur on Rosa. Morphological and molecular phylogenetic analyses revealed that these Kuehneola species were transferred to Phragmidium and renamed as P. japonicum and P. warburgianum. Two new Phragmidium species were also discovered on Rosa from China that could be distinguished from other species in the genus based on aeciospore or urediniospore morphology and phylogenetic placement. The first species, P. jiangxiense, is characterized by a urediniospore surface structure with stout spines that are basally embedded in the wrinkled spore wall. The second species, P. leucoaecium, is characterized by an aeciospore surface structure with irregularly elongated verrucae. Taxonomic descriptions and illustrations are provided. [ABSTRACT FROM AUTHOR]

Published

2020

13. Agrobacterium tumefaciens- Mediated Transformation of Pucciniomycotina Red Yeasts

Author

Ianiri, Giuseppe, Idnurm, Alexander, Gupta, Vijai Kumar, Series editor, Tuohy, Maria G., Series editor, van den Berg, Marco A., editor, and Maruthachalam, Karunakaran, editor

Published

2015

14. New species of Bannoa described from the tropics and the first report of the genus in South America.

Author

Parra, Pedro Pablo and Aime, M. Catherine

Subjects

*SPECIES, *NUCLEOTIDE sequence, *RECOMBINANT DNA, *FOLIAGE plants, *ASTERACEAE, *EUPHORBIA

Abstract

The genus Bannoa consists of four described species associated with dead leaves in southwestern Japan. In this study, we describe three new species, Bannoa guamensis, B. rosea, and B. tropicalis, from the South Pacific island of Guam and Guyana in South America. Isolates were obtained from surfaces of diseased and healthy leaves of plants in the Euphorbiaceae, Asteraceae, and Poaceae. DNA sequences from four gene regions, including nuc rDNA internal transcribed spacer ITS1‐5.8S‐ITS2 (ITS), D1–D2 domains of nuc 28S rDNA (28S), nuc 18S rDNA (18S), and a portion of tef1, which encodes translation elongation factor 1-alpha, were produced for phylogenetic analysis. Intercompatibility tests were performed, and subsequent development of clamp connections and basidia were documented for B. tropicalis. Potential life history strategies and association with diseased leaves, including rust-infected leaves, were evaluated across the genus. This is the first report of a species of Bannoa from South America. [ABSTRACT FROM AUTHOR]

Published

2019

15. Rare and undersampled dimorphic basidiomycetes.

Author

Kachalkin, A. V., Turchetti, B., Inácio, J., Carvalho, C., Mašínová, T., Pontes, A., Röhl, O., Glushakova, A. M., Akulov, A., Baldrian, P., Begerow, D., Buzzini, P., Sampaio, J. P., and Yurkov, A. M.

Abstract

The diversity of yeasts has grown rapidly as the discovery of new species has benefited from intensified sampling and largely improved identification techniques. An environmental study typically reports the isolation of yeast species, some of which are new to science. Rare species represented by a few isolates often do not result in a taxonomic description. Nucleic acid sequences from these undescribed yeasts remain in public sequence databases, often without a proper taxonomic placement. This study presents a constrained phylogenetic analysis for many rare yeasts from unpublished but publicly available DNA sequences and from studies previously conducted by the authors of this work. We demonstrate that single isolates are an important source of taxonomic findings such as including new genera and species. Independent surveys performed during the last 20 years on a large geographic scale yielded a number of single strains, which were proved to be conspecific in the phylogenetic analyses presented here. The following new species were resolved and described: Vustinia terrea Kachalkin, Turchetti & Yurkov gen. nov. et sp. nov.; Udeniomyces caspiensis Kachalkin sp. nov.; Udeniomyces orazovii Kachalkin sp. nov.; Tausonia rosea Kachalkin sp. nov.; Itersonilia diksonensis Kachalkin sp. nov.; Krasilnikovozyma fibulata Glushakova & Kachalkin, Kwoniella fici Turchetti sp. nov.; Heterocephalacria fruticeti f.a. Carvalho, Roehl, Yurkov & Sampaio sp. nov.; Heterocephalacria gelida f.a. Turchetti & Kachalkin sp. nov.; Heterocephalacria hypogea f.a. Carvalho, Roehl, Yurkov & Sampaio sp. nov.; Heterocephalacria lusitanica f.a. Inacio, Carvalho, Roehl, Yurkov & Sampaio sp. nov.; Piskurozyma arborea Yurkov, Kachalkin, Mašínová & Baldrian sp. nov.; Piskurozyma silvicultrix Turchetti, Mašínová, Baldrian & Yurkov sp. nov.; Piskurozyma stramentorum Yurkov, Mašínová & Baldrian sp. nov.; Naganishia nivalis Turchetti sp. nov.; and Yurkovia nerthusi Yurkov & Begerow, sp. nov. In addition, two new combinations were proposed Krasilnikovozyma curviuscula (Babeva, Lisichkina, Reshetova & Danilevich) Yurkov, Kachalkin & Sampaio comb. nov. and Hannaella taiwanensis (F.L. Lee & C.H. Huang) Yurkov comb. nov. The order Cyphobasidiales T. Spribille & H. Mayrhofer is rejected in favor of the older name Erythrobasidiales R. Bauer, Begerow, J.P. Sampaio, M. Weiss & Oberwinkler. Other potential novel species identified in this paper await future description. Phylogenetic placement of yet unpublished sequences is believed to facilitate species descriptions and improve classification of yeasts from environmental sequence libraries. [ABSTRACT FROM AUTHOR]

Published

2019

16. Classicula sinensis, a new species of basidiomycetous aquatic hyphomycetes from southwest China.

Author

Min Qiao, Wenjun Li, Ying Huang, Jianping Xu, Li Zhang, and Zefen Yu

Subjects

*CLONORCHIS sinensis, *HYPHOMYCETES

Abstract

Classicula sinensis, isolated from decaying leaves from Mozigou, Chongqing Municipality, China, is described as a new species. The new species is a member of basidiomycetous aquatic hyphomycetes which represent a small proportion of all aquatic hyphomycetes. This species falls within the genus Classicula (Classiculaceae, Pucciniomycotina) and is closely related to C. fluitans, based on multiple gene sequence analyses. Morphologically, it is characterised by the apical, hyaline, obclavate or navicular conidia with several hair-like lateral appendages and by its holoblastic and monoblastic conidiogenesis, with a flat un-thickened conidiogenous locus. Clamp connections and haustorial branches were often observed in culture. [ABSTRACT FROM AUTHOR]

Published

2018

17. The species of Coleosporium (Pucciniales) on Solidago in North America.

Author

McTaggart, Alistair R. and Aime, M. Catherine

Subjects

*GOLDENRODS, *ANGIOSPERMS, *RUST fungi, *FUNGI classification

Abstract

Species of Coleosporium ( Pucciniales ) are rust fungi that typically alternate between pines and angiosperms. In North America, species of Coleosporium often infect Solidago (goldenrods), although their taxonomy on these hosts is unresolved. Joseph. C. Arthur and George B. Cummins regarded these as a single species, Coleosporium solidaginis (fide Arthur) or C. asterum (fide Cummins), but later inoculation studies demonstrated the presence of more than one species, distinguishable by their aecial hosts. A more recent taxonomic study of Coleosporium found that specimens on Solidago identified as C. asterum in North America were not conspecific with the type, which is from Japan, prompting the present study. Herein, we conducted a systematic study on ca. 60 collections of Coleosporium infecting species of Asteraceae from North America using regions of ribosomal DNA and morphology of teliospores and basidia. Our data indicate at least three species of Coleosporium occur on Solidago in North America, C. solidaginis , C. montanum comb. nov., which is proposed for the taxon that has commonly been identified as C. asterum in North America, and C. delicatulum , all of which can be differentiated by morphology of their basidia. In addition, the challenges of marker selection for molecular barcoding of rust fungi is discussed. [ABSTRACT FROM AUTHOR]

Published

2018

18. Dismantling a complex of anther smuts (Microbotryum) on carnivorous plants in the genus Pinguicula.

Author

Ziegler, Rebekka, Lutz, Matthias, Piątek, Jolanta, and Piątek, Marcin

Subjects

*CARNIVOROUS plants, *BUTTERWORTS, *CARYOPHYLLACEAE, *DIPSACACEAE, *LAMIACEAE

Abstract

The anther smuts of the genus Microbotryum are known from host plant species belonging to the Caryophyllaceae, Dipsacaceae, Lamiaceae, Lentibulariaceae, Montiaceae, and Primulaceae. Of these, the anther smuts on Caryophyllaceae, in particular on Silene spp., are best known because they include model organisms studied in many disciplines of fungal biology. For Microbotryum species parasitic on Caryophyllaceae, a high degree of host specificity was revealed and several cryptic species were described. In contrast, the host specificity within Microbotryum pinguiculae occurring in anthers of different Pinguicula species (Lentibulariaceae) has not been investigated in detail until now. The anther smuts on Pinguicula alpina, P. villosa, and P. vulgaris, on which M. pinguiculae was described, were analyzed using nuc rDNA ITS1-5.8S-ITS2 and nuc rDNA 28S D1-D2 sequences and morphology to determine if they belong to one polyphagous species or rather represent three host-specific species. The results of the morphological investigations revealed no decisive differences between the anther smuts on different Pinguicula species. However, genetic divergence and molecular phylogenetic analyses, which split the specimens according to host plant species, supported host specificity of the anther smuts on different Pinguicula species. Accordingly, in addition to Microbotryum pinguiculae s. str. on Pinguicula vulgaris, M. alpinum sp. nov. on P. alpina from Europe and M. liroi sp. nov. on P. villosa from Asia are described and illustrated. [ABSTRACT FROM AUTHOR]

Published

2018

19. Cryptic diversity and significant cophylogenetic signal detected by DNA barcoding the rust fungi (Pucciniaceae) of Cyperaceae–Juncaceae

Author

Sarah Hambleton, Julian R. Starr, Étienne Léveillé-Bourret, and Quinn Eggertson

Subjects

0106 biological sciences, 0303 health sciences, biology, Juncaceae, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, 03 medical and health sciences, Pucciniaceae, Botany, Pucciniomycotina, Molecular phylogenetics, Cyperaceae, Ecology, Evolution, Behavior and Systematics, Coevolution, 030304 developmental biology, Rust fungi

Published

2021

20. Rhodotorula sampaioana f.a., sp. nov., a novel red yeast of the order Sporidiobolales isolated from Argentina and India

Author

Diego Libkind, Abhishek Baghela, and Snigdha Tiwari

Subjects

0303 health sciences, Phylogenetic tree, biology, MycoBank, Holotype, General Medicine, Rhodotorula, biology.organism_classification, Microbiology, Yeast, 030308 mycology & parasitology, Sporidiobolales, 03 medical and health sciences, GenBank, Pucciniomycotina, Botany, Molecular Biology, 030304 developmental biology

Abstract

A set of four strains representing a novel basidiomycetous yeast species Rhodotorula sampaioana f. a., sp. nov. were isolated from two different habitats, subsurface waters of Lake Negra in Argentina, and the gut of a xylophagous termite in India. Phylogenetic analyses of LSU and ITS sequences showed that they belonged to the genus Rhodotorula of the order Sporidiobolales (subphylum Pucciniomycotina) and the closest known relative being R. kratochvilovae. The new species differed from R. kratochvilovae CBS 7436 (AF071436, AF444520) by nine nucleotide substitutions and one deletion (1.7 % sequence variation) in a 593 bp D1/D2 region, and by five nucleotide substitutions and three deletions (1.3 %) in a 592 bp ITS region, respectively. Several morphological and physiological differences were also observed between R. kratochvilovae and the strains obtained during this study. These data support the proposal of Rhodotorula sampaioana as a novel species, with CRUB 1124 as the holotype, CBS 10798 as ex-type, and NFCCI 4872 as an additional strain. The GenBank accession numbers of the LSU and ITS sequences of Rhodotorula sampaioana f. a., sp. nov. are EF595748 and MW879331. The MycoBank number is MB 838533.

Published

2021

21. Identity and typification of Achroomyces effusus (Pucciniomycotina, Basidiomycota)

Author

Viacheslav Spirin, Annemieke Verbeken, Nathan Schoutteten, Vera Malysheva, Finnish Museum of Natural History, and Botany

Subjects

nov, Biology, Microbotryomycetes, 030308 mycology & parasitology, 03 medical and health sciences, GENUS, Type (biology), Genus, Botany, Pucciniomycotina, Comb, Typification, Ecology, Evolution, Behavior and Systematics, Taxonomy, 030304 developmental biology, 0303 health sciences, IDENTIFICATION, YEASTS, Biology and Life Sciences, Mycoparasite, Basidiomycota, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), 1181 Ecology, evolutionary biology, Identity (object-oriented programming), Taxonomy (biology)

Abstract

The identity of Achroomyces effusus is re-established with the use of morphological and DNA methods, and a neotype is selected. The species is conspecific with Colacogloea peniophorae, the generic type of Colacogloea, and has a priority over it. A new combination, C. effusa, is proposed.

Published

2021

22. Micromycetes Rossicae: Chorological and Taxonomical Notes. 4. Sphacelotheca Hydropiperis and Microbotryum Cordae ( Pucciniomycotina , Microbotryomycetes ), Two Difficult to Detection Persicaria -Associated Micromycetes, New for Volgograd Region (Russia)

Author

I. V. Zmitrovich and V. A. Dudka

Subjects

Microbotryomycetes, Sphacelotheca hydropiperis, Ecology, biology, Botany, Pucciniomycotina, Persicaria, Plant Science, biology.organism_classification, Microbotryum, Ecology, Evolution, Behavior and Systematics

Published

2021

23. Chapter Seven - Phylogenetics and Phylogenomics of Rust Fungi.

Author

Aime, M. Catherine, McTaggart, Alistair R., Mondo, Stephen J., and Duplessis, Sébastien

Abstract

Rust fungi (Pucciniales) are the most speciose and the most complex group of plant pathogens. Historically, rust taxonomy was largely influenced by host and phenotypic characters, which are potentially plastic. Molecular systematic studies suggest that the extant diversity of this group was largely shaped by host jumps and subsequent shifts. However, it has been challenging to reconstruct the evolutionary history for the order, especially at deeper (family-level) nodes. Phylogenomics offer a potentially powerful tool to reconstruct the Pucciniales tree of life, although researchers working at this vanguard still face unprecedented challenges working with nonculturable organisms that possess some of the largest and most repetitive genomes now known in kingdom fungi. In this chapter, we provide an overview of the current status and special challenges of rust genomics, and we highlight how phylogenomics may provide new perspectives and answer long-standing questions regarding the biology of rust fungi. [ABSTRACT FROM AUTHOR]

Published

2017

24. New localities of rare species of the genus Microbotryum

Author

Andrzej Chlebicki

Subjects

Pucciniomycotina, occurrence, ecology, protected areas, Biology (General), QH301-705.5

Abstract

Microbotryum bistortum, M. dianthorum, M. superbum and M. langerheimii, rare species of smut fungi are reported from new localities in Poland, mostly in protected areas. Dianthus superbus subsp. superbus is a new host for M. superbum observed. Taxonomical status of M. carthusianorum and M. superbum is discussed in the paper.

Published

2013

25. Diversity and phylogeny of basidiomycetous yeasts from plant leaves and soil: Proposal of two new orders, three new families, eight new genera and one hundred and seven new species

Author

A.-H. Li, K. Li, João Inácio, F.-X. Yuan, Qi-Ming Wang, José Paulo Sampaio, B. Fungsin, Benedetta Turchetti, M. C. Aime, Feng-Yan Bai, P.-J. Han, K. Bensch, L.-D. Guo, Marizeth Groenewald, Andrey Yurkov, Sasitorn Jindamorakot, UCIBIO - Applied Molecular Biosciences Unit, and DCV - Departamento de Ciências da Vida

Subjects

Rhodosporidiobolus fuzhouensis Q.M. Wang, F.Y. Bai & A.H. Li, Yamadamyces Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Kondoa lulangica Q.M. Wang, F.Y. Bai & A.H. Li, Rhynchogastrema glucofermentans (S.O. Suh & M. Blackw.) Xin Zhan Liu, F.Y. Bai, M. Groenew., Boekhout & Yurkov, Pseudohyphozyma lulangensis Q.M. Wang, F.Y. Bai & A.H. Li, Papiliotrema japonica J.P. Samp., Fonseca & Fell ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Meniscomyces Q.M. Wang & F.Y. Bai, Rosettozyma motuoensis Q.M. Wang, F.Y. Bai & A.H. Li, Kockovaella nitrophila Q.M. Wang, F.Y. Bai & A.H. Li, Robertozyma ningxiaensis Q.M. Wang, F.Y. Bai & A.H. Li, Molecular phylogeny, Dioszegia kandeliae Q.M. Wang, F.Y. Bai, L.D. Guo & A.H. Li, Dioszegia maotaiensis Q.M. Wang, F.Y. Bai & A.H. Li, Phaeotremella ovata Q.M. Wang, F.Y. Bai & A.H. Li, Vishniacozyma foliicola Q.M. Wang & F.Y. Bai ex Yurkov, Genolevuria pseudoamylolytica Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa ribitophobia Q.M. Wang, F.Y. Bai & A.H. Li, Cytochrome b, Oberwinklerozyma silvestris Golubev & Scorzetti ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Ruinenia bangxiensis Q.M. Wang, F.Y. Bai & A.H. Li, Glaciozyma antarctica (Fell, Statzell, I.L. Hunter & Phaff) M. Groenew. & Q.M. Wang, Papiliotrema aspenensis (Ferreira-Paim, et al.) Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Teunia Q.M. Wang & F.Y. Bai, Symmetrospora oryzicola (Nakase & M. Suzuki) Q.M. Wang & F.Y. Bai, Glaciozyma Turchetti, Connell, Thomas-Hall & Boekhout ex M. Groenew. & Q.M. Wang, Bulleribasidium siamense Fungsin, M. Takash. & Nakase ex Q.M. Wang, F.Y. Bai, Boekhout & Nakase, Microsporomyces pseudomagnisporus Q.M. Wang, F.Y. Bai & A.H. Li, Rosettozymaceae Q.M. Wang & F.Y. Bai, Derxomyces nakasei F.Y. Bai, Q.M. Wang & M. Takash. ex F.Y. Bai & Q.M. Wang, Naganishia onofrii Turchetti, Selbmann & Zucconi ex Yurkov, Filobasidium mali Q.M. Wang, F.Y. Bai & A.H. Li, Boekhoutia sterigmata Q.M. Wang, F.Y. Bai & A.H. Li, Pseudohyphozyma hydrangeae Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces taiwanicus Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa chamaenerii Q.M. Wang, F.Y. Bai & A.H. Li, Bulleribasidium elongatum Q.M. Wang, F.Y. Bai & A.H. Li, Oberwinklerozyma straminea Golubev & Scorzetti ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Sporobolomyces primogenomicus Q.M. Wang & F.Y. Bai, 03 medical and health sciences, Bulleribasidium phyllophilum Q.M. Wang, F.Y. Bai & A.H. Li, Agaricomycotina, Leucosporidium yakuticum (Golubev) M. Groenew. & Q.M. Wang, Robertozyma Q.M. Wang & F.Y. Bai, Chrysozyma flava Q.M. Wang, F.Y. Bai & A.H. Li, Internal transcribed spacer, Oberwinklerozyma dicranopteridis Q.M. Wang, F.Y. Bai & A.H. Li, Begerowomyces foliicola Q.M. Wang, F.Y. Bai & A.H. Li, 030306 microbiology, Heitmania cylindrica Q.M. Wang, F.Y. Bai & A.H. Li, Nielozyma formosana Nakase, Tsuzuki, F.L. Lee & M. Takash. ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Piskurozyma fildesensis T.T. Zhang & Li Y. Yu ex Yurkov, Tremella shuangheensis Q.M. Wang, F.Y. Bai & A.H. Li, Cystobasidium terricola Q.M. Wang, F.Y. Bai & A.H. Li, Bulleribasidium panici Fungsin, M. Takash. & Nakase ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Chrysozyma pseudogriseoflava Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces elongatus Q.M. Wang, F.Y. Bai & A.H. Li, Yamadamyces terricola Q.M. Wang, F.Y. Bai & A.H. Li, Filobasidium dingjieense Q.M. Wang, F.Y. Bai & A.H. Li, Meniscomyces layueensis Q.M. Wang, F.Y. Bai & A.H. Li, Pucciniomycotina, Derxomyces napiformis Q.M. Wang, F.Y. Bai & A.H. Li, Bannozyma arctica Vishniac & M. Takash. ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Rhodosporidiobolus platycladi Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces ovatus Q.M. Wang, F.Y. Bai & A.H. Li, biology, Kondoa thailandica Fungsin, Hamam. & Nakase ex Q.M. Wang, M. Groenew., F.Y. Bai & Boekhout, Pseudotremella lacticolour Satoh & Makimura ex Yurkov, Teunia cuniculi (K.S. Shin & Y.H. Park) Q.M. Wang, F.Y. Bai & A.H. Li, Vishniacozyma heimaeyensis Vishniac ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Carcinomyces arundinariae Fungsin, M. Takash. & Nakase ex Yurkov, Rhynchogastrema complexa (Landell, et al.) Xin Zhan Liu, F.Y. Bai, M. Groenew., Boekhout & Yurkov, Teunia korlaensis Q.M. Wang, F.Y. Bai & A.H. Li, Phaeotremella lactea Q.M. Wang, F.Y. Bai & A.H. Li, Chrysozyma sorbariae Q.M. Wang, F.Y. Bai & A.H. Li, Slooffia globosa Q.M. Wang, F.Y. Bai & A.H. Li, Ruinenia pyrrosiae Nakase, Tsuzuki, F.L. Lee, Jindam. & M. Takash. ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Chrysozyma cylindrica Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa myxariophila Q.M. Wang, F.Y. Bai & A.H. Li, F.Y. Bai, M. Groenew. & Boekhout, Chrysozyma sambuci Q.M. Wang, F.Y. Bai & A.H. Li, Solicoccozyma gelidoterrea Q.M. Wang, F.Y. Bai & A.H. Li, Chrysozyma rhododendri Q.M. Wang, F.Y. Bai & A.H. Li, Rosettozyma petaloides Q.M. Wang, F.Y. Bai & A.H. Li, Kockovaella ischaemi Q.M. Wang, F.Y. Bai & A.H. Li, Microsporomyces ellipsoideus Q.M. Wang, F.Y. Bai & A.H. Li, Vishniacozyma pseudopenaeus Q.M. Wang, F.Y. Bai & A.H. Li, Yurkovia longicylindrica Q.M. Wang, F.Y. Bai & A.H. Li, Ruinenia lunata Q.M. Wang, F.Y. Bai & A.H. Li, biology.organism_classification, Bulleribasidium cremeum Q.M. Wang, F.Y. Bai & A.H. Li, Kockovaella mexicana Lopandić, O. Molnár & Prillinger ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Bensingtonia pseudorectispora Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces xingshanicus Q.M. Wang, F.Y. Bai & A.H. Li, Sterigmatospora layueensis Q.M. Wang, F.Y. Bai & A.H. Li, Jianyuniaceae Q.M. Wang & F.Y. Bai, Phyllozyma aceris Q.M. Wang, F.Y. Bai & A.H. Li, Saitozyma pseudoflava Q.M. Wang, F.Y. Bai & A.H. Li, Apiotrichum xylopini S.O. Suh, C.F. Lee, Gujjari & J.J. Zhou ex Kachalkin, Yurkov & Boekhout, Pseudobensingtonia fusiformis Q.M. Wang, F.Y. Bai & A.H. Li, Leucosporidium muscorum (Di Menna) M. Groenew. & Q.M. Wang, Phyllozyma jiayinensis Q.M. Wang, F.Y. Bai & A.H. Li, Pseudosterigmatospora motuoensis Q.M. Wang, F.Y. Bai & A.H. Li, Saitozyma paraflava Golubev & J.P. Samp. ex Xin Zhan Liu, Papiliotrema hoabinhensis D.T. Luong, M. Takash., Ty, Dung & Nakase ex Yurkov, Saitozyma ninhbinhensis (D.T. Luong, M. Takash., Dung & Nakase)Yurkov, lcsh:QH301-705.5, Species diversity, Basidiomycetous yeasts, 0303 health sciences, Kwoniella ovata Q.M. Wang, F.Y. Bai & A.H. Li, Glaciozyma martinii Turchetti, Connell, Thomas-Hall & Boekhout, Sakaguchia melibiophila M. Groenew., Q.M. Wang & F.Y. Bai, Derxomyces longiovatus Q.M. Wang, F.Y. Bai & A.H. Li, Papiliotrema terrestris Crestani, Landell, Faganello, Vainstein, Vishniac & P. Valente ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Leucosporidium intermedium (Nakase & M. Suzuki) M. Groenew. & Q.M. Wang, Tremella basidiomaticola Xin Zhan Liu & F.Y. Bai, Symmetrospora rhododendri Q.M. Wang, F.Y. Bai & A.H. Li, Bulleribasidium pseudopanici Q.M. Wang, F.Y. Bai & A.H. Li, Rhynchogastrema visegradensis (G. Péter & Dlauchy) Xin Zhan Liu, F.Y. Bai, M. Groenew., Boekhout &Yurkov, Genolevuria bromeliarum Landell & P. Valente ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Cystobasidium alpinum Turchetti, Selbmann, Onofri & Buzzini, Rhynchogastrema tunnelae (Boekhout, Fell, Scorzetti & Theelen) Xin Zhan Liu, F.Y. Bai, M. Groenew., Boekhout & Yurkov, Vishniacozyma psychrotolerans V. de García, Zalar, Brizzio, Gunde-Cim. & Van Broock ex Yurkov, Derxomyces bifurcus Q.M. Wang, F.Y. Bai & A.H. Li, Yamadamyces rosulatus Golubev & Scorzetti ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Vishniacozyma tephrensis Vishniac ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Ruinenia diospyri Nakase, Tsuzuki, F.L. Lee, Jindam. & M. Takash. ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Pseudoleucosporidium fasciculatum (Babeva & Lisichk.) M. Groenew. & Q.M. Wang, Heitmaniaceae Q.M. Wang & F.Y. Bai, Cystobasidium portillonense Laich, Vaca & R. Chávez ex Q.M. Wang, F.Y. Bai, M. Groenew. & Boekhout, Papiliotrema frias V. de García, Zalar, Brizzio, Gunde-Cim. & Van Broock ex Yurkov, Holtermannia saccardoi Q.M. Wang, F.Y. Bai & A.H. Li, Phylogenetics, Carlosrosaea foliicola Q.M. Wang, F.Y. Bai & A.H. Li, Sporobolomyces cellobiolyticus Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa daliangziensis Q.M. Wang, F.Y. Bai & A.H. Li, Chrysozyma iridis Q.M. Wang, F.Y. Bai & A.H. Li, Leucosporidium fragarium (J.A. Barnett & Buhagiar) M. Groenew. & Q.M. Wang, Pseudosterigmatospora Q.M. Wang & F.Y. Bai, Vanrija thermophila Vogelmann, S. Chaves & C. Hertel ex Kachalkin Yurkov & Boekhout, Papiliotrema wisconsinensis K. Sylvester, Q.M. Wang & Hittinger ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Begerowomyces Q.M. Wang & F.Y. Bai, Dioszegia zsoltii F.Y. Bai, M. Takash. & Nakase, Papiliotrema baii Yurkov, M.A. Guerreiro & Á, Fonseca ex Yurkov, Oberwinklerozyma nepetae Q.M. Wang, F.Y. Bai & A.H. Li, Rhynchogastrema fermentans (C.F. Lee) Xin Zhan Liu, F.Y. Bai, M. Groenew., Boekhout & Yurkov, Derxomyces pseudoyunnanensis Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa foliicola Q.M. Wang, F.Y. Bai & A.H. Li, Evolutionary biology, Nielozyma Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Phaffia aurantiaca Q.M. Wang, F.Y. Bai & A.H. Li, Vanrija nantouana C.F. Lee ex Kachalkin Yurkov & Boekhout, Colacogloea subericola (Belloch, Villa-Carv., Á, lv.-Rodríg. & Coque) Q.M. Wang, & F.Y. Bai, Sporobolomyces reniformis Q.M. Wang, F.Y. Bai & A.H. Li, 030308 mycology & parasitology, Chrysozyma fusiformis Q.M. Wang, F.Y. Bai & A.H. Li, Leucosporidium creatinivorum (Golubev) M. Groenew. & Q.M. Wang, Dioszegia heilongjiangensis Q.M. Wang, F.Y. Bai & A.H. Li, Rosettozyma cystopteridis Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa cylindrica Q.M. Wang, F.Y. Bai & A.H. Li, Teunia globosa Q.M. Wang, F.Y. Bai & A.H. Li, Rosettozymales Q.M. Wang & F.Y. Bai, Glaciozyma watsonii Turchetti, Connell, Thomas-Hall & Boekhout, Dioszegia ovata Q.M. Wang, F.Y. Bai & A.H. Li, Phylogenetic tree, Carlosrosaea simaoensis Q.M. Wang, F.Y. Bai & A.H. Li, Rosettozyma Q.M. Wang & F.Y. Bai, Heitmaniales Q.M. Wang & F.Y. Bai, Bulleribasidium phyllostachydis Q.M. Wang, F.Y. Bai & A.H. Li, Teunia betulae K. Sylvester, Q.M. Wang & Hittinger ex Q.M. Wang, F.Y. Bai & A.H. Li, Rhynchogastrema nanyangensis F.L. Hui & Q.H. Niu ex Xin Zhan Liu, F.Y. Bai, M. Groenew., Boekhout & Yurkov, Agricultural and Biological Sciences (miscellaneous), Boekhoutia Q.M. Wang & F.Y. Bai, Rhodosporidiobolus jianfalingensis Q.M. Wang, F.Y. Bai & A.H. Li, Filobasidium globosum Q.M. Wang, F.Y. Bai & A.H. Li, Vishniacozyma melezitolytica Q.M. Wang, F.Y. Bai & A.H. Li, Cystobasidium raffinophilum Q.M. Wang, F.Y. Bai & A.H. Li, Kondoa arboricola Q.M. Wang, F.Y. Bai & A.H. Li, Sporobolomyces ellipsoideus Q.M. Wang, F.Y. Bai & A.H. Li, Research Paper, Derxomyces cylindricus F.Y. Bai, Q.M. Wang & M. Takash. ex F.Y. Bai & Q.M. Wang, Kondoa rhododendri Q.M. Wang, F.Y. Bai & A.H. Li, Microsporomyces rubellus Q.M. Wang, F.Y. Bai & A.H. Li, Sterigmatospora Q.M. Wang & F.Y. Bai, Naganishia vaughanmartiniae Turchetti, Blanchette & Arenz ex Yurkov, Colacogloea hydrangeae Q.M. Wang, F.Y. Bai & A.H. Li, Vishniacozyma taibaiensis Q.M. Wang & F.Y. Bai ex Yurkov, Vanrija meifongana C.F. Lee ex Kachalkin Yurkov & Boekhout, Pseudoleucosporidium V. de García, et al. ex M. Groenew. & Q.M. Wang, Ribosomal DNA, Vishniacozyma europaea Q.M. Wang, F.Y. Bai & A.H. Li, Taxonomy, Derxomyces pseudoboekhoutii Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces longicylindricus Q.M. Wang, F.Y. Bai & A.H. Li, Ruinenia fanjingshanensis Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces hubeiensis F.Y. Bai, Q.M. Wang & M. Takash. ex F.Y. Bai & Q.M. Wang, Trimorphomyces sakaeraticus Fungsin, M. Takash. & Nakase ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Dioszegia milinica Q.M. Wang, F.Y. Bai & A.H. Li, Bensingtonia wuzhishanensis Q.M. Wang, F.Y. Bai & A.H. Li, Derxomyces polymorphus Q.M. Wang, F.Y. Bai & A.H. Li, Kwoniella shandongensis R. Chen, Y.M. Jiang & S.C. Wei ex M. Groenew. & Q.M. Wang, Colacogloea aletridis Q.M. Wang, F.Y. Bai & A.H. Li, Kockovaella haikouensis Q.M. Wang, F.Y. Bai & A.H. Li, Kwoniella newhampshirensis K. Sylvester, Q.M. Wang & C.T. Hittinger, Nielozyma melastomatis Nakase, Tsuzuki, F.L. Lee & M. Takash. ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout, Colacogloea rhododendri Q.M. Wang, F.Y. Bai & A.H. Li, Microbotryozyma swertiae Q.M. Wang, F.Y. Bai & A.H. Li, Teunia tronadorensis V. de Garcia, Zalar, Brizzio, Gunde-Cim. & van Brook ex Q.M. Wang, F.Y. Bai & A.H. Li, lcsh:Biology (General), Derxomyces melastomatis Q.M. Wang, F.Y. Bai & A.H. Li, Filobasidium mucilaginum Q.M. Wang, F.Y. Bai & A.H. Li, Tremellomycetes, Heitmania tridentata Q.M. Wang, F.Y. Bai & A.H. Li, Teunia helanensis Q.M. Wang, F.Y. Bai & A.H. Li, Piskurozyma taiwanensis Nakase, Tsuzuki & M. Takash. ex Xin Zhan Liu, F.Y. Bai, M. Groenew. & Boekhout

Abstract

Funding Information: We thank Prof. Jian-Yun Zhuang for his advice on nomenclatural matters. We thank Dr. Alexander Idnurm for his kindly providing the sequences and informations of strain IAM13481 and his critical comments for this manuscript, Dr. Aleksey Kachalkin for his sharing the physilogical data of strain KBP Y-5548 and Masako Takashima for her sharing the physilogical data of strain TY-217. We also thank Ana Pontes and Cl?udia Carvalho for editing illustrations of Kondoa myxariophila and for ITS sequencing, respectively. This study was supported by grants No. 31570016 from the National Natural Science Foundation of China (NSFC) and national project on scientific groundwork No. 2014FY210400 from the Ministry of Science and Technology of China. The authors are solely responsible for the content of this work. Nearly 500 basidiomycetous yeast species were accepted in the latest edition of The Yeasts: A Taxonomic Study published in 2011. However, this number presents only the tip of the iceberg of yeast species diversity in nature. Possibly more than 99 % of yeast species, as is true for many groups of fungi, are yet unknown and await discovery. Over the past two decades nearly 200 unidentified isolates were obtained during a series of environmental surveys of yeasts in phyllosphere and soils, mainly from China. Among these isolates, 107 new species were identified based on the phylogenetic analyses of nuclear ribosomal DNA (rDNA) [D1/D2 domains of the large subunit (LSU), the small subunit (SSU), and the internal transcribed spacer region including the 5.8S rDNA (ITS)] and protein-coding genes [both subunits of DNA polymerase II (RPB1 and RPB2), the translation elongation factor 1-α (TEF1) and the mitochondrial gene cytochrome b (CYTB)], and physiological comparisons. Forty-six of these belong to 16 genera in the Tremellomycetes (Agaricomycotina). The other 61 are distributed in 26 genera in the Pucciniomycotina. Here we circumscribe eight new genera, three new families and two new orders based on the multi-locus phylogenetic analyses combined with the clustering optimisation analysis and the predicted similarity thresholds for yeasts and filamentous fungal delimitation at genus and higher ranks. Additionally, as a result of these analyses, three new combinations are proposed and 66 taxa are validated. publishersversion published

Published

2020

26. Expert annotation and life-cycle transcriptomics of transcription factors in rust fungi (Pucciniales) highlight the role of cold shock proteins in dormancy exit

Author

Sébastien Duplessis, Pamela Guerillot, Jérémy Pétrowski, Pascal Frey, Clémentine Louet, Ekaterina Shelest, and Carla Blot

Subjects

Genetics, Transcriptome, Obligate, fungi, Pucciniomycotina, Rust (fungus), food and beverages, Dormancy, Heterologous expression, Biology, biology.organism_classification, Gene, Genome

Abstract

Fungi of the order Pucciniales are obligate plant biotrophs causing rust diseases. They exhibit a complex life cycle with the production of up to five spore types, infection of two unrelated hosts and an overwintering stage. Transcription factors (TFs) are key regulators of gene expression in eukaryote cells. In order to better understand genetic programs expressed during major transitions of the rust life cycle, we surveyed the complement of TFs in fungal genomes with an emphasis on Pucciniales. We found that despite their large gene numbers, rust genomes have a reduced repertoire of TFs compared to other fungi. The proportions of C2H2 and Zinc cluster - two of the most represented TF families in fungi-indicate differences in their evolutionary relationships in Pucciniales and other fungal taxa. The cold shock protein (CSP) family showed a striking expansion in Pucciniomycotina with specific duplications in the order Pucciniales. The survey of expression profiles collected by transcriptomics along the life cycle of the poplar rust fungus revealed TF genes related to major biological transitions, e.g. response to environmental cues and host infection. Particularly, poplar rust CSPs were strongly expressed in basidia produced after the overwintering stage suggesting a possible role in dormancy exit. Expression during transition from dormant telia to basidia confirmed the specific expression of the three poplar rust CSP genes. Their heterologous expression in yeast improved cell growth after cold stress exposure, strengthening their implication in dormancy exit. This study addresses for the first time TF involved in developmental transition in the rust life cycle opening perspectives to further explore molecular regulation in the biology of the Pucciniales.

Published

2021

27. Transmission electron microscopy of Tuberculina species (Helicobasidiales) reveals an unique mode of conidiogenesis within Basidiomycota.

Author

Aghayeva, Dilzara N., Lutz, Matthias, and Piątek, Marcin

Subjects

*TRANSMISSION electron microscopy, *BASIDIOMYCOTA, *PLANT-pathogen relationships, *FUNGI imperfecti, *RUST fungi

Abstract

Tuberculina species represent the asexual life stage of the plant-parasitic sexual genus Helicobasidium . Tuberculina species are distributed all over the world, living in antagonistic symbiosis with over 150 rust species from at least 15 genera. Within the Basidiomycota , besides the spermogonia of rust fungi, only Tuberculina species develop distinct fructifications in the haplophase. However, the knowledge of conidiogenesis in Tuberculina is meagre. Therefore, conidial development in Tuberculina maxima, Tuberculina persicina, and Tuberculina sbrozzii was studied using transmission electron microscopy, and compared to each other as well as to spermatia formation in rust fungi. Significant ultrastructural characteristics such as the movement of nuclei in the process of conidium formation, and formation of the initial and late stages of conidiogenesis are documented. The mode of conidiogenesis of Tuberculina species is unique within the Basidiomycota in that (1) it is realized by haploid fructifications, (2) it is holoblastic, without annellidic proliferation, (3) the nucleus of the conidiogenous cell moves towards the forming conidium, divides, and no daughter nucleus remains inside the conidiogenous cell, and (4) the conidiogenous cell retains only cytoplasmic residues after the development of a single conidium, and a successive conidium is not produced. [ABSTRACT FROM AUTHOR]

Published

2016

28. In situ hybridization for the detection of rust fungi in paraffin embedded plant tissue sections.

Author

Ellison, Mitchell A., McMahon, Michael B., Bonde, Morris R., Palmer, Cristi L., and Luster, Douglas G.

Subjects

*IN situ hybridization, *CHRYSANTHEMUMS, *RUST fungi, *PHYTOPATHOGENIC bacteria, *PARAFFIN test

Abstract

Background: Rust fungi are obligate pathogens with multiple life stages often including different spore types and multiple plant hosts. While individual rust pathogens are often associated with specific plants, a wide range of plant species are infected with rust fungi. To study the interactions between these important pathogenic fungi and their host plants, one must be able to differentiate fungal tissue from plant tissue. This can be accomplished using the In situ hybridization (ISH) protocol described here. Results: To validate reproducibility using the ISH protocol, samples of Chrysanthemum x morifolium infected with Puccinia horiana, Gladiolus x hortulanus infected with Uromyces transversalis and Glycine max infected with Phakopsora pachyrhizi were tested alongside uninfected leaf tissue samples. The results of these tests show that this technique clearly distinguishes between rust pathogens and their respective host plant tissues. Conclusions: This ISH protocol is applicable to rust fungi and potentially other plant pathogenic fungi as well. It has been shown here that this protocol can be applied to pathogens from different genera of rust fungi with no background staining of plant tissue. We encourage the use of this protocol for the study of plant pathogenic fungi in paraffin embedded sections of host plant tissue. [ABSTRACT FROM AUTHOR]

Published

2016

29. Transcriptomic responses of the basidiomycete yeast Sporobolomyces sp. to the mycotoxin patulin.

Author

Ianiri, Giuseppe, Idnurm, Alexander, and Castoria, Raffaello

Subjects

*BASIDIOMYCETES, *PATULIN, *APPLE blue mold, *FILAMENTOUS fungi, *NUCLEOTIDE sequence, *TRANSCRIPTION factors

Abstract

Background: Patulin is a mycotoxin produced by Penicillium expansum, the causal agent of blue mold of stored pome fruits, and several other species of filamentous fungi. This mycotoxin has genotoxic, teratogenic and immunotoxic effects in mammals, and its presence in pome fruits and derived products represents a serious health hazard. Biocontrol agents in the Pucciniomycotina, such as the yeasts Sporobolomyces sp. strain IAM 13481 and Rhodosporidium kratochvilovae strain LS11, are able to resist patulin and degrade it into the less toxic compounds desoxypatulinic acid and ascladiol. Results: In this investigation we applied a transcriptomic approach based on RNAseq to annotate the genome of Sporobolomyces sp. IAM 13481 and then study the changes of gene expression in Sporobolomyces sp. exposed to patulin. Patulin treatment leads to ROS production and oxidative stress that result in the activation of stress response mechanisms controlled by transcription factors. Upregulated Sporobolomyces genes were those involved in oxidation-reduction and transport processes, suggesting the activation of defense mechanisms to resist patulin toxicity and expel the mycotoxin out of the cells. Other upregulated genes encoded proteins involved in metabolic processes such as those of the glutathione and thioredoxin systems, which are essential to restore the cellular redox homeostasis. Conversely, patulin treatment decreased the expression of genes involved in the processes of protein synthesis and modification, such as transcription, RNA processing, translation, protein phosphorylation and biosynthesis of amino acids. Also, genes encoding proteins involved in transport of ions, cell division and cell cycle were downregulated. This indicates a reduction of metabolic activity, probably due to the high energy requirement by the cells or metabolic arrest while recovering from the insult caused by patulin toxicity. Conclusions: Complex mechanisms are activated in a biocontrol yeast in response to patulin. The genes identified in this study can pave the way to develop i) a biodetoxification process of patulin in juices and ii) a biosensor for the rapid and cost-effective detection of this mycotoxin. [ABSTRACT FROM AUTHOR]

Published

2016

30. Marine yeast biodiversity on seaweeds in New Zealand waters.

Author

Francis, MM, Webb, V, and Zuccarello, GC

Subjects

*MARINE algae, *YEAST fungi, *BIODIVERSITY, *NUCLEOTIDE sequencing, *BIOGEOGRAPHY

Abstract

Zealand. Marine yeasts were isolated from various seaweed surfaces sampled at three locations in the Wellington Region. DNA sequencing of the internal transcribed spacer (ITS) regions was conducted, and the resultant sequence data were used in isolate identification. Yeasts isolated during this investigation were not unique; 71 isolates that are frequently detected in marine and terrestrial environments worldwide were identified from a range of seaweed genera. Furthermore, high ITS sequence similarity was observed between yeasts isolated during this investigation and those from geographically distant locations. These findings may indicate that marine yeasts are ubiquitous at a global level, although evidence is insufficient as to whether yeasts demonstrate biogeographic distribution patterns. Yeasts isolated during this investigation may have ecological implications in New Zealand's marine environment. Yeast isolates identified from seaweed genera have been demonstrated to have beneficial properties and applications and their potential should be explored. [ABSTRACT FROM AUTHOR]

Published

2016

31. Fungal molecular ecology in boreal forests and challenges associated with unidentified environmental DNA sequences

Author

Kluting, Kerri and Kluting, Kerri

Abstract

Many fungi are characteristically difficult to observe and collect, making the process of documenting the world’s fungal diversity challenging. The vast majority of fungal species are undescribed. The use of DNA sequencing technologies has revolutionized the study of fungal diversity by facilitating the detection of new species, the investigation of community structure and dynamics, and the elucidation of evolutionary relationships. In this dissertation, I focus on filling in some of the many gaps in our understanding of fungal diversity and community ecology in boreal pine forests through the use of DNA sequence data. In the first half of this thesis, a metabarcoding approach is used to study the composition of fungal communities found in the soil of a Lithuanian coastal pine forest and in association with the bark beetle Tomicus piniperda in Swedish pine forests. In the second half, two different approaches are taken to describe taxa detected in environmental DNA. In paper I, I demonstrate how soil microhabitats, defined based on mineral vs organic soil type and root presence or absence, vary with respect to a suite of abiotic factors and shape fungal community composition belowground. These microhabitats support functionally and taxonomically distinct fungal communities and support the overall fungal diversity of the site through niche variation. In paper II, the relationships between a) the fungal communities found on and in bark beetles from forests that have been affected by forest fire and forests that have not, b) pine phloem that has been colonized by bark beetles and phloem that has not at two different post-colonization time points, and c) phloem chemical nutrients are described. In paper III, the diversity of species within the fungal class Archaeorhizomycetes in the soil of a Swedish pine forest was studied, and two new species are described using an integrative taxonomic approach that relies on environmental DNA sequence data as taxonomical evidence.

Published

2021

32. Resolution of deep divergence of club fungi (phylum Basidiomycota)

Author

Hao Wang and Hongliang Mao

Subjects

0106 biological sciences, lcsh:Biotechnology, Biomedical Engineering, 01 natural sciences, Applied Microbiology and Biotechnology, Article, 03 medical and health sciences, Structural Biology, Phylogenetics, 010608 biotechnology, Agaricomycotina, Phylogenomics, lcsh:TP248.13-248.65, Pucciniomycotina, Genetics, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, Ustilaginomycotina, biology, Phylogenetic tree, Basidiomycota, Fungi, Phylum Basidiomycota, biology.organism_classification, lcsh:Biology (General), Evolutionary biology, CVTree

Abstract

A long-standing question about the early evolution of club fungi (phylum Basidiomycota) is the relationship between the three major groups, Pucciniomycotina, Ustilaginomycotina and Agaricomycotina. It is unresolved whether Agaricomycotina are more closely related to Ustilaginomycotina or to Pucciniomycotina. Here we reconstructed the branching order of the three subphyla through two sources of phylogenetic signals, i.e. standard phylogenomic analysis and alignment-free phylogenetic approach. Overall, beyond congruency within the frame of standard phylogenomic analysis, our results consistently and robustly supported the early divergence of Ustilaginomycotina and a closer relationship between Agaricomycotina and Pucciniomycotina. Keywords: Fungi, Basidiomycota, Phylogenetics, Phylogenomics, CVTree

Published

2019

33. Molecular identification and antifungal susceptibility testing of Pucciniomycotina red yeast clinical isolates from Rio de Janeiro, Brazil

Author

Raissa Vieira Monteiro, Alessandra Leal da Silva Chaves, Fábio Brito-Santos, Jean Carlos Almeida de Oliveira, Rowena Alves Coelho, Maria Helena Galdino Figueiredo-Carvalho, and Rodrigo Almeida-Paes

Subjects

Antifungal Agents, Microbial Sensitivity Tests, Rhodotorula, Microbiology, Bacterial Fungal and Virus Molecular Biology - Short Communication, Rhodotorula mucilaginosa, Diffusion, Amphotericin B, Pucciniomycotina, Media Technology, medicine, Humans, Food microbiology, Voriconazole, biology, biology.organism_classification, Yeast, Mycoses, Blood Culture, Cystobasidium minutum, DNA, Intergenic, Brazil, medicine.drug

Abstract

Infections caused by Rhodotorula spp. are increasing worldwide. This study identified, through the light of the new taxonomic advances on the subphylum Pucciniomycotina, 16 isolates from blood cultures and compared their antifungal susceptibility on microdilution and gradient diffusion methods. Internal transcriber spacer sequencing identified Rhodotorula mucilaginosa (n = 12), Rhodotorula toruloides (n = 2), Rhodotorula dairenensis (n = 1), and Cystobasidium minutum (n = 1). Amphotericin B was the most effective drug. A good essential agreement was observed on MIC values of amphotericin B and voriconazole determined by the two methods. Therefore, the gradient method is useful for susceptibility tests of R. mucilaginosa against these drugs. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s42770-019-00191-2) contains supplementary material, which is available to authorized users.

Published

2019

34. Notes, outline and divergence times of Basidiomycota

Author

Yi Jian Yao, Eske De Crop, Guo Jie Li, Zhi Lin Ling, Zdenko Tkalčec, Alfredo Justo, Tai Hui Li, Paul M. Kirk, An Qi Liu, R. Henrik Nilsson, Kevin D. Hyde, Annemieke Verbeken, László Nagy, Cheewangkoon Ratchadawan, Else C. Vellinga, Gregory M. Mueller, Santiago Sánchez-Ramírez, Marcelo Aloisio Sulzbacher, Andrey Yurkov, Bao-Kai Cui, Alexandre G. S. Silva-Filho, Damien Ertz, Dominik Begerow, Mao Qiang He, Makoto Kakishima, Nalin N. Wijayawardene, Jorinde Nuytinck, Arun Kumar Dutta, Michael Weiß, Viktor Papp, József Geml, Ming Zhe Zhang, Teun Boekhout, Vladimír Antonín, Tie Zheng Wei, Jack W. Fell, Nelson Menolli, Ivan V. Zmitrovich, Egon Horak, Alfredo Vizzini, Machiel E. Noordeloos, Armin Mešić, Xin Zhan Liu, Young Woon Lim, Rui-Lin Zhao, Xin Yu Zhu, Ricardo Valenzuela, Danny Haelewaters, Eric H. C. McKenzie, Shuang Hui He, Felipe Wartchow, Admir José Giachini, Jean-Marc Moncalvo, Takamichi Orihara, Masoomeh Ghobad-Nejhad, Bálint Dima, Tatiana Baptista Gibertoni, Brendan P. Hodkinson, Olivier Raspé, Tamotsu Hoshino, Cony Decock, Chang Lin Zhao, Martin Kemler, Nathan Schoutteten, Sergio P. Gorjón, Mario Rajchenberg, Bart Buyck, Roy E. Halling, Bin Cao, Bianca Denise Barbosa da Silva, and UCL - SST/ELI/ELIM - Applied Microbiology

Subjects

0106 biological sciences, Evolution, MUSHROOM-FORMING FUNGI, Plant Science, ATLANTIC RAIN-FOREST, 010603 evolutionary biology, 01 natural sciences, MARASMIUS SECTION GLOBULARES, 030308 mycology & parasitology, 03 medical and health sciences, Behavior and Systematics, Phylogenetics, Genus, Systematics, Agaricomycotina, Pucciniomycotina, GENUS ENTOLOMA BASIDIOMYCOTA, Biology, Ecology, Evolution, Behavior and Systematics, Taxonomy, 0303 health sciences, Ustilaginomycotina, Ecology, biology, Phylogenetic tree, Phylum, Molecular clock, WOOD-INHABITING FUNGI, Fungi, Biology and Life Sciences, SP-NOV BASIDIOMYCOTA, NEW-SOUTH-WALES, 15. Life on land, Classification, Classification, biology.organism_classification, INTERNAL TRANSCRIBED SPACER, Type species, Evolutionary biology, WHITE-ROT FUNGUS, SAO-PAULO STATE

Abstract

The Basidiomycota constitutes a major phylum of the kingdom Fungi and is second in species numbers to the Ascomycota. The present work provides an overview of all validly published, currently used basidiomycete genera to date in a single document. An outline of all genera of Basidiomycota is provided, which includes 1928 currently used genera names, with 1263 synonyms, which are distributed in 241 families, 68 orders, 18 classes and four subphyla. We provide brief notes for each accepted genus including information on classification, number of accepted species, type species, life mode, habitat, distribution, and sequence information. Furthermore, three phylogenetic analyses with combined LSU, SSU, 5.8s, rpb1, rpb2, and ef1 datasets for the subphyla Agaricomycotina, Pucciniomycotina and Ustilaginomycotina are conducted, respectively. Divergence time estimates are provided to the family level with 632 species from 62 orders, 168 families and 605 genera. Our study indicates that the divergence times of the subphyla in Basidiomycota are 406–430 Mya, classes are 211–383 Mya, and orders are 99–323 Mya, which are largely consistent with previous studies. In this study, all phylogenetically supported families were dated, with the families of Agaricomycotina diverging from 27–178 Mya, Pucciniomycotina from 85–222 Mya, and Ustilaginomycotina from 79–177 Mya. Divergence times as additional criterion in ranking provide additional evidence to resolve taxonomic problems in the Basidiomycota taxonomic system, and also provide a better understanding of their phylogeny and evolution.

Published

2019

35. Spencerozyma acididurans sp. nov., an acid-tolerant basidiomycetous yeast species isolated from acid mine drainage

Author

Li-Nan Huang, Yong Huang, Nan Chen, Bin Liao, and Bei-Cheng Yang

Subjects

0106 biological sciences, 0301 basic medicine, biology, Phylogenetic tree, Strain (chemistry), General Medicine, Ribosomal RNA, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Microbiology, Yeast, 03 medical and health sciences, Microbotryomycetes, 030104 developmental biology, Pucciniomycotina, Botany, Internal transcribed spacer, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

Strain SYSU-17, representing a novel acid-tolerant yeast species which can grow at pH 2.0 weakly, was isolated from acid mine drainage collected in a tailing impoundment of the Fankou Lead/Zinc Mine, Guangdong Province, PR China. Phylogenetic analysis of strain SYSU-17 based on the internal transcribed spacer (ITS) region and the D1/D2 domains of the large subunit ribosomal RNA (LSU rRNA) gene suggested that strain SYSU-17 was a novel species belonging to the genus Spencerozyma (class Microbotryomycetes, subphylum Pucciniomycotina). It differed from the type strain of the closest related species, Spencerozyma crocea CBS 2029T, by 0.7 % sequence divergence (three gaps and one nucleotide substitution out of 594 bp) in the D1/D2 domains of the LSU rRNA gene and 7.6 % sequence divergence (32 gaps and 22 nucleotide substitutions out of 714 bp) in the ITS region. In contrast to the physiological properties of S. crocea, the novel yeast species was unable to assimilate galactose, d-ribose, xylitol, succinate, d-xylose, ethanol, nitrate and nitrite. The name Spencerozyma acididurans sp. nov. is proposed and SYSU-17 is designated as the holotype.

Published

2019

36. Rare and undersampled dimorphic basidiomycetes

Author

João Inácio, Aleksey V. Kachalkin, Benedetta Turchetti, Petr Baldrian, Cláudia Carvalho, Andrey Yurkov, A. M. Glushakova, A. Akulov, José Paulo Sampaio, Ana Pontes, Pietro Buzzini, Tereza Mašínová, Dominik Begerow, and Oliver Röhl

Subjects

17 new species, Cystobasidiomycetes, Microbotryomycetes, One new genus, Pucciniomycotina, Taxonomy, Tremellomycetes, Two combinations, Yeasts, Phylogenetic tree, Rare species, Zoology, Biology, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Kwoniella, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics

Abstract

The diversity of yeasts has grown rapidly as the discovery of new species has benefited from intensified sampling and largely improved identification techniques. An environmental study typically reports the isolation of yeast species, some of which are new to science. Rare species represented by a few isolates often do not result in a taxonomic description. Nucleic acid sequences from these undescribed yeasts remain in public sequence databases, often without a proper taxonomic placement. This study presents a constrained phylogenetic analysis for many rare yeasts from unpublished but publicly available DNA sequences and from studies previously conducted by the authors of this work. We demonstrate that single isolates are an important source of taxonomic findings such as including new genera and species. Independent surveys performed during the last 20 years on a large geographic scale yielded a number of single strains, which were proved to be conspecific in the phylogenetic analyses presented here. The following new species were resolved and described: Vustinia terrea Kachalkin, Turchetti & Yurkov gen. nov. et sp. nov.; Udeniomyces caspiensis Kachalkin sp. nov.; Udeniomyces orazovii Kachalkin sp. nov.; Tausonia rosea Kachalkin sp. nov.; Itersonilia diksonensis Kachalkin sp. nov.; Krasilnikovozyma fibulata Glushakova & Kachalkin, Kwoniella fici Turchetti sp. nov.; Heterocephalacria fruticeti f.a. Carvalho, Roehl, Yurkov & Sampaio sp. nov.; Heterocephalacria gelida f.a. Turchetti & Kachalkin sp. nov.; Heterocephalacria hypogea f.a. Carvalho, Roehl, Yurkov & Sampaio sp. nov.; Heterocephalacria lusitanica f.a. Inacio, Carvalho, Roehl, Yurkov & Sampaio sp. nov.; Piskurozyma arborea Yurkov, Kachalkin, Masinova & Baldrian sp. nov.; Piskurozyma silvicultrix Turchetti, Masinova, Baldrian & Yurkov sp. nov.; Piskurozyma stramentorum Yurkov, Masinova & Baldrian sp. nov.; Naganishia nivalis Turchetti sp. nov.; and Yurkovia nerthusi Yurkov & Begerow, sp. nov. In addition, two new combinations were proposed Krasilnikovozyma curviuscula (Babeva, Lisichkina, Reshetova & Danilevich) Yurkov, Kachalkin & Sampaio comb. nov. and Hannaella taiwanensis (F.L. Lee & C.H. Huang) Yurkov comb. nov. The order Cyphobasidiales T. Spribille & H. Mayrhofer is rejected in favor of the older name Erythrobasidiales R. Bauer, Begerow, J.P. Sampaio, M. Weiss & Oberwinkler. Other potential novel species identified in this paper await future description. Phylogenetic placement of yet unpublished sequences is believed to facilitate species descriptions and improve classification of yeasts from environmental sequence libraries.

Published

2019

37. Uromyces hawksworthii nom. nov. for Aecidium goyazense, on Phthirusa stelis (Loranthaceae) from the Brazilian Cerrado.

Author

Souza, Érica S. C., Chaves, Zuleide M., Soares, William R. O., Pinho, Danilo B., and Dianese, José C.

Subjects

*UROMYCES diseases, *AECIDIUM fragiforme, *SCANNING electron microscopy, *LORANTHACEAE, *NUCLEOTIDE sequencing, *TELIOSPORES, *RIBOSOMAL RNA, *BASIDIOMYCOTA

Abstract

The sexual morph of Aecidium goyazense collected in the Brazilian Cerrado was morphologically characterized by light microscopy and SEM, and shown to be a species of Uromyces, for which the name Uromyces hawksworthii nom. nov. is introduced, and designated as its epitype. This is the second Uromyces species known to infect the tropical genus Phthirusa (Loranthaceae). DNA sequences were generated from the ITS and 28S rRNA (LSU) regions of DNA recovered from aeciospores as well as teliospores. This fungus is compared with other Uromyces species known from Loranthaceae. [ABSTRACT FROM AUTHOR]

Published

2015

38. Austropuccinia psidii, causing myrtle rust, has a gigabase-sized genome shaped by transposable elements

Author

Tobias, P. A., Schwessinger, Benjamin, Deng, C. H., Wu, Chen, Dong, Chongmei, Sperschneider, Jana, Jones, Ashley, Luo, Zhenyan, Zhang, Peng, Sandhu, Karanjeet S., Smith, Grant R, Tibbits, Josquin, Chagne, David, Park, R. F., Tobias, P. A., Schwessinger, Benjamin, Deng, C. H., Wu, Chen, Dong, Chongmei, Sperschneider, Jana, Jones, Ashley, Luo, Zhenyan, Zhang, Peng, Sandhu, Karanjeet S., Smith, Grant R, Tibbits, Josquin, Chagne, David, and Park, R. F.

Abstract

Austropuccinia psidii, originating in South America, is a globally invasive fungal plant pathogen that causes rust disease on Myrtaceae. Several biotypes are recognized, with the most widely distributed pandemic biotype spreading throughout the Asia-Pacific and Oceania regions over the last decade. Austropuccinia psidii has a broad host range with more than 480 myrtaceous species. Since first detected in Australia in 2010, the pathogen has caused the near extinction of at least three species and negatively affected commercial production of several Myrtaceae. To enable molecular and evolutionary studies into A. psidii pathogenicity, we assembled a highly contiguous genome for the pandemic biotype. With an estimated haploid genome size of just over 1 Gb (gigabases), it is the largest assembled fungal genome to date. The genome has undergone massive expansion via distinct transposable element (TE) bursts. Over 90% of the genome is covered by TEs predominantly belonging to the Gypsy superfamily. These TE bursts have likely been followed by deamination events of methylated cytosines to silence the repetitive elements. This in turn led to the depletion of CpG sites in TEs and a very low overall GC content of 33.8%. Compared to other Pucciniales, the intergenic distances are increased by an order of magnitude indicating a general insertion of TEs between genes. Overall, we show how TEs shaped the genome evolution of A. psidii and provide a greatly needed resource for strategic approaches to combat disease spread.

Published

2020

39. Two yeast species Cystobasidium psychroaquaticum f.a. sp. nov. and Cystobasidium rietchieii f.a. sp. nov. isolated from natural environments, and the transfer of Rhodotorula minuta clade members to the genus Cystobasidium.

Author

Yurkov, A., Kachalkin, A., Daniel, H., Groenewald, M., Libkind, D., Garcia, V., Zalar, P., Gouliamova, D., Boekhout, T., and Begerow, D.

Abstract

Many species of dimorphic basidiomycetes are known only in their asexual phase and typically those pigmented in different hues of red have been classified in the large polyphyletic genus Rhodotorula. These yeasts are ubiquitous and include a few species of some clinical relevance. The phylogenetic distribution of Rhodotorula spans three classes: Microbotryomycetes, Cystobasidiomycetes and Exobasidiomycetes. Here, the presented multi-gene analyses resolved phylogenetic relationships between the second largest group of Rhodotorula and the mycoparasite Cystobasidium fimetarium (Cystobasidiales, Cystobasidiomycetes, Pucciniomycotina). Based on the results, we propose the transfer of nine species belonging to the Rhodotorula minuta clade into the genus Cystobasidium. As a result, the clinically relevant species R. minuta will be renamed Cystobasidium minutum. This proposal follows ongoing reassessments of the anamorphic genus Rhodotorula reducing the polyphyly of this genus. The delimitation of the R. minuta clade from Rhodotorula species comprised in Sporidiobolales including the type species Rhodotorula glutinis is an important step to overcome obsolete generic placements of asexual basidiomycetous yeasts. Our proposal will also help to distinguish most common red yeasts from clinical samples such as members of Sporidiobolales and Cystobasidiales. The diagnosis of the genus Cystobasidium is amended by including additional characteristics known for the related group of species. The taxonomic change enables us to classify two novel species with the phylogenetically related members of the R. minuta clade in Cystobasidium. The recently from natural environments isolated species are described here as Cystobasidium psychroaquaticum f.a. sp. nov. (K-833 = KBP 3881 = VKPM Y-3653 = CBS 11769 = MUCL 52875 = DSM 27713) and Cystobasidium rietchiei f.a. sp. nov. (K-780 = KBP 4220 = VKPM Y-3658 = CBS 12324 = MUCL 53589 = DSM 27155). The new species were registered in MycoBank under MB 809336 and MB 809337, respectively. [ABSTRACT FROM AUTHOR]

Published

2015

40. Greenland and Svalbard glaciers host unknown basidiomycetes: the yeast Camptobasidium arcticum sp. nov. and the dimorphic Psychromyces glacialis gen. and sp. nov

Author

Laura Perini, Nina Gunde-Cimerman, Kristina Andrejašič, Polona Zalar, and Cene Gostinčar

Subjects

0301 basic medicine, Phylogenetic tree, Cytochrome b, 030106 microbiology, Zoology, General Medicine, Biology, Ribosomal RNA, biology.organism_classification, Microbiology, 03 medical and health sciences, Microbotryomycetes, 030104 developmental biology, Taxon, Phylogenetics, Genus, Pucciniomycotina, Ecology, Evolution, Behavior and Systematics

Abstract

Sampling campaigns in Greenland and Svalbard were executed to explore fungal diversity in cold habitats. Three very abundant groups of strains were discovered, consisting either of recently described or of yet-undescribed psychrophilic and oligotrophic yeasts and dimorphic fungi, accounting for around 50 % of the total cultivable diversity of basidiomycetes in our studies. The occurrence of these taxa has also been demonstrated by culture-independent methods. Based on phylogenetic analyses of ribosomal gene cluster sequences (D1/D2 domains of 28S (LSU), 18S (SSU), ITS with 5.8S rDNA) and sequences of protein-coding genes for elongation factor one alpha (TEF), cytochrome b (CYTB) and two subunits of the RNA polymerase II (RPB1 and RPB2) obtained from pure cultures, the isolated taxa presented in this study belong to Basidiomycota, subphylum Pucciniomycotina, class Microbotryomycetes, family Camptobasidiaceae. The dataset of the sequences supported the recognition of three species: Camptobasidium gelus, Camptobasidium arcticum sp. nov. (ex-type strain EXF-12713) and Psychromyces glacialis gen. and sp. nov. (ex-type strain EXF-13111). Camptobasidium gelus was found in the Svalbard and Greenland samples, while representatives of the here proposed new species, C. arcticum, were found only in the Greenland Ice Sheet. Psychromyces gen. nov. was erected for the dimorphic/filamentous isolates found in Svalbard and Greenland glacial environments. The taxon, for which the invalid name ‘Rhodotorula svalbardensis’ has been used, belongs to this genus. Based on ribosomal genes, Camptobasidium arcticum and Psychromyces glacialis are related, phylogenetically most closely related to the genera Glaciozyma and Cryolevonia. Seven genes phylogeny restricted to taxa with available sequences, supported the placement of Psychromyces to Camptobasidiaceae.

Published

2021

41. Crittendenia gen. nov., a new lichenicolous lineage in the Agaricostilbomycetes (Pucciniomycotina), and a review of the biology, phylogeny and classification of lichenicolous heterobasidiomycetes

Author

Paul Diederich, Mats Wedin, Martin Westberg, and Ana M. Millanes

Subjects

0303 health sciences, Biologisk systematik, biology, Lineage (evolution), yeasts, basidiomycetes, Biological Systematics, parasites, biology.organism_classification, 030308 mycology & parasitology, 03 medical and health sciences, Monophyly, taxonomy, Heterobasidiomycetes, Evolutionary biology, Genus, Agaricomycotina, Pucciniomycotina, Taxonomy (biology), Tremellomycetes, lichens, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

The lichenicolous ‘heterobasidiomycetes’ belong in the Tremellomycetes (Agaricomycotina) and in the Pucciniomycotina. In this paper, we provide an introduction and review of these lichenicolous taxa, focusing on recent studies and novelties of their classification, phylogeny and evolution. Lichen-inhabiting fungi in the Pucciniomycotina are represented by only a small number of species included in the genera Chionosphaera, Cyphobasidium and Lichenozyma. The phylogenetic position of the lichenicolous representatives of Chionosphaera has, however, never been investigated by molecular methods. Phylogenetic analyses using the nuclear SSU, ITS, and LSU ribosomal DNA markers reveal that the lichenicolous members of Chionosphaera form a monophyletic group in the Pucciniomycotina, distinct from Chionosphaera and outside the Chionosphaeraceae. The new genus Crittendenia is described to accommodate these lichen-inhabiting species. Crittendenia is characterized by minute synnemata-like basidiomata, the presence of clamp connections and aseptate tubular basidia from which 4–7 spores discharge passively, often in groups. Crittendenia, Cyphobasidium and Lichenozyma are the only lichenicolous lineages known so far in the Pucciniomycotina, whereas Chionosphaera does not include any lichenicolous taxa.

Published

2021

42. Austropuccinia psidii, causing myrtle rust, has a gigabase-sized genome shaped by transposable elements

Author

Grant R. Smith, Ashley Jones, K. S. Sandhu, Chongmei Dong, David Chagné, Chen Wu, Josquin Tibbits, Peri A. Tobias, Robert F. Park, Jana Sperschneider, Zhenyan Lou, Peng Zhang, Cecilia H. Deng, and Benjamin Schwessinger

Subjects

Transposable element, AcademicSubjects/SCI01140, Genome evolution, Asia, AcademicSubjects/SCI00010, Myrtaceae, Sequence assembly, Biology, QH426-470, AcademicSubjects/SCI01180, Genome, Intergenic region, myrtle rust, Pucciniomycotina, Genetics, fungal genome evolution, Molecular Biology, Gene, Genetics (clinical), Plant Diseases, Investigation, Basidiomycota, Australia, COVID-19, biology.organism_classification, Myrtus, Coronavirus, Evolutionary biology, DNA Transposable Elements, AcademicSubjects/SCI00960, transposable elements, GC-content

Abstract

Austropuccinia psidii, originating in South America, is a globally invasive fungal plant pathogen that causes rust disease on Myrtaceae. Several biotypes are recognized, with the most widely distributed pandemic biotype spreading throughout the Asia-Pacific and Oceania regions over the last decade. Austropuccinia psidii has a broad host range with more than 480 myrtaceous species. Since first detected in Australia in 2010, the pathogen has caused the near extinction of at least three species and negatively affected commercial production of several Myrtaceae. To enable molecular and evolutionary studies into A. psidii pathogenicity, we assembled a highly contiguous genome for the pandemic biotype. With an estimated haploid genome size of just over 1 Gb (gigabases), it is the largest assembled fungal genome to date. The genome has undergone massive expansion via distinct transposable element (TE) bursts. Over 90% of the genome is covered by TEs predominantly belonging to the Gypsy superfamily. These TE bursts have likely been followed by deamination events of methylated cytosines to silence the repetitive elements. This in turn led to the depletion of CpG sites in TEs and a very low overall GC content of 33.8%. Compared to other Pucciniales, the intergenic distances are increased by an order of magnitude indicating a general insertion of TEs between genes. Overall, we show how TEs shaped the genome evolution of A. psidii and provide a greatly needed resource for strategic approaches to combat disease spread.

Published

2021

43. Malassezia Yeasts : How Many Species Infect Humans and Animals?

Author

F. Javier Cabañes

Subjects

QH301-705.5, Immunology, Cryptococcus, Mycology, Rhodotorula, Microbiology, Pearls, Virology, Agaricomycotina, Trichosporon, Pucciniomycotina, Genetics, Animals, Dermatomycoses, Humans, Biology (General), Molecular Biology, Biology, Malassezia, biology, RC581-607, biology.organism_classification, Sporidiobolales, Veterinary Diseases, Veterinary Mycology, Filobasidiales, Parasitology, Veterinary Science, Immunologic diseases. Allergy

Abstract

Malassezia species are lipophilic yeasts that are members of the normal mycobiota of the skin and mucosal sites of a variety of homeothermic animals. They are also among the few basidiomycetous fungi, such as some Cryptococcus spp., Rhodotorula spp., and Trichosporon spp., that can produce disease in man and animals. However, in contrast with these other species, which are quite often involved in disseminated infections in immunosuppressed patients, Malassezia yeasts are associated mainly with certain skin diseases [1]. This special lipophilic group of yeasts is unique among the fungi. Phylogenetically, they form a well-defined cluster of skinliving yeasts, surrounded by plant pathogens and phylloplaneinhabiting fungi (e.g., Ustilago, Tilletiopsis). However, the taxonomic position of the genus Malassezia in the classes of the phylum Basidiomycota is not yet totally well defined. Moreover, the sexual form of these yeasts is still unknown. Recently, a region corresponding to the mating type locus (MAT) has been identified for these yeasts, and it has been suggested that if there is an extant sexual cycle for some of these yeasts that it is more likely to be bipolar, with just two mating types, rather than tetrapolar, with many mating types [2]. In the last higher-level fungal phylogenetic classification revision [3], the monophyletic genus Malassezia was the only genus included in the order Malasseziales, which has an uncertain taxonomic position in the subphylum Ustilagomycotina (e.g., smut fungi). Very recently, the class Malasseziomycetes has been proposed to accommodate these fungi (2013, provided from an anonymous reviewer; unreferenced). They are taxonomically distant to the orders which include the other commented pathogenic basidiomycetous yeasts of the genera Cryptococcus (Filobasidiales) and Trichosporon in Agaricomycotina (e.g., mushrooms) and of the polyphyletic genus Rhodotorula (Sporidiobolales and Cystobasidiales) in Pucciniomycotina (e.g., rust fungi).

Published

2021

44. The rusts on Goodeniaceae and Stylidiaceae.

Author

McTaggart, Alistair, Geering, Andrew, and Shivas, Roger

Abstract

Systematic relationships between the rusts on Goodeniaceae and Stylidiaceae were examined using phylogenetic analyses with two loci (internal transcribed spacer, large subunit region) from ribosomal DNA. Fresh specimens and herbarium material of four rust species ( Puccinia dampierae, P. gilgiana, P. saccardoi and Uromyces scaevolae) from the Goodeniaceae and one ( P. stylidii) from the Stylidiaceae were examined. A further species ( P. lagenophorae) that is reported from hosts in Goodeniaceae and Asteraceae was included in our analysis. Our phylogenetic analysis recovered the rusts on Goodeniaceae and Stylidiaceae in clades sister to P. lagenophorae on Asteraceae. This supported a taxonomy in which P. lagenophorae is restricted to Asteraceae. Descriptions or taxonomic notes are provided for all of the known rusts on Goodeniaceae and Stylidiaceae. [ABSTRACT FROM AUTHOR]

Published

2014

45. Paratritirachium curvibasidium, a new heat-resistant basidiomycete from flare pit soils in Alberta, Canada.

Author

Nguyen, Hai, Tanney, Joey, Chabot, Denise, Nickerson, Nancy, and Seifert, Keith

Abstract

Paratritirachium is a recently described, monotypic, basidiomycete genus in the Pucciniomycotina with one described asexual species, P. cylindroconium. Three strains of an undescribed species of Paratritirachium were isolated from flare pit soils from Alberta, Canada, using a heat treatment method. Both asexual and sexual propagules were produced in culture. Asexual reproduction was characterized by unbranched or sparingly branched conidiophores and sympodial, slightly vesicular conidiogenous cells producing aseptate conidia. Distinctive curved basidia were commonly produced in culture, yielding two pale brown, thick-walled and oval basidiospores. The basidiospores were heat-resistant and germinated only when exposed to heat. Phylogenetic analyses using the internal transcribed spacer (ITS) region and the combined small and large ribosomal subunits confirmed that these isolates are a new species of Paratritirachium, described in this study as P. curvibasidium, and that Paratritirachium should be classified in the class Tritirachiomycetes, order Tritirachiales, and family Tritirachiaceae. Transmission electron microscopy revealed simple, uniperforate septa, similar to those of a Tritirachium species, supporting the placement of Paratritirachium in the class Tritirachiomycetes. This study provides the first description of sexual reproduction in the Tritirachiomycetes and the first report of basidiospore germination after heat treatment at a high temperature (75 °C). [ABSTRACT FROM AUTHOR]

Published

2014

46. Red yeasts from leaf surfaces and other habitats: three new species and a new combination of

Author

Merje Toome-Heller, Danny Haelewaters, S Albu, and Mary Catherine Aime

Subjects

Systematics, Phylogenetic tree, biology, four new taxa, Biology and Life Sciences, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Biochemistry, Genetics and Molecular Biology (miscellaneous), Microbiology, Article, Microbotryomycetes, Taxon, Cystobasidiomycetes, Earth and Environmental Sciences, Pucciniomycotina, Botany, beetle gut, Taxonomy (biology), Sporobolomyces, phylloplane, systematics, simple-septate basidiomycetes, Ecology, Evolution, Behavior and Systematics

Abstract

Our understanding of the systematics of red yeasts has greatly improved with the availability of sequence data and it is now clear that the majority of these fungi belong to three different classes of Pucciniomycotina (Basidiomycota): Agaricostilbomycetes, Cystobasidiomycetes, and Microbotryomycetes. Despite improvements in phylogenetic placement, the taxonomy of these fungi has long been in need of revision and still has not been entirely resolved, partly due to missing taxa. In the present study, we present data of culture-based environmental yeast isolation, revealing several undescribed species of Symmetrospora, which was recently introduced to accommodate six species previously placed in the asexual genera Sporobolomyces and Rhodotorula in the gracilis/marina clade of Cystobasidiomycetes. Based on molecular phylogenetic analyses of three rDNA loci, morphology, and biochemical studies, we formally describe the following new species: Symmetrospora clarorosea sp. nov. from leaf surfaces in Portugal and the USA; S. pseudomarina sp. nov. from leaf surfaces in Brazil, and the USA and decaying wood in the USA; and S. suhii sp. nov. from a beetle gut in the USA, leaf surfaces in Brazil and marine water in the Taiwan and Thailand. Finally, we propose a new combination for Sporobolomyces oryzicola based on our molecular phylogenetic data, Symmetrospora oryzicola comb. nov.

Published

2020

47. Taxonomic revision of species of Kuehneola and Phragmidium on Rosa, including two new species from China

Author

Ying-Mei Liang, Yoshitaka Ono, and Yun Liu

Subjects

0106 biological sciences, 0303 health sciences, Physiology, Rosaceae, Cell Biology, General Medicine, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Japonica, 030308 mycology & parasitology, 03 medical and health sciences, Kuehneola, Phylogenetics, Pucciniomycotina, Botany, Genetics, Phragmidium, Taxonomy (biology), Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Kuehneola japonica and K. warburgiana are the only species of genus Kuehneola that parasitize plants belonging to genus Rosa (Rosaceae). Systematic revision of the genus Phragmidium and related genera by molecular phylogenetic analyses using nuc rDNA internal transcribed spacer (5.8S-ITS2 = ITS2) and nuc rDNA 28S (28S) sequences indicated that K. japonica and K. warburgiana belong to a group of Phragmidium species that also occur on Rosa. Morphological and molecular phylogenetic analyses revealed that these Kuehneola species were transferred to Phragmidium and renamed as P. japonicum and P. warburgianum. Two new Phragmidium species were also discovered on Rosa from China that could be distinguished from other species in the genus based on aeciospore or urediniospore morphology and phylogenetic placement. The first species, P. jiangxiense, is characterized by a urediniospore surface structure with stout spines that are basally embedded in the wrinkled spore wall. The second species, P. leucoaecium, is characterized by an aeciospore surface structure with irregularly elongated verrucae. Taxonomic descriptions and illustrations are provided.

Published

2020

48. Model Choice, Missing Data and Taxon Sampling Impact Phylogenomic Inference of Deep Basidiomycota Relationships

Author

Vinson P. Doyle, Teeratas Kijpornyongpan, M. Catherine Aime, László Nagy, Arun N. Prasanna, and Daniel Gerber

Subjects

0106 biological sciences, 0301 basic medicine, Polytomy, Genes, Fungal, 010603 evolutionary biology, 01 natural sciences, Article, Coalescent theory, 03 medical and health sciences, Agaricomycotina, Phylogenomics, Pucciniomycotina, Genetics, Ecology, Evolution, Behavior and Systematics, Phylogeny, Long branch attraction, Ustilaginomycotina, biology, Phylogenetic tree, Models, Genetic, Basidiomycota, 15. Life on land, biology.organism_classification, Classification, 030104 developmental biology, Evolutionary biology

Abstract

Resolving deep divergences in the tree of life is challenging even for analyses of genome-scale phylogenetic data sets. Relationships between Basidiomycota subphyla, the rusts and allies (Pucciniomycotina), smuts and allies (Ustilaginomycotina), and mushroom-forming fungi and allies (Agaricomycotina) were found particularly recalcitrant both to traditional multigene and genome-scale phylogenetics. Here, we address basal Basidiomycota relationships using concatenated and gene tree-based analyses of various phylogenomic data sets to examine the contribution of several potential sources of bias. We evaluate the contribution of biological causes (hard polytomy, incomplete lineage sorting) versus unmodeled evolutionary processes and factors that exacerbate their effects (e.g., fast-evolving sites and long-branch taxa) to inferences of basal Basidiomycota relationships. Bayesian Markov Chain Monte Carlo and likelihood mapping analyses reject the hard polytomy with confidence. In concatenated analyses, fast-evolving sites and oversimplified models of amino acid substitution favored the grouping of smuts with mushroom-forming fungi, often leading to maximal bootstrap support in both concatenation and coalescent analyses. On the contrary, the most conserved data subsets grouped rusts and allies with mushroom-forming fungi, although this relationship proved labile, sensitive to model choice, to different data subsets and to missing data. Excluding putative long-branch taxa, genes with high proportions of missing data and/or with strong signal failed to reveal a consistent trend toward one or the other topology, suggesting that additional sources of conflict are at play. While concatenated analyses yielded strong but conflicting support, individual gene trees mostly provided poor support for any resolution of rusts, smuts, and mushroom-forming fungi, suggesting that the true Basidiomycota tree might be in a part of tree space that is difficult to access using both concatenation and gene tree-based approaches. Inference-based assessments of absolute model fit strongly reject best-fit models for the vast majority of genes, indicating a poor fit of even the most commonly used models. While this is consistent with previous assessments of site-homogenous models of amino acid evolution, this does not appear to be the sole source of confounding signal. Our analyses suggest that topologies uniting smuts with mushroom-forming fungi can arise as a result of inappropriate modeling of amino acid sites that might be prone to systematic bias. We speculate that improved models of sequence evolution could shed more light on basal splits in the Basidiomycota, which, for now, remain unresolved despite the use of whole genome data.

Published

2020

49. An analysis of codon bias in six red yeast species

Author

Andrea Porceddu, M. Catherine Aime, Salvatore Camiolo, Ilaria Mannazzu, Igor V. Grigoriev, Merje Toome-Heller, and Sajeet Haridas

Subjects

Transgene, Bioengineering, Biology, Applied Microbiology and Biotechnology, Biochemistry, Evolution, Molecular, 03 medical and health sciences, Yeasts, Gene expression, Pucciniomycotina, Genetics, Selection, Genetic, Codon, Sporobolomyces, Gene, 030304 developmental biology, 0303 health sciences, 030306 microbiology, biology.organism_classification, Yeast, Sporidiobolales, Codon usage bias, Mutation, Genome, Fungal, Plasmids, Biotechnology

Abstract

Red yeasts, primarily species of Rhodotorula, Sporobolomyces, and other genera of Pucciniomycotina, are traditionally considered proficient systems for lipid and terpene production, and only recently have also gained consideration for the production of a wider range of molecules of biotechnological potential. Improvements of transgene delivery protocols and regulated gene expression systems have been proposed, but a dearth of information on compositional and/or structural features of genes has prevented transgene sequence optimization efforts for high expression levels. Here, the codon compositional features of genes in six red yeast species were characterized, and the impact that evolutionary forces may have played in shaping this compositional bias was dissected by using several computational approaches. Results obtained are compatible with the hypothesis that mutational bias, although playing a significant role, cannot alone explain synonymous codon usage bias of genes. Nevertheless, several lines of evidences indicated a role for translational selection in driving the synonymous codons that allow high expression efficiency. These optimal synonymous codons are identified for each of the six species analyzed. Moreover, the presence of intragenic patterns of codon usage, which are thought to facilitate polyribosome formation, was highlighted. The information presented should be taken into consideration for transgene design for optimal expression in red yeast species.

Published

2018

50. New Species inHelicogloeaandSpiculogloea, Including a Type Study ofH. graminicola(Bres.) G.E. Baker (Basidiomycota, Pucciniomycotina)

Author

Karel Van De Put, Annemieke Verbeken, Nathan Schoutteten, and Peter Roberts

Subjects

0301 basic medicine, biology, Basidiomycota, 030108 mycology & parasitology, biology.organism_classification, 03 medical and health sciences, Heterobasidiomycetes, Graminicola, Genus, Botany, Pucciniomycotina, Sistotrema, Parasite hosting, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics

Abstract

Two new heterobasidiomycetes species belonging to the genera Helicogloea and Spiculogloea (Pucciniomycotina) are described from Belgium. Helicogloea jozefii sp. nov. and Spiculogloea inaequalis sp. nov. are proposed with descriptions and illustrations of macroand microscopical features. The latter species grows as an intrahymenial parasite in Sistotrema spp. Identification keys to the new species are provided for each genus. The newly described species are compared to morphologically similar species and their ecology is briefly discussed. A type study of H. graminicola is included.

Published

2018