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1. Large-scale genomic analyses with machine learning uncover predictive patterns associated with fungal phytopathogenic lifestyles and traits

Author: Dort, EN, Layne, E, Feau, N, Butyaev, A, Henrissat, B, Martin, FM, Haridas, S, Salamov, A, Grigoriev, IV, Blanchette, M, and Hamelin, RC
Subjects: Microbiology, Biological Sciences, Networking and Information Technology R&D (NITRD), Biotechnology, Genetics, Human Genome, Machine Learning and Artificial Intelligence, Infectious Diseases, Humans, Phylogeny, Genome, Fungal, Ascomycota, Genomics, Peptide Hydrolases, Life Style, Machine Learning
Abstract: Invasive plant pathogenic fungi have a global impact, with devastating economic and environmental effects on crops and forests. Biosurveillance, a critical component of threat mitigation, requires risk prediction based on fungal lifestyles and traits. Recent studies have revealed distinct genomic patterns associated with specific groups of plant pathogenic fungi. We sought to establish whether these phytopathogenic genomic patterns hold across diverse taxonomic and ecological groups from the Ascomycota and Basidiomycota, and furthermore, if those patterns can be used in a predictive capacity for biosurveillance. Using a supervised machine learning approach that integrates phylogenetic and genomic data, we analyzed 387 fungal genomes to test a proof-of-concept for the use of genomic signatures in predicting fungal phytopathogenic lifestyles and traits during biosurveillance activities. Our machine learning feature sets were derived from genome annotation data of carbohydrate-active enzymes (CAZymes), peptidases, secondary metabolite clusters (SMCs), transporters, and transcription factors. We found that machine learning could successfully predict fungal lifestyles and traits across taxonomic groups, with the best predictive performance coming from feature sets comprising CAZyme, peptidase, and SMC data. While phylogeny was an important component in most predictions, the inclusion of genomic data improved prediction performance for every lifestyle and trait tested. Plant pathogenicity was one of the best-predicted traits, showing the promise of predictive genomics for biosurveillance applications. Furthermore, our machine learning approach revealed expansions in the number of genes from specific CAZyme and peptidase families in the genomes of plant pathogens compared to non-phytopathogenic genomes (saprotrophs, endo- and ectomycorrhizal fungi). Such genomic feature profiles give insight into the evolution of fungal phytopathogenicity and could be useful to predict the risks of unknown fungi in future biosurveillance activities.
Published: 2023

2. Erratum for Myers et al., “Survey of Early-Diverging Lineages of Fungi Reveals Abundant and Diverse Mycoviruses”

Author: Myers, JM, Bonds, AE, Clemons, RA, Thapa, NA, Simmons, DR, Carter-House, D, Ortanez, J, Liu, P, Miralles-Durán, A, Desirò, A, Longcore, JE, Bonito, G, Stajich, JE, Spatafora, JW, Chang, Y, Corrochano, LM, Gryganskyi, A, Grigoriev, IV, and James, TY
Subjects: Microbiology, Biological Sciences, Biochemistry and cell biology, Medical microbiology
Published: 2020

3. Survey of Early-Diverging Lineages of Fungi Reveals Abundant and Diverse Mycoviruses

Author: Myers, JM, Bonds, AE, Clemons, RA, Thapa, NA, Simmons, DR, Carter-House, D, Ortanez, J, Liu, P, Miralles-Durán, A, Desirò, A, Longcore, JE, Bonito, G, Stajich, JE, Spatafora, JW, Chang, Y, Corrochano, LM, Gryganskyi, A, Grigoriev, IV, and James, TY
Subjects: Microbiology, Biological Sciences, Genetics, Infectious Diseases, Emerging Infectious Diseases, 2.2 Factors relating to the physical environment, Infection, Evolution, Molecular, Fungal Viruses, Fungi, Genome, Viral, Phylogeny, Plant Diseases, RNA, Viral, Transcriptome, mycovirus, dsRNA virus, Chytridiomycota, Blastocladiomycota, Neocallimastigomycota, Zoopagomycota, Mucoromycota, double-stranded RNA virus, mycoviruses, Biochemistry and cell biology, Medical microbiology
Abstract: Mycoviruses are widespread and purportedly common throughout the fungal kingdom, although most are known from hosts in the two most recently diverged phyla, Ascomycota and Basidiomycota, together called Dikarya. To augment our knowledge of mycovirus prevalence and diversity in underexplored fungi, we conducted a large-scale survey of fungi in the earlier-diverging lineages, using both culture-based and transcriptome-mining approaches to search for RNA viruses. In total, 21.6% of 333 isolates were positive for RNA mycoviruses. This is a greater proportion than expected based on previous taxonomically broad mycovirus surveys and is suggestive of a strong phylogenetic component to mycoviral infection. Our newly found viral sequences are diverse, composed of double-stranded RNA, positive-sense single-stranded RNA (ssRNA), and negative-sense ssRNA genomes and include novel lineages lacking representation in the public databases. These identified viruses could be classified into 2 orders, 5 families, and 5 genera; however, half of the viruses remain taxonomically unassigned. Further, we identified a lineage of virus-like sequences in the genomes of members of Phycomycetaceae and Mortierellales that appear to be novel genes derived from integration of a viral RNA-dependent RNA polymerase gene. The two screening methods largely agreed in their detection of viruses; thus, we suggest that the culture-based assay is a cost-effective means to quickly assess whether a laboratory culture is virally infected. This study used culture collections and publicly available transcriptomes to demonstrate that mycoviruses are abundant in laboratory cultures of early-diverging fungal lineages. The function and diversity of mycoviruses found here will help guide future studies into mycovirus origins and ecological functions.IMPORTANCE Viruses are key drivers of evolution and ecosystem function and are increasingly recognized as symbionts of fungi. Fungi in early-diverging lineages are widespread, ecologically important, and comprise the majority of the phylogenetic diversity of the kingdom. Viruses infecting early-diverging lineages of fungi have been almost entirely unstudied. In this study, we screened fungi for viruses by two alternative approaches: a classic culture-based method and by transcriptome-mining. The results of our large-scale survey demonstrate that early-diverging lineages have higher infection rates than have been previously reported in other fungal taxa and that laboratory strains worldwide are host to infections, the implications of which are unknown. The function and diversity of mycoviruses found in these basal fungal lineages will help guide future studies into mycovirus origins and their evolutionary ramifications and ecological impacts.
Published: 2020

4. Genomic adaptations of the green alga Dunaliella salina to life under high salinity

Author: Polle, JEW, Calhoun, S, McKie-Krisberg, Z, Prochnik, S, Neofotis, P, Yim, WC, Hathwaik, LT, Jenkins, J, Molina, H, Bunkenborg, J, Grigoriev, IV, Barry, K, Schmutz, J, Jin, ES, Cushman, JC, and Magnusson, JK
Subjects: Plant Biology, Chemical Engineering, Industrial Biotechnology
Abstract: Life in high salinity environments poses challenges to cells in a variety of ways: maintenance of ion homeostasis and nutrient acquisition, often while concomitantly enduring saturating irradiances. Dunaliella salina has an exceptional ability to thrive even in saturated brine solutions. This ability has made it a model organism for studying responses to abiotic stress factors. Here we describe the occurrence of unique gene families, expansion of gene families, or gene losses that might be linked to osmoadaptive strategies. We discovered multiple unique genes coding for several of the homologous superfamily of the Ser-Thr-rich glycosyl-phosphatidyl-inositol-anchored membrane family and of the glycolipid 2-alpha-mannosyltransferase family, suggesting that such components on the cell surface are essential to life in high salt. Gene expansion was found in families that participate in sensing of abiotic stress and signal transduction in plants. One example is the patched family of the Sonic Hedgehog receptor proteins, supporting a previous hypothesis that plasma membrane sterols are important for sensing changes in salinities in D. salina. We also investigated genome-based capabilities regarding glycerol metabolism and present an extensive map for core carbon metabolism. We postulate that a second broader glycerol cycle exists that also connects to photorespiration, thus extending the previously described glycerol cycle. Further genome-based analysis of isoprenoid and carotenoid metabolism revealed duplications of genes for 1-deoxy-D-xylulose-5-phosphate synthase (DXS) and phytoene synthase (PSY), with the second gene copy of each enzyme being clustered together. Moreover, we identified two genes predicted to code for a prokaryotic-type phytoene desaturase (CRTI), indicating that D. salina may have eukaryotic and prokaryotic elements comprising its carotenoid biosynthesis pathways. In brief, our genomic data provide the basis for further gene discoveries regarding sensing abiotic stress, the metabolism of this halophilic alga, and its potential in biotechnological applications.
Published: 2020

5. 101 Dothideomycetes genomes: A test case for predicting lifestyles and emergence of pathogens.

Author: Haridas, S, Albert, R, Binder, M, Bloem, J, LaButti, K, Salamov, A, Andreopoulos, B, Baker, SE, Barry, K, Bills, G, Bluhm, BH, Cannon, C, Castanera, R, Culley, DE, Daum, C, Ezra, D, González, JB, Henrissat, B, Kuo, A, Liang, C, Lipzen, A, Lutzoni, F, Magnuson, J, Mondo, SJ, Nolan, M, Ohm, RA, Pangilinan, J, Park, H-J, Ramírez, L, Alfaro, M, Sun, H, Tritt, A, Yoshinaga, Y, Zwiers, L-H, Turgeon, BG, Goodwin, SB, Spatafora, JW, Crous, PW, and Grigoriev, IV
Subjects: Aulographales Crous, Spatafora, Haridas & Grigoriev, Coniosporiaceae Crous, Spatafora, Haridas & Grigoriev, Coniosporiales Crous, Spatafora, Haridas & Grigoriev, Eremomycetales Crous, Spatafora, Haridas & Grigoriev, Fungal evolution, Genome-based prediction, Lineolataceae Crous, Spatafora, Haridas & Grigoriev, Lineolatales Crous, Spatafora, Haridas & Grigoriev, Machine-learning, New taxa, Rhizodiscinaceae Crous, Spatafora, Haridas & Grigoriev, Aulographales Crous, Spatafora, Haridas & Grigoriev, Coniosporiaceae Crous, Coniosporiales Crous, Eremomycetales Crous, Lineolataceae Crous, Lineolatales Crous, Rhizodiscinaceae Crous, Microbiology, Mycology & Parasitology
Abstract: Dothideomycetes is the largest class of kingdom Fungi and comprises an incredible diversity of lifestyles, many of which have evolved multiple times. Plant pathogens represent a major ecological niche of the class Dothideomycetes and they are known to infect most major food crops and feedstocks for biomass and biofuel production. Studying the ecology and evolution of Dothideomycetes has significant implications for our fundamental understanding of fungal evolution, their adaptation to stress and host specificity, and practical implications with regard to the effects of climate change and on the food, feed, and livestock elements of the agro-economy. In this study, we present the first large-scale, whole-genome comparison of 101 Dothideomycetes introducing 55 newly sequenced species. The availability of whole-genome data produced a high-confidence phylogeny leading to reclassification of 25 organisms, provided a clearer picture of the relationships among the various families, and indicated that pathogenicity evolved multiple times within this class. We also identified gene family expansions and contractions across the Dothideomycetes phylogeny linked to ecological niches providing insights into genome evolution and adaptation across this group. Using machine-learning methods we classified fungi into lifestyle classes with >95 % accuracy and identified a small number of gene families that positively correlated with these distinctions. This can become a valuable tool for genome-based prediction of species lifestyle, especially for rarely seen and poorly studied species.
Published: 2020

6. Regulation of yeast-to-hyphae transition in Yarrowia lipolytica

Author: Pomraning, KR, Bredeweg, EL, Kerkhoven, EJ, Barry, K, Haridas, S, Hundley, H, LaButti, K, Lipzen, A, Yan, M, Magnuson, JK, Simmons, BA, Grigoriev, IV, Nielsen, J, and Baker, SE
Subjects: Microbiology
Abstract: © 2018 Pomraning et al. The yeast Yarrowia lipolytica undergoes a morphological transition from yeast-to-hyphal growth in response to environmental conditions. A forward genetic screen was used to identify mutants that reliably remain in the yeast phase, which were then assessed by whole-genome sequencing. All the smooth mutants identified, so named because of their colony morphology, exhibit independent loss of DNA at a repetitive locus made up of interspersed ribosomal DNA and short 10- to 40-mer telomere-like repeats. The loss of repetitive DNA is associated with downregulation of genes with stress response elements (5'-CCCCT-3') and upregulation of genes with cell cycle box (5'-ACGCG-3') motifs in their promoter region. The stress response element is bound by the transcription factor Msn2p in Saccharomyces cerevisiae. We confirmed that the Y. lipolytica msn2 (Ylmsn2) ortholog is required for hyphal growth and found that overexpression of Ylmsn2 enables hyphal growth in smooth strains. The cell cycle box is bound by the Mbp1p/Swi6p complex in S. cerevisiae to regulate G1-to-S phase progression. We found that overexpression of either the Ylmbp1 or Ylswi6 homologs decreased hyphal growth and that deletion of either Ylmbp1 or Ylswi6 promotes hyphal growth in smooth strains. A second forward genetic screen for reversion to hyphal growth was performed with the smooth-33 mutant to identify additional genetic factors regulating hyphal growth in Y. lipolytica. Thirteen of the mutants sequenced from this screen had coding mutations in five kinases, including the histidine kinases Ylchk1 and Ylnik1 and kinases of the high-osmolarity glycerol response (HOG) mitogen-activated protein (MAP) kinase cascade Ylssk2, Ylpbs2, and Ylhog1. Together, these results demonstrate that Y. lipolytica transitions to hyphal growth in response to stress through multiple signaling pathways.
Published: 2018

7. Genomic and exoproteomic diversity in plant biomass degradation approaches among Aspergilli

Author: Mäkelä, MR, DiFalco, M, McDonnell, E, Nguyen, TTM, Wiebenga, A, Hildén, K, Peng, M, Grigoriev, IV, Tsang, A, and de Vries, RP
Subjects: Aspergillus, Cellulose, Pectin, Plant biomass degradation, Wheat bran, Xylan, Xyloglucan, Sugar beet pulp, Microbiology, Mycology & Parasitology
Abstract: We classified the genes encoding carbohydrate-active enzymes (CAZymes) in 17 sequenced genomes representing 16 evolutionarily diverse Aspergillus species. We performed a phylogenetic analysis of the encoding enzymes, along with experimentally characterized CAZymes, to assign molecular function to the Aspergilli CAZyme families and subfamilies. Genome content analysis revealed that the numbers of CAZy genes per CAZy family related to plant biomass degradation follow closely the taxonomic distance between the species. On the other hand, growth analysis showed almost no correlation between the number of CAZyme genes and the efficiency in polysaccharide utilization. The exception is A. clavatus where a reduced number of pectinolytic enzymes can be correlated with poor growth on pectin. To gain detailed information on the enzymes used by Aspergilli to breakdown complex biomass, we conducted exoproteome analysis by mass spectrometry. These results showed that Aspergilli produce many different enzymes mixtures in the presence of sugar beet pulp and wheat bran. Despite the diverse enzyme mixtures produced, species of section Nigri, A. aculeatus, A. nidulans and A. terreus, produce mixtures of enzymes with activities that are capable of digesting all the major polysaccharides in the available substrates, suggesting that they are capable of degrading all the polysaccharides present simultaneously. For the other Aspergilli, typically the enzymes produced are targeted to a subset of polysaccharides present, suggesting that they can digest only a subset of polysaccharides at a given time.
Published: 2018

8. The gold-standard genome of Aspergillus niger NRRL 3 enables a detailed view of the diversity of sugar catabolism in fungi

Author: Aguilar-Pontes, MV, Brandl, J, McDonnell, E, Strasser, K, Nguyen, TTM, Riley, R, Mondo, S, Salamov, A, Nybo, JL, Vesth, TC, Grigoriev, IV, Andersen, MR, Tsang, A, and de Vries, RP
Subjects: Microbiology, Biological Sciences, Human Genome, Genetics, Aspergillus, Genomic diversity, Gold standard genome, Sugar catabolism, Mycology & Parasitology
Abstract: The fungal kingdom is too large to be discovered exclusively by classical genetics. The access to omics data opens a new opportunity to study the diversity within the fungal kingdom and how adaptation to new environments shapes fungal metabolism. Genomes are the foundation of modern science but their quality is crucial when analysing omics data. In this study, we demonstrate how one gold-standard genome can improve functional prediction across closely related species to be able to identify key enzymes, reactions and pathways with the focus on primary carbon metabolism. Based on this approach we identified alternative genes encoding various steps of the different sugar catabolic pathways, and as such provided leads for functional studies into this topic. We also revealed significant diversity with respect to genome content, although this did not always correlate to the ability of the species to use the corresponding sugar as a carbon source.
Published: 2018

9. Substrate-specific differential gene expression and RNA editing in the brown rot fungus Fomitopsis pinicola

Author: Wu, B, Gaskell, J, Held, BW, Toapanta, C, Vuong, T, Ahrendt, S, Lipzen, A, Zhang, J, Schilling, JS, Master, E, Grigoriev, IV, Blanchette, RA, Cullen, D, and Hibbett, DS
Subjects: Microbiology
Abstract: Wood-decaying fungi tend to have characteristic substrate ranges that partly define their ecological niche. Fomitopsis pinicola is a brown rot species of Polyporales that is reported on 82 species of softwoods and 42 species of hardwoods. We analyzed the gene expression levels and RNA editing profiles of F. pinicola from submerged cultures with ground wood powder (sampled at 5 days) or solid wood wafers (sampled at 10 and 30 days), using aspen, pine, and spruce substrates (aspen was used only in submerged cultures). Fomitopsis pinicola expressed similar sets of wood-degrading enzymes typical of brown rot fungi across all culture conditions and time points. Nevertheless, differential gene expression and RNA editing were observed across all pairwise comparisons of substrates and time points. Genes exhibiting differential expression and RNA editing encode diverse enzymes with known or potential function in brown rot decay, including laccase, benzoquinone reductase, aryl alcohol oxidase, cytochrome P450s, and various glycoside hydrolases. There was no overlap between differentially expressed and differentially edited genes, suggesting that these may provide F. pinicola with independent mechanisms for responding to different conditions. Comparing transcriptomes from submerged cultures and wood wafers, we found that culture conditions had a greater impact on global expression profiles than substrate wood species. In contrast, the suites of genes subject to RNA editing were much less affected by culture conditions. These findings highlight the need for standardization of culture conditions in studies of gene expression in wood-decaying fungi.
Published: 2018

10. The fungus that came in from the cold: dry rot’s pre-adapted ability to invade buildings

Author: Balasundaram, SV, Hess, J, Durling, MB, Moody, SC, Thorbek, L, Progida, C, LaButti, K, Aerts, A, Barry, K, Grigoriev, IV, Boddy, L, Högberg, N, Kauserud, H, Eastwood, DC, and Skrede, I
Subjects: Microbiology, Plant Biology, Biological Sciences, Ecology, Adaptation, Biological, Basidiomycota, Construction Materials, Ecosystem, Genetic Variation, Humans, Sequence Analysis, DNA, Wood, Environmental Sciences, Technology, Biological sciences, Environmental sciences
Abstract: Many organisms benefit from being pre-adapted to niches shaped by human activity, and have successfully invaded man-made habitats. One such species is the dry rot fungus Serpula lacrymans, which has a wide distribution in buildings in temperate and boreal regions, where it decomposes coniferous construction wood. Comparative genomic analyses and growth experiments using this species and its wild relatives revealed that S. lacrymans evolved a very effective brown rot decay compared to its wild relatives, enabling an extremely rapid decay in buildings under suitable conditions. Adaptations in intracellular transport machineries promoting hyphal growth, and nutrient and water transport may explain why it is has become a successful invader of timber in houses. Further, we demonstrate that S. lacrymans has poor combative ability in our experimental setup, compared to other brown rot fungi. In sheltered indoor conditions, the dry rot fungus may have limited encounters with other wood decay fungi compared to its wild relatives. Overall, our analyses indicate that the dry rot fungus is an ecological specialist with poor combative ability against other fungi.
Published: 2018

11. Coniella lustricola, a new species from submerged detritus

Author: Raudabaugh, DB, Iturriaga, T, Carver, A, Mondo, S, Pangilinan, J, Lipzen, A, He, G, Amirebrahimi, M, Grigoriev, IV, and Miller, AN
Subjects: Diaporthales, Schizoparmeaceae, Sordariomycetes, Fungal Genome Project, Mycology & Parasitology, Microbiology
Abstract: The draft genome, morphological description, and phylogenetic placement of Coniella lustricola sp. nov. (Schizoparmeaceae) are provided. The species was isolated from submerged detritus in a fen at Black Moshannon State Park, Pennsylvania, USA and differs from all other Coniella species by having ellipsoid to fusoid, inequilateral conidia that are rounded on one end and truncate or obtuse on the other end, with a length to width ratio of 2.8. The draft genome is 36.56 Mbp and consists of 870 contigs on 634 scaffolds (L50 = 0.14 Mb, N50 = 76 scaffolds), with 0.5% of the scaffold length in gaps. It contains 11,317 predicted gene models, including predicted genes for cellulose, hemicellulose, and xylan degradation, as well as predicted regions encoding for amylase, laccase, and tannase enzymes. Many members of the Schizoparmeaceae are plant pathogens of agricultural crops. This draft genome represents the first sequenced Coniella genome and will be a valuable tool for comparisons among pathogenic Coniella species.
Published: 2018

12. Genome sequence of the plant growth promoting fungus serendipita vermifera subsp. BESCII: The first native strain from North America

Author: Ray, P, Chi, MH, Guo, Y, Chen, C, Adam, C, Kuo, A, LaButti, K, Lipzen, A, Barry, KW, Grigoriev, IV, Tang, Y, and Craven, KD
Subjects: agriculture, crop, genomics, microorganism, mycology, rhizosphere and phyllosphere, symbiosis
Abstract: Serendipita vermifera (=Sebacina vermifera) has demonstrated plant growth promoting abilities with little or no host specificity. The full genome sequencing of Serendipita vermifera subsp. bescii, the first North American strain, will provide insight into the mechanisms behind mycorrhizal symbiosis and plant enhancement in a variety of agronomically important crops.
Published: 2018

13. Properties of RBD specific IgG from COVID-19 patients and Sputnik V vaccinated individuals

Author: Generalova, LV, primary, Grigoriev, IV, additional, Vasina, DV, additional, Tkachuk, AP, additional, Kruzhkova, IS, additional, Kolobukhina, LV, additional, Burgasova, OA, additional, and Guschin, VA, additional
Published: 2022
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14. Shed light in the dark lineages of the fungal tree of life—stres

Author: Selbmann, L, Benkő, Z, Coleine, C, de Hoog, S, Donati, C, Druzhinina, I, Emri, T, Ettinger, CL, Gladfelter, AS, Gorbushina, AA, Grigoriev, IV, Grube, M, Gunde-Cimerman, N, Karányi, ZÁ, Kocsis, B, Kubressoian, T, Miklós, I, Miskei, M, Muggia, L, Northen, T, Novak-Babič, M, Pennacchio, C, Pfliegler, WP, Pòcsi, I, Prigione, V, Riquelme, M, Segata, N, Schumacher, J, Shelest, E, Sterflinger, K, Tesei, D, U’ren, JM, Varese, GC, Vázquez-Campos, X, Vicente, VA, Souza, EM, Zalar, P, Walker, AK, Stajich, JE, Selbmann, L, Benkő, Z, Coleine, C, de Hoog, S, Donati, C, Druzhinina, I, Emri, T, Ettinger, CL, Gladfelter, AS, Gorbushina, AA, Grigoriev, IV, Grube, M, Gunde-Cimerman, N, Karányi, ZÁ, Kocsis, B, Kubressoian, T, Miklós, I, Miskei, M, Muggia, L, Northen, T, Novak-Babič, M, Pennacchio, C, Pfliegler, WP, Pòcsi, I, Prigione, V, Riquelme, M, Segata, N, Schumacher, J, Shelest, E, Sterflinger, K, Tesei, D, U’ren, JM, Varese, GC, Vázquez-Campos, X, Vicente, VA, Souza, EM, Zalar, P, Walker, AK, and Stajich, JE
Abstract: The polyphyletic group of black fungi within the Ascomycota (Arthoniomycetes, Dothideomycetes, and Eurotiomycetes) is ubiquitous in natural and anthropogenic habitats. Partly because of their dark, melanin-based pigmentation, black fungi are resistant to stresses including UV-and ionizing-radiation, heat and desiccation, toxic metals, and organic pollutants. Consequently, they are amongst the most stunning extremophiles and poly-extreme-tolerant organisms on Earth. Even though ca. 60 black fungal genomes have been sequenced to date, [mostly in the family Herpotrichiellaceae (Eurotiomycetes)], the class Dothideomycetes that hosts the largest majority of extremophiles has only been sparsely sampled. By sequencing up to 92 species that will become reference genomes, the “Shed light in The daRk lineagES of the fungal tree of life” (STRES) project will cover a broad collection of black fungal diversity spread throughout the Fungal Tree of Life. Interestingly, the STRES project will focus on mostly unsampled genera that display different ecologies and life-styles (e.g., ant-and lichen-associated fungi, rock-inhabiting fungi, etc.). With a resequencing strategy of 10-to 15-fold depth coverage of up to ~550 strains, numerous new reference genomes will be established. To identify metabolites and functional processes, these new genomic resources will be enriched with metabolomics analyses coupled with transcriptomics experiments on selected species under various stress conditions (salinity, dryness, UV radiation, oligotrophy). The data acquired will serve as a reference and foundation for establishing an encyclopedic database for fungal metagenomics as well as the biology, evolution, and ecology of the fungi in extreme environments.
Published: 2020

15. Draft genome sequence of the basidiomycete white-rot fungus Phlebia centrifuga

Author: Mäkelä, MR, Peng, M, Granchi, Z, Chin-A-Woeng, T, Hegi, R, van Pelt, SI, Ahrendt, S, Riley, R, Hainaut, M, Henrissat, B, Grigoriev, IV, de Vries, RP, and Hildén, KS
Subjects: fungi, technology, industry, and agriculture, food and beverages, complex mixtures
Abstract: © 2018, American Society for Microbiology. Here, we report the genome sequence of wood-decaying white-rot fungus Phlebia centrifuga strain FBCC195, isolated from Norway spruce (Picea abies) in Finnish Lapland. The 34.66-Mb genome containing 13,785 gene models is similar to the genome length reported for other saprobic white-rot species.
Published: 2018

16. Long-term dynamics of erosion and channel processes on the territory of Udmurtia

Author: Rysin Ivan, Grigoriev Ivan, and Permyakov Maksim
Subjects: Environmental sciences, GE1-350
Abstract: This paper presents the data of long-term observations of gully erosion (1978-2023) and channel processes (2000-2023) on the territory of Udmurtia. Quantitative indices of gully top growth rates at 28 sites for different periods have been compared by types and composition of eroded. Average and maximum rates of their growth are given here. The study of river channel scour at 55 sites in different landscapes has been resulted. To analyze the results, the rivers have been divided into 4 groups according to the magnitude of their orders (according to A. Scheidegger's model). Linear, area and volume indices of scour in ravines and channels of small watercourses have been calculated on the basis of geodetic surveys using electronic total stations and unmanned aerial vehicles.
Published: 2024
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17. Erratum: Full genome of phialocephala scopiformis daomc 229536, a fungal endophyte of spruce producing the potent anti-insectan compound rugulosin [Genome Announcements 4, 1, (2016) (e01768-15)] DOI: 10.1128/genomeA.01768-15

Author: Walker, AK, Frasz, SL, Seifert, KA, Miller, JD, Mondo, SJ, LaButti, K, Lipzen, A, Dockter, RB, Kennedy, MC, Grigoriev, IV, and Spatafora, JW
Abstract: © 2016 Walker et al. Volume 4, no. 1, e01768-15, 2016. Page 2: The final sentence in the Funding Information should read as follows. "This work was funded by U.S. Department of Energy (DOE) under grant DE-AC02-05CH11231".
Published: 2016

18. Draft genome sequence of the white-rot fungus Obba rivulosa 3A-2

Author: Miettinen, O, Riley, R, Barry, K, Cullen, D, de Vries, RP, Hainaut, M, Hatakka, A, Henrissat, B, Hildén, K, Kuo, R, LaButti, K, Lipzen, A, Mäkelä, MR, Sandor, L, Spatafora, JW, Grigoriev, IV, and Hibbett, DS
Subjects: technology, industry, and agriculture, complex mixtures
Abstract: © 2016 Miettinen et al. We report here the first genome sequence of the white-rot fungus Obba rivulosa (Polyporales, Basidiomycota), a polypore known for its lignin-decomposing ability. The genome is based on the homokaryon 3A-2 originating in Finland. The genome is typical in size and carbohydrate active enzyme (CAZy) content for wood-decomposing basidiomycetes.
Published: 2016

19. Correction: The Genomes of the Fungal Plant Pathogens Cladosporium fulvum and Dothistroma septosporum Reveal Adaptation to Different Hosts and Lifestyles But Also Signatures of Common Ancestry [PLoS Genet, 11(12), (2015)]

Author: de Wit, PJGM, van der Burgt, A, Ökmen, B, Stergiopoulos, I, Abd-Elsalam, KA, Aerts, AL, Bahkali, AH, Beenen, HG, Chettri, P, Cox, MP, Datema, E, de Vries, RP, Dhillon, B, Ganley, AR, Griffiths, SA, Guo, Y, Hamelin, RC, Henrissat, B, Shahjahan Kabir, M, Karimi Jashni, M, Kema, G, Klaubauf, S, Lapidus, A, Levasseur, A, Lindquist, E, Mehrabi, R, Ohm, RA, Owen, TJ, Salamov, A, Schwelm, A, Schijlen, E, Sun, H, van den Burg, HA, van Ham, RCHJ, Zhang, S, Goodwin, SB, Grigoriev, IV, Collemare, J, and Bradshaw, RE
Published: 2015

20. Fungi Contribute Critical but Spatially Varying Roles in Nitrogen and Carbon Cycling in Acid Mine Drainage

Author: Mosier, AC, Miller, CS, Frischkorn, KR, Ohm, RA, Li, Z, LaButti, K, Lapidus, A, Lipzen, A, Chen, C, Johnson, J, Lindquist, EA, Pan, C, Hettich, RL, Grigoriev, IV, Singer, SW, Banfield, JF, Mosier, AC, Miller, CS, Frischkorn, KR, Ohm, RA, Li, Z, LaButti, K, Lapidus, A, Lipzen, A, Chen, C, Johnson, J, Lindquist, EA, Pan, C, Hettich, RL, Grigoriev, IV, Singer, SW, and Banfield, JF
Abstract: The ecosystem roles of fungi have been extensively studied by targeting one organism and/or biological process at a time, but the full metabolic potential of fungi has rarely been captured in an environmental context. We hypothesized that fungal genome sequences could be assembled directly from the environment using metagenomics and that transcriptomics and proteomics could simultaneously reveal metabolic differentiation across habitats. We reconstructed the near-complete 27 Mbp genome of a filamentous fungus, Acidomyces richmondensis, and evaluated transcript and protein expression in floating and streamer biofilms from an acid mine drainage (AMD) system. A. richmondensis transcripts involved in denitrification and in the degradation of complex carbon sources (including cellulose) were up-regulated in floating biofilms, whereas central carbon metabolism and stress-related transcripts were significantly up-regulated in streamer biofilms. These findings suggest that the biofilm niches are distinguished by distinct carbon and nitrogen resource utilization, oxygen availability, and environmental challenges. An isolated A. richmondensis strain from this environment was used to validate the metagenomics-derived genome and confirm nitrous oxide production at pH 1. Overall, our analyses defined mechanisms of fungal adaptation and identified a functional shift related to different roles in carbon and nitrogen turnover for the same species of fungi growing in closely located but distinct biofilm niches.
Published: 2016

21. Ectomycorrhizal ecology is imprinted in the genome of the dominant symbiotic fungus Cenococcum geophilum

Author: Peter, M, Kohler, A, Ohm, RA, Kuo, A, Kruetzmann, J, Morin, E, Arend, M, Barry, KW, Binder, M, Choi, C, Clum, A, Copeland, A, Grisel, N, Haridas, S, Kipfer, T, LaButti, K, Lindquist, E, Lipzen, A, Maire, R, Meier, B, Mihaltcheva, S, Molinier, V, Murat, C, Poeggeler, S, Quandt, CA, Sperisen, C, Tritt, A, Tisserant, E, Crous, PW, Henrissat, B, Nehls, U, Egli, S, Spatafora, JW, Grigoriev, IV, Martin, FM, Peter, M, Kohler, A, Ohm, RA, Kuo, A, Kruetzmann, J, Morin, E, Arend, M, Barry, KW, Binder, M, Choi, C, Clum, A, Copeland, A, Grisel, N, Haridas, S, Kipfer, T, LaButti, K, Lindquist, E, Lipzen, A, Maire, R, Meier, B, Mihaltcheva, S, Molinier, V, Murat, C, Poeggeler, S, Quandt, CA, Sperisen, C, Tritt, A, Tisserant, E, Crous, PW, Henrissat, B, Nehls, U, Egli, S, Spatafora, JW, Grigoriev, IV, and Martin, FM
Abstract: The most frequently encountered symbiont on tree roots is the ascomycete Cenococcum geophilum, the only mycorrhizal species within the largest fungal class Dothideomycetes, a class known for devastating plant pathogens. Here we show that the symbiotic genomic idiosyncrasies of ectomycorrhizal basidiomycetes are also present in C. geophilum with symbiosis-induced, taxon-specific genes of unknown function and reduced numbers of plant cell wall-degrading enzymes. C. geophilum still holds a significant set of genes in categories known to be involved in pathogenesis and shows an increased genome size due to transposable elements proliferation. Transcript profiling revealed a striking upregulation of membrane transporters, including aquaporin water channels and sugar transporters, and mycorrhiza-induced small secreted proteins (MiSSPs) in ectomycorrhiza compared with free-living mycelium. The frequency with which this symbiont is found on tree roots and its possible role in water and nutrient transport in symbiosis calls for further studies on mechanisms of host and environmental adaptation.
Published: 2016

22. The central role of selenium in the biochemistry and ecology of the harmful pelagophyte, Aureococcus anophagefferens

Author: Gobler, CJ, Lobanov, AV, Tang, YZ, Turanov, AA, Zhang, Y, Doblin, M, Taylor, GT, Sañudo-Wilhelmy, SA, Grigoriev, IV, and Gladyshev, VN
Subjects: Selenium, Proteome, Ecology, fungi, Genes, Protozoan, DNA Transposable Elements, Seawater, Selenoproteins, Microbiology, Biochemistry, Chlamydomonas reinhardtii, Stramenopiles, Trace Elements
Abstract: The trace element selenium (Se) is required for the biosynthesis of selenocysteine (Sec), the 21st amino acid in the genetic code, but its role in the ecology of harmful algal blooms (HABs) is unknown. Here, we examined the role of Se in the biology and ecology of the harmful pelagophyte, Aureococcus anophagefferens, through cell culture, genomic analyses, and ecosystem studies. This organism has the largest and the most diverse selenoproteome identified to date that consists of at least 59 selenoproteins, including known eukaryotic selenoproteins, selenoproteins previously only detected in bacteria, and novel selenoproteins. The A. anophagefferens selenoproteome was dominated by the thioredoxin fold proteins and oxidoreductase functions were assigned to the majority of detected selenoproteins. Insertion of Sec in these proteins was supported by a unique Sec insertion sequence. Se was required for the growth of A. anophagefferens as cultures grew maximally at nanomolar Se concentrations. In a coastal ecosystem, dissolved Se concentrations were elevated before and after A. anophagefferens blooms, but were reduced by >95% during the peak of blooms to 0.05 nM. Consistent with this pattern, enrichment of seawater with selenite before and after a bloom did not affect the growth of A. anophagefferens, but enrichment during the peak of the bloom significantly increased population growth rates. These findings demonstrate that Se inventories, which can be anthropogenically enriched, can support proliferation of HABs, such as A. anophagefferens through its synthesis of a large arsenal of Se-dependent oxidoreductases that fine-tune cellular redox homeostasis. © 2013 International Society for Microbial Ecology All rights reserved.
Published: 2013

23. The Phaeodactylum genome reveals the evolutionary history of diatom genomes

Author: Bowler, C, Allen, A, Badger, J, Grimwood, J, Jabbari, K, Kuo, A, Maheswari, U, Martens, C, Maumus, F, Otillar, R, Rayko, E, Salamov, A, Vandepoele, K, Beszteri, B, Gruber, A, Heijde, M, Katinka, M, Mock, T, Valentin, K, Verret, F, Berges, J, Brownlee, C, Cadoret, Jean-paul, Chiovitti, A, Choi, C, Coesel, S, De Martino, A, Detter, J, Durkin, C, Falciatore, A, Fournet, J, Haruta, M, Huysman, M, Jenkins, B, Jiroutova, K, Jorgensen, R, Joubert, Y, Kaplan, A, Kroger, N, Kroth, P, La Roche, J, Lindquist, E, Lommer, M, Martin Jezequel, V, Lopez, P, Lucas, S, Mangogna, M, Mcginnis, K, Medlin, L, Montsant, A, Oudot Le Secq, M, Napoli, C, Obornik, M, Parker, M, Petit, J, Porcel, B, Poulsen, N, Robison, M, Rychlewski, L, Rynearson, T, Schmutz, J, Shapiro, H, Siaut, M, Stanley, M, Sussman, M, Taylor, A, Vardi, A, Von Dassow, P, Vyverman, W, Willis, A, Wyrwicz, L, Rokhsar, D, Weissenbach, J, Armbrust, E, Green, B, Van De Peer, Y, Grigoriev Iv, Bowler, C, Allen, A, Badger, J, Grimwood, J, Jabbari, K, Kuo, A, Maheswari, U, Martens, C, Maumus, F, Otillar, R, Rayko, E, Salamov, A, Vandepoele, K, Beszteri, B, Gruber, A, Heijde, M, Katinka, M, Mock, T, Valentin, K, Verret, F, Berges, J, Brownlee, C, Cadoret, Jean-paul, Chiovitti, A, Choi, C, Coesel, S, De Martino, A, Detter, J, Durkin, C, Falciatore, A, Fournet, J, Haruta, M, Huysman, M, Jenkins, B, Jiroutova, K, Jorgensen, R, Joubert, Y, Kaplan, A, Kroger, N, Kroth, P, La Roche, J, Lindquist, E, Lommer, M, Martin Jezequel, V, Lopez, P, Lucas, S, Mangogna, M, Mcginnis, K, Medlin, L, Montsant, A, Oudot Le Secq, M, Napoli, C, Obornik, M, Parker, M, Petit, J, Porcel, B, Poulsen, N, Robison, M, Rychlewski, L, Rynearson, T, Schmutz, J, Shapiro, H, Siaut, M, Stanley, M, Sussman, M, Taylor, A, Vardi, A, Von Dassow, P, Vyverman, W, Willis, A, Wyrwicz, L, Rokhsar, D, Weissenbach, J, Armbrust, E, Green, B, Van De Peer, Y, and Grigoriev Iv
Abstract: Diatoms are photosynthetic secondary endosymbionts found throughout marine and freshwater environments, and are believed to be responsible for around one- fifth of the primary productivity on Earth(1,2). The genome sequence of the marine centric diatom Thalassiosira pseudonana was recently reported, revealing a wealth of information about diatom biology(3-5). Here we report the complete genome sequence of the pennate diatom Phaeodactylum tricornutum and compare it with that of T. pseudonana to clarify evolutionary origins, functional significance and ubiquity of these features throughout diatoms. In spite of the fact that the pennate and centric lineages have only been diverging for 90 million years, their genome structures are dramatically different and a substantial fraction of genes (similar to 40%) are not shared by these representatives of the two lineages. Analysis of molecular divergence compared with yeasts and metazoans reveals rapid rates of gene diversification in diatoms. Contributing factors include selective gene family expansions, differential losses and gains of genes and introns, and differential mobilization of transposable elements. Most significantly, we document the presence of hundreds of genes from bacteria. More than 300 of these gene transfers are found in both diatoms, attesting to their ancient origins, and many are likely to provide novel possibilities for metabolite management and for perception of environmental signals. These findings go a long way towards explaining the incredible diversity and success of the diatoms in contemporary oceans.
Published: 2008
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24. Transcriptomics reveal a mechanism of niche defense: two beneficial root endophytes deploy an antimicrobial GH18-CBM5 chitinase to protect their hosts.

Author: Eichfeld R, Mahdi LK, De Quattro C, Armbruster L, Endeshaw AB, Miyauchi S, Hellmann MJ, Cord-Landwehr S, Peterson D, Singan V, Lail K, Savage E, Ng V, Grigoriev IV, Langen G, Moerschbacher BM, and Zuccaro A
Subjects: Anti-Infective Agents pharmacology, Anti-Infective Agents metabolism, Symbiosis genetics, Ascomycota physiology, Ascomycota drug effects, Gene Expression Regulation, Plant drug effects, Gene Expression Regulation, Fungal drug effects, Chitinases metabolism, Chitinases genetics, Plant Roots microbiology, Endophytes, Transcriptome genetics
Abstract: Effector secretion is crucial for root endophytes to establish and protect their ecological niche. We used time-resolved transcriptomics to monitor effector gene expression dynamics in two closely related Sebacinales, Serendipita indica and Serendipita vermifera, during symbiosis with three plant species, competition with the phytopathogenic fungus Bipolaris sorokiniana, and cooperation with root-associated bacteria. We observed increased effector gene expression in response to biotic interactions, particularly with plants, indicating their importance in host colonization. Some effectors responded to both plants and microbes, suggesting dual roles in intermicrobial competition and plant-microbe interactions. A subset of putative antimicrobial effectors, including a GH18-CBM5 chitinase, was induced exclusively by microbes. Functional analyses of this chitinase revealed its antimicrobial and plant-protective properties. We conclude that dynamic effector gene expression underpins the ability of Sebacinales to thrive in diverse ecological niches with a single fungal chitinase contributing substantially to niche defense., (© 2024 The Author(s). New Phytologist © 2024 New Phytologist Foundation.)
Published: 2024
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25. Neurospora intermedia from a traditional fermented food enables waste-to-food conversion.

Author: Maini Rekdal V, Villalobos-Escobedo JM, Rodriguez-Valeron N, Olaizola Garcia M, Prado Vásquez D, Rosales A, Sörensen PM, Baidoo EEK, Calheiros de Carvalho A, Riley R, Lipzen A, He G, Yan M, Haridas S, Daum C, Yoshinaga Y, Ng V, Grigoriev IV, Munk R, Wijaya CH, Nuraida L, Damayanti I, Cruz-Morales P, and Keasling JD
Subjects: Indonesia, Food Microbiology, Metagenomics, Humans, Metabolomics methods, Fermentation, Fermented Foods microbiology, Neurospora genetics, Neurospora metabolism, Neurospora classification, Phylogeny
Abstract: Fungal fermentation of food and agricultural by-products holds promise for improving food sustainability and security. However, the molecular basis of fungal waste-to-food upcycling remains poorly understood. Here we use a multi-omics approach to characterize oncom, a fermented food traditionally produced from soymilk by-products in Java, Indonesia. Metagenomic sequencing of samples from small-scale producers in Western Java indicated that the fungus Neurospora intermedia dominates oncom. Further transcriptomic, metabolomic and phylogenomic analysis revealed that oncom-derived N. intermedia utilizes pectin and cellulose degradation during fermentation and belongs to a genetically distinct subpopulation associated with human-generated by-products. Finally, we found that N. intermedia grew on diverse by-products such as fruit and vegetable pomace and plant-based milk waste, did not encode mycotoxins, and could create foods that were positively perceived by consumers outside Indonesia. These results showcase the traditional significance and future potential of fungal fermentation for creating delicious and nutritious foods from readily available by-products., (© 2024. The Author(s).)
Published: 2024
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26. Comparative genomic analysis of thermophilic fungi reveals convergent evolutionary adaptations and gene losses.

Author: Steindorff AS, Aguilar-Pontes MV, Robinson AJ, Andreopoulos B, LaButti K, Kuo A, Mondo S, Riley R, Otillar R, Haridas S, Lipzen A, Grimwood J, Schmutz J, Clum A, Reid ID, Moisan MC, Butler G, Nguyen TTM, Dewar K, Conant G, Drula E, Henrissat B, Hansel C, Singer S, Hutchinson MI, de Vries RP, Natvig DO, Powell AJ, Tsang A, and Grigoriev IV
Subjects: Genomics methods, Phylogeny, Fungi genetics, Fungi classification, Adaptation, Physiological genetics, Fungal Proteins genetics, Fungal Proteins metabolism, Genome, Fungal, Evolution, Molecular
Abstract: Thermophily is a trait scattered across the fungal tree of life, with its highest prevalence within three fungal families (Chaetomiaceae, Thermoascaceae, and Trichocomaceae), as well as some members of the phylum Mucoromycota. We examined 37 thermophilic and thermotolerant species and 42 mesophilic species for this study and identified thermophily as the ancestral state of all three prominent families of thermophilic fungi. Thermophilic fungal genomes were found to encode various thermostable enzymes, including carbohydrate-active enzymes such as endoxylanases, which are useful for many industrial applications. At the same time, the overall gene counts, especially in gene families responsible for microbial defense such as secondary metabolism, are reduced in thermophiles compared to mesophiles. We also found a reduction in the core genome size of thermophiles in both the Chaetomiaceae family and the Eurotiomycetes class. The Gene Ontology terms lost in thermophilic fungi include primary metabolism, transporters, UV response, and O-methyltransferases. Comparative genomics analysis also revealed higher GC content in the third base of codons (GC3) and a lower effective number of codons in fungal thermophiles than in both thermotolerant and mesophilic fungi. Furthermore, using the Support Vector Machine classifier, we identified several Pfam domains capable of discriminating between genomes of thermophiles and mesophiles with 94% accuracy. Using AlphaFold2 to predict protein structures of endoxylanases (GH10), we built a similarity network based on the structures. We found that the number of disulfide bonds appears important for protein structure, and the network clusters based on protein structures correlate with the optimal activity temperature. Thus, comparative genomics offers new insights into the biology, adaptation, and evolutionary history of thermophilic fungi while providing a parts list for bioengineering applications., (© 2024. Lawrence Berkeley National Laboratory and the Authors.)
Published: 2024
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27. Comparative genomics of the extremophile Cryomyces antarcticus and other psychrophilic Dothideomycetes.

Author: Gomez-Gutierrrez SV, Sic-Hernandez WR, Haridas S, LaButti K, Eichenberger J, Kaur N, Lipzen A, Barry K, Goodwin SB, Gribskov M, and Grigoriev IV
Abstract: Over a billion years of fungal evolution has enabled representatives of this kingdom to populate almost all parts of planet Earth and to adapt to some of its most uninhabitable environments including extremes of temperature, salinity, pH, water, light, or other sources of radiation. Cryomyces antarcticus is an endolithic fungus that inhabits rock outcrops in Antarctica. It survives extremes of cold, humidity and solar radiation in one of the least habitable environments on Earth. This fungus is unusual because it produces heavily melanized, meristematic growth and is thought to be haploid and asexual. Due to its growth in the most extreme environment, it has been suggested as an organism that could survive on Mars. However, the mechanisms it uses to achieve its extremophilic nature are not known. Comparative genomics can provide clues to the processes underlying biological diversity, evolution, and adaptation. This effort has been greatly facilitated by the 1000 Fungal Genomes project and the JGI MycoCosm portal where sequenced genomes have been assembled into phylogenetic and ecological groups representing different projects, lifestyles, ecologies, and evolutionary histories. Comparative genomics within and between these groups provides insights into fungal adaptations, for example to extreme environmental conditions. Here, we analyze two Cryomyces genomes in the context of additional psychrophilic fungi, as well as non-psychrophilic fungi with diverse lifestyles selected from the MycoCosm database. This analysis identifies families of genes that are expanded and contracted in Cryomyces and other psychrophiles and may explain their extremophilic lifestyle. Higher GC contents of genes and of bases in the third positions of codons may help to stabilize DNA under extreme conditions. Numerous smaller contigs in C. antarcticus suggest the presence of an alternative haplotype that could indicate the sequenced isolate is diploid or dikaryotic. These analyses provide a first step to unraveling the secrets of the extreme lifestyle of C. antarcticus ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Gomez-Gutierrrez, Sic-Hernandez, Haridas, LaButti, Eichenberger, Kaur, Lipzen, Barry, Goodwin, Gribskov and Grigoriev.)
Published: 2024
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28. Pharmacokinetic and Preclinical Safety Studies of Endolysin-Based Therapeutic for Intravenous Administration.

Author: Antonova NP, Vasina DV, Grigoriev IV, Laishevtsev AI, Kapustin AV, Savinov VA, Vorobev AM, Aleshkin AV, Zackharova AA, Remizov TA, Makarov VV, Yudin SM, and Gushchin VA
Abstract: Pharmacokinetics and safety studies of innovative drugs is an essential part of drug development process. Previously we have developed a novel drug for intravenous administration (lyophilizate) containing modified endolysin LysECD7-SMAP that showed notable antibacterial effect in different animal models of systemic infections. Here we present data on pharmacokinetics of endolysin in mice after single and multiple injections. Time-concentration curves were obtained, and pharmacokinetic parameters for preparation (C 0 , k el t 1/2 , AUC 0-∞ , MRT, Cl T , V ss ) were calculated. It was shown that although endolysin is rather short-lived in blood serum (t 1/2 = 12.5 min), the therapeutic concentrations of LysECD7-SMAP (in degraded and non-degraded form) were detected for 60 minutes after injection that is sufficient for antibacterial effect. Based on the obtained data, it was proposed that endolysin distributes presumably in murine blood, degrades in blood and liver, and is eliminated via glomerular filtration. Safety profile of the preparation relating to general toxicity, immunotoxicity and allergenicity was assessed in rodents. It was demonstrated that LysECD7-SMAP in potential therapeutic (12.5 mg/kg), 10-fold (125 mg/kg) and 40-fold (500 mg/kg) doses showed no signs of intoxication and significant abnormalities after single and repeated i.v. administrations, preparation was non-immunogenic and induced minor and reversible allergic reaction in animals., Competing Interests: Declaration Funding: This work was supported by the Centre for Strategic Planning of FMBA of Russia (State Contract n. 0373100122120000008). Competing interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: VDV, NPA, VVM, SMY and VAG are listed as the inventors in patent (RU2792679C1) on LysECD7-SMAP dosage form for parenteral use. VVM and SMY are the current employees of Centre for Strategic Planning and Management of Biomedical Health Risks of the Federal Medical Biological Agency. All other authors declare no competing interests. Authorship contributions: Nataliia P. Antonova: Methodology, Investigation, Formal analysis, Visualization, Writing–original draft. Daria V. Vasina: Conceptualization, Methodology, Data curation, Visualization, Writing–review & editing. Igor V. Grigoriev: Methodology, Investigation, Formal analysis. Aleksei I. Laishevtsev: Methodology, Investigation. Andrey V. Kapustin: Investigation. Vasiliy A. Savinov: Investigation. Andrey V. Aleshkin: Formal analysis, Data curation. Aleksei M. Vorobev: Investigation. Anastasia A. Zackharova: Project administration, Resources. Timofey A. Remizov: Project administration, Resources. Valentine V. Makarov: Funding acquisition. Sergey M. Yudin: Funding acquisition. Vladimir A. Gushchin: Conceptualization, Supervision, Writing–review & editing., (Copyright © 2024 Elsevier Ltd and International Society of Antimicrobial Chemotherapy. All rights reserved.)
Published: 2024
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29. Phyllosticta paracitricarpa is synonymous with the EU quarantine fungus P. citricarpa based on phylogenomic analyses.

Author: van Ingen-Buijs VA, van Westerhoven AC, Skiadas P, Zuijdgeest XCL, Haridas S, Daum C, Duffy K, Guo J, Hundley H, LaButti K, Lipzen A, Pangilinan J, Riley R, Wang J, Yan M, Martin F, Barry K, Grigoriev IV, Groenewald JZ, Crous PW, and Seidl MF
Abstract: Phyllosticta citricarpa is an important citrus-pathogen and a quarantine organism in the European Union. Its recently described relative, P. paracitricarpa, is very closely related and not listed as a quarantine organism. P. paracitricarpa is very difficult to distinguish from P. citricarpa, since its morphological features overlap and the barcoding gene sequences that were originally used to delimit them as distinct species have a low number of species-specific polymorphisms that have subsequently been shown to overlap between the two clades. Therefore, we performed extensive genomic analyses to determine whether the genetic variation between P. citricarpa and P. paracitricarpa strains should be considered to represent infraspecific variation within P. citricarpa, or whether it is indicative of distinct species. Using a phylogenomic analysis with 3,000 single copy ortholog genes and whole-genome comparisons, we determined that the variation between P. citricarpa and P. paracitricarpa can be considered as infraspecies variation within P. citricarpa. We also determined the level of variation in mitochondrial assemblies of several Phyllosticta species and concluded there are only minimal differences between the assemblies of P. citricarpa and P. paracitricarpa. Thus, using several orthogonal approaches, we here demonstrate that variation within the nuclear and mitochondrial genomes of other Phyllosticta species is larger than variation between genomes obtained from P. citricarpa and P. paracitricarpa strains. Thus, P. citricarpa and P. paracitricarpa should be considered as conspecific., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)
Published: 2024
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30. Stress responses in an Arctic microalga (Pelagophyceae) following sudden salinity change revealed by gene expression analysis.

Author: Freyria NJ, de Oliveira TC, Chovatia M, Johnson J, Kuo A, Lipzen A, Barry KW, Grigoriev IV, and Lovejoy C
Subjects: Arctic Regions, Gene Expression Profiling, Stress, Physiological genetics, Transcriptome, Salt Tolerance genetics, Climate Change, Microalgae genetics, Microalgae metabolism, Salinity
Abstract: Marine microbes that have for eons been adapted to stable salinity regimes are confronted with sudden decreases in salinity in the Arctic Ocean. The episodic freshening is increasing due to climate change with melting multi-year sea-ice and glaciers, greater inflows from rivers, and increased precipitation. To investigate algal responses to lowered salinity, we analyzed the responses and acclimatation over 24 h in a non-model Arctic marine alga (pelagophyte CCMP2097) following transfer to realistic lower salinities. Using RNA-seq transcriptomics, here we show rapid differentially expressed genes related to stress oxidative responses, proteins involved in the photosystem and circadian clock, and those affecting lipids and inorganic ions. After 24 h the pelagophyte adjusted to the lower salinity seen in the overexpression of genes associated with freezing resistance, cold adaptation, and salt tolerance. Overall, a suite of ancient widespread pathways is recruited enabling the species to adjust to the stress of rapid salinity change., (© 2024. The Author(s).)
Published: 2024
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31. Coassembly and binning of a twenty-year metagenomic time-series from Lake Mendota.

Author: Oliver T, Varghese N, Roux S, Schulz F, Huntemann M, Clum A, Foster B, Foster B, Riley R, LaButti K, Egan R, Hajek P, Mukherjee S, Ovchinnikova G, Reddy TBK, Calhoun S, Hayes RD, Rohwer RR, Zhou Z, Daum C, Copeland A, Chen IA, Ivanova NN, Kyrpides NC, Mouncey NJ, Del Rio TG, Grigoriev IV, Hofmeyr S, Oliker L, Yelick K, Anantharaman K, McMahon KD, Woyke T, and Eloe-Fadrosh EA
Subjects: Bacteria genetics, Bacteria classification, Metagenomics, Phylogeny, Lakes microbiology, Metagenome
Abstract: The North Temperate Lakes Long-Term Ecological Research (NTL-LTER) program has been extensively used to improve understanding of how aquatic ecosystems respond to environmental stressors, climate fluctuations, and human activities. Here, we report on the metagenomes of samples collected between 2000 and 2019 from Lake Mendota, a freshwater eutrophic lake within the NTL-LTER site. We utilized the distributed metagenome assembler MetaHipMer to coassemble over 10 terabases (Tbp) of data from 471 individual Illumina-sequenced metagenomes. A total of 95,523,664 contigs were assembled and binned to generate 1,894 non-redundant metagenome-assembled genomes (MAGs) with ≥50% completeness and ≤10% contamination. Phylogenomic analysis revealed that the MAGs were nearly exclusively bacterial, dominated by Pseudomonadota (Proteobacteria, N = 623) and Bacteroidota (N = 321). Nine eukaryotic MAGs were identified by eukCC with six assigned to the phylum Chlorophyta. Additionally, 6,350 high-quality viral sequences were identified by geNomad with the majority classified in the phylum Uroviricota. This expansive coassembled metagenomic dataset provides an unprecedented foundation to advance understanding of microbial communities in freshwater ecosystems and explore temporal ecosystem dynamics., (© 2024. The Author(s).)
Published: 2024
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32. Virulence of banana wilt-causing fungal pathogen Fusarium oxysporum tropical race 4 is mediated by nitric oxide biosynthesis and accessory genes.

Author: Zhang Y, Liu S, Mostert D, Yu H, Zhuo M, Li G, Zuo C, Haridas S, Webster K, Li M, Grigoriev IV, Yi G, Viljoen A, Li C, and Ma LJ
Subjects: Virulence genetics, Virulence Factors genetics, Virulence Factors metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Gene Expression Regulation, Fungal, Genes, Fungal, Phylogeny, Fusarium genetics, Fusarium pathogenicity, Fusarium metabolism, Musa microbiology, Plant Diseases microbiology, Nitric Oxide metabolism
Abstract: Fusarium wilt of banana, caused by Fusarium oxysporum f. sp. cubense (Foc), is one of the most damaging plant diseases known. Foc race 1 (R1) decimated the Gros Michel-based banana (Musa acuminata) trade, and now Foc tropical race 4 (TR4) threatens global production of its replacement, the Cavendish banana. Here population genomics revealed that all Cavendish banana-infecting Foc race 4 strains share an evolutionary origin distinct from that of R1 strains. Although TR4 lacks accessory chromosomes, it contains accessory genes at the ends of some core chromosomes that are enriched for virulence and mitochondria-related functions. Meta-transcriptomics revealed the unique induction of the entire mitochondrion-localized nitric oxide (NO) biosynthesis pathway upon TR4 infection. Empirically, we confirmed the unique induction of a NO burst in TR4, suggesting that nitrosative pressure may contribute to virulence. Targeted mutagenesis demonstrated the functional importance of fungal NO production and the accessory gene SIX4 as virulence factors., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)
Published: 2024
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33. Draft genome sequence of the Tremellomycetes yeast Papiliotrema laurentii 5307AH, isolated from aircraft.

Author: Roman VA, Haridas S, Hung CS, Pangilinan J, Lipzen A, Na H, Yan M, Ng V, Grigoriev IV, Biffinger J, Barlow D, Kelley-Loughnane N, Crookes-Goodson WJ, Varaljay VA, and Stamps BW
Abstract: Papiliotrema laurentii 5307AH was isolated from an aircraft polymer-coated surface. The genome size is 19,510,785 bp with a G + C content of 56%. The genome harbors genes encoding oxygenases, cutinases, lipases, and enzymes for styrene degradation, all of which could play a critical role in survival on xenobiotic surfaces., Competing Interests: The authors declare no conflict of interest.
Published: 2024
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34. Pharmacokinetics and Preclinical Safety Studies of Modified Endolysin-based Gel for Topical Application.

Author: Antonova NP, Vasina DV, Grigoriev IV, Usachev EV, Aleshkin AV, Vorobev AM, Laishevtsev AI, Kapustin AV, Savinov VA, Anurova MN, Zackharova AA, Remizov TA, Makarov VV, Yudin SM, and Gushchin VA
Subjects: Animals, Female, Male, Mice, Administration, Topical, Skin metabolism, Skin drug effects, Anti-Bacterial Agents administration & dosage, Anti-Bacterial Agents pharmacokinetics, Anti-Bacterial Agents pharmacology, Endopeptidases administration & dosage, Endopeptidases pharmacokinetics, Endopeptidases pharmacology, Gels
Abstract: Antibacterial therapy with phage-encoded endolysins or their modified derivatives with improved antibacterial, biochemical and pharmacokinetic properties is one of the most promising strategies that can supply existing antibacterial drugs array. Gram-negative bacteria-induced infections treatment is especially challenging because of rapidly spreading bacterial resistance. We have developed modified endolysin LysECD7-SMAP with a significant antibacterial activity and broad spectra of action against gram-negative bacteria. Endolysin was formulated in a bactericidal gel for topical application with pronounced effectivity in local animal infectious models. Here we present preclinical safety studies and pharmacokinetics of LysECD7-SMAP-based gel. We have detected LysECD7-SMAP in the skin and underlying muscle at therapeutic concentrations when the gel is applied topically to intact or injured skin. Moreover, the protein does not enter the bloodstream, and has no systemic bioavailability, assuming no systemic adverse effects. In studies of general toxicology, local tolerance, and immunotoxicology it was approved that LysECD7-SMAP gel local application results in the absence of toxic effects after single and multiple administration. Thus, LysECD7-SMAP-containing gel has appropriate pharmacokinetics and can be considered as safe that supports the initiation of the phase I clinical trials of novel antibacterial drug intending to treat acute wound infections caused by resistant gram-negative bacteria., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Nataliia P. Antonova, Daria V. Vasina, Igor V. Grigoriev, Evgeny V. Usachev, Anastasia A. Zackharova, Timofey A. Remizov, Vladimir A. Gushchin reports financial support was provided by center for Strategic Planning and Management of Biomedical Health Risks of the Federal Medical Biological Agency. Valentine V. Makarov, Sergey M. Yudin reports a relationship with center for Strategic Planning and Management of Biomedical Health Risks of the Federal Medical Biological Agency that includes: employment. Nataliia P. Antonova, Daria V. Vasina, Evgeny V. Usachev, Andrey V. Aleshkin, Aleksei M. Vorobev, Maria N. Anurova, Valentine V. Makarov, Sergey M. Yudin, Vladimir A. Gushchin has patent #RU2781050C1 "Bactericidal pharmaceutical composition for topical application in the form of an endolysin-containing bactericidal gel" licensed to center for Strategic Planning of FMBA of Russia. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)
Published: 2024
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35. High phenotypic and genotypic plasticity among strains of the mushroom-forming fungus Schizophyllum commune.

Author: Marian IM, Valdes ID, Hayes RD, LaButti K, Duffy K, Chovatia M, Johnson J, Ng V, Lugones LG, Wösten HAB, Grigoriev IV, and Ohm RA
Subjects: Phylogeny, Agaricales genetics, Agaricales growth & development, Agaricales classification, Sequence Analysis, DNA, Schizophyllum genetics, Schizophyllum growth & development, Schizophyllum classification, Phenotype, Lignin metabolism, Genome, Fungal genetics, Genetic Variation, Genotype
Abstract: Schizophyllum commune is a mushroom-forming fungus notable for its distinctive fruiting bodies with split gills. It is used as a model organism to study mushroom development, lignocellulose degradation and mating type loci. It is a hypervariable species with considerable genetic and phenotypic diversity between the strains. In this study, we systematically phenotyped 16 dikaryotic strains for aspects of mushroom development and 18 monokaryotic strains for lignocellulose degradation. There was considerable heterogeneity among the strains regarding these phenotypes. The majority of the strains developed mushrooms with varying morphologies, although some strains only grew vegetatively under the tested conditions. Growth on various carbon sources showed strain-specific profiles. The genomes of seven monokaryotic strains were sequenced and analyzed together with six previously published genome sequences. Moreover, the related species Schizophyllum fasciatum was sequenced. Although there was considerable genetic variation between the genome assemblies, the genes related to mushroom formation and lignocellulose degradation were well conserved. These sequenced genomes, in combination with the high phenotypic diversity, will provide a solid basis for functional genomics analyses of the strains of S. commune., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)
Published: 2024
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36. Development of novel antimicrobials with engineered endolysin LysECD7-SMAP to combat Gram-negative bacterial infections.

Author: Vasina DV, Antonova NP, Gushchin VA, Aleshkin AV, Fursov MV, Fursova AD, Gancheva PG, Grigoriev IV, Grinkevich P, Kondratev AV, Kostarnoy AV, Lendel AM, Makarov VV, Nikiforova MA, Pochtovyi AA, Prudnikova T, Remizov TA, Shevlyagina NV, Siniavin AE, Smirnova NS, Terechov AA, Tkachuk AP, Usachev EV, Vorobev AM, Yakimakha VS, Yudin SM, Zackharova AA, Zhukhovitsky VG, Logunov DY, and Gintsburg AL
Subjects: Animals, Mice, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents administration & dosage, Rats, Male, Protein Engineering methods, Gram-Negative Bacterial Infections drug therapy, Endopeptidases pharmacology, Endopeptidases administration & dosage, Mice, Inbred BALB C, Gram-Negative Bacteria drug effects
Abstract: Background: Among the non-traditional antibacterial agents in development, only a few targets critical Gram-negative bacteria such as carbapenem-resistant Pseudomonas aeruginosa, Acinetobacter baumannii or cephalosporin-resistant Enterobacteriaceae. Endolysins and their genetically modified versions meet the World Health Organization criteria for innovation, have a novel mode of antibacterial action, no known bacterial cross-resistance, and are being intensively studied for application against Gram-negative pathogens., Methods: The study presents a multidisciplinary approach, including genetic engineering of LysECD7-SMAP and production of recombinant endolysin, its analysis by crystal structure solution following molecular dynamics simulations and evaluation of antibacterial properties. Two types of antimicrobial dosage forms were formulated, resulting in lyophilized powder for injection and hydroxyethylcellulose gel for topical administration. Their efficacy was estimated in the treatment of sepsis, and pneumonia models in BALB/c mice, diabetes-associated wound infection in the leptin receptor-deficient db/db mice and infected burn wounds in rats., Results: In this work, we investigate the application strategies of the engineered endolysin LysECD7-SMAP and its dosage forms evaluated in preclinical studies. The catalytic domain of the enzyme shares the conserved structure of endopeptidases containing a putative antimicrobial peptide at the C-terminus of polypeptide chain. The activity of endolysins has been demonstrated against a range of pathogens, such as Klebsiella pneumoniae, A. baumannii, P. aeruginosa, Staphylococcus haemolyticus, Achromobacter spp, Burkholderia cepacia complex and Haemophylus influenzae, including those with multidrug resistance. The efficacy of candidate dosage forms has been confirmed in in vivo studies. Some aspects of the interaction of LysECD7-SMAP with cell wall molecular targets are also discussed., Conclusions: Our studies demonstrate the potential of LysECD7-SMAP therapeutics for the systemic or topical treatment of infectious diseases caused by susceptible Gram-negative bacterial species and are critical to proceed LysECD7-SMAP-based antimicrobials trials to advanced stages., (© 2024. The Author(s).)
Published: 2024
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37. Genomic Analysis of Aspergillus Section Terrei Reveals a High Potential in Secondary Metabolite Production and Plant Biomass Degradation.

Author: Theobald S, Vesth TC, Geib E, Nybo JL, Frisvad JC, Larsen TO, Kuo A, LaButti K, Lyhne EK, Kjærbølling I, Ledsgaard L, Barry K, Clum A, Chen C, Nolan M, Sandor L, Lipzen A, Mondo S, Pangilinan J, Salamov A, Riley R, Wiebenga A, Müller A, Kun RS, Dos Santos Gomes AC, Henrissat B, Magnuson JK, Simmons BA, Mäkelä MR, Mortensen UH, Grigoriev IV, Brock M, Baker SE, de Vries RP, and Andersen MR
Abstract: Aspergillus terreus has attracted interest due to its application in industrial biotechnology, particularly for the production of itaconic acid and bioactive secondary metabolites. As related species also seem to possess a prosperous secondary metabolism, they are of high interest for genome mining and exploitation. Here, we present draft genome sequences for six species from Aspergillus section Terrei and one species from Aspergillus section Nidulantes . Whole-genome phylogeny confirmed that section Terrei is monophyletic. Genome analyses identified between 70 and 108 key secondary metabolism genes in each of the genomes of section Terrei , the highest rate found in the genus Aspergillus so far. The respective enzymes fall into 167 distinct families with most of them corresponding to potentially unique compounds or compound families. Moreover, 53% of the families were only found in a single species, which supports the suitability of species from section Terrei for further genome mining. Intriguingly, this analysis, combined with heterologous gene expression and metabolite identification, suggested that species from section Terrei use a strategy for UV protection different to other species from the genus Aspergillus . Section Terrei contains a complete plant polysaccharide degrading potential and an even higher cellulolytic potential than other Aspergilli, possibly facilitating additional applications for these species in biotechnology.
Published: 2024
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38. Symmetric and asymmetric DNA N6-adenine methylation regulates different biological responses in Mucorales.

Author: Lax C, Mondo SJ, Osorio-Concepción M, Muszewska A, Corrochano-Luque M, Gutiérrez G, Riley R, Lipzen A, Guo J, Hundley H, Amirebrahimi M, Ng V, Lorenzo-Gutiérrez D, Binder U, Yang J, Song Y, Cánovas D, Navarro E, Freitag M, Gabaldón T, Grigoriev IV, Corrochano LM, Nicolás FE, and Garre V
Subjects: Epigenesis, Genetic, Fungal Proteins genetics, Fungal Proteins metabolism, Phylogeny, Evolution, Molecular, Methyltransferases metabolism, Methyltransferases genetics, DNA, Fungal genetics, DNA, Fungal metabolism, Mutation, DNA Methylation, Adenine metabolism, Gene Expression Regulation, Fungal, Mucorales genetics, Mucorales metabolism
Abstract: DNA N6-adenine methylation (6mA) has recently gained importance as an epigenetic modification in eukaryotes. Its function in lineages with high levels, such as early-diverging fungi (EDF), is of particular interest. Here, we investigated the biological significance and evolutionary implications of 6mA in EDF, which exhibit divergent evolutionary patterns in 6mA usage. The analysis of two Mucorales species displaying extreme 6mA usage reveals that species with high 6mA levels show symmetric methylation enriched in highly expressed genes. In contrast, species with low 6mA levels show mostly asymmetric 6mA. Interestingly, transcriptomic regulation throughout development and in response to environmental cues is associated with changes in the 6mA landscape. Furthermore, we identify an EDF-specific methyltransferase, likely originated from endosymbiotic bacteria, as responsible for asymmetric methylation, while an MTA-70 methylation complex performs symmetric methylation. The distinct phenotypes observed in the corresponding mutants reinforced the critical role of both types of 6mA in EDF., (© 2024. The Author(s).)
Published: 2024
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39. Extreme overall mushroom genome expansion in Mycena s.s. irrespective of plant hosts or substrate specializations.

Author: Harder CB, Miyauchi S, Virágh M, Kuo A, Thoen E, Andreopoulos B, Lu D, Skrede I, Drula E, Henrissat B, Morin E, Kohler A, Barry K, LaButti K, Salamov A, Lipzen A, Merényi Z, Hegedüs B, Baldrian P, Stursova M, Weitz H, Taylor A, Koriabine M, Savage E, Grigoriev IV, Nagy LG, Martin F, and Kauserud H
Subjects: Phylogeny, DNA Transposable Elements genetics, Evolution, Molecular, Gene Transfer, Horizontal, Plants microbiology, Plants genetics, Genome, Fungal genetics, Agaricales genetics
Abstract: Mycena s.s. is a ubiquitous mushroom genus whose members degrade multiple dead plant substrates and opportunistically invade living plant roots. Having sequenced the nuclear genomes of 24 Mycena species, we find them to defy the expected patterns for fungi based on both their traditionally perceived saprotrophic ecology and substrate specializations. Mycena displayed massive genome expansions overall affecting all gene families, driven by novel gene family emergence, gene duplications, enlarged secretomes encoding polysaccharide degradation enzymes, transposable element (TE) proliferation, and horizontal gene transfers. Mainly due to TE proliferation, Arctic Mycena species display genomes of up to 502 Mbp (2-8× the temperate Mycena), the largest among mushroom-forming Agaricomycetes, indicating a possible evolutionary convergence to genomic expansions sometimes seen in Arctic plants. Overall, Mycena show highly unusual, varied mosaic-like genomic structures adaptable to multiple lifestyles, providing genomic illustration for the growing realization that fungal niche adaptations can be far more fluid than traditionally believed., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)
Published: 2024
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40. Corrigendum to "Genome sequencing of Porostereum spadiceum to study the degradation of levofloxacin" [Ecotoxicol. Environ. Saf. 270 (2024) 115808].

Author: Ben Ayed A, Akrout I, Staita K, Albert Q, Greff S, Simmler C, Ahrendt S, LaButti K, Lipzen A, He G, Savage E, Armengaud J, Kielbasa M, Navarro D, Drula E, Turbé-Doan A, Bertrand E, Lomascolo A, Chaduli D, Faulds CB, Chamkha M, Maalej A, Barry K, Grigoriev IV, Martin F, Zouari-Mechichi H, Sciara G, Mechichi T, and Record E
Published: 2024
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41. Phylogeny, morphology, virulence, ecology, and host range of Ordospora pajunii (Ordosporidae), a microsporidian symbiont of Daphnia spp.

Author: Dziuba MK, McIntire KM, Seto K, Davenport ES, Rogalski MA, Gowler CD, Baird E, Vaandrager M, Huerta C, Jaye R, Corcoran FE, Withrow A, Ahrendt S, Salamov A, Nolan M, Tejomurthula S, Barry K, Grigoriev IV, James TY, and Duffy MA
Subjects: Animals, Virulence, Microsporidia genetics, Microsporidia pathogenicity, Microsporidia physiology, Microsporidia classification, Microsporidia, Unclassified genetics, Microsporidia, Unclassified pathogenicity, Microsporidia, Unclassified classification, Microsporidia, Unclassified physiology, Daphnia microbiology, Symbiosis, Host Specificity, Phylogeny
Abstract: The impacts of microsporidia on host individuals are frequently subtle and can be context dependent. A key example of the latter comes from a recently discovered microsporidian symbiont of Daphnia , the net impact of which was found to shift from negative to positive based on environmental context. Given this, we hypothesized low baseline virulence of the microsporidian; here, we investigated the impact of infection on hosts in controlled conditions and the absence of other stressors. We also investigated its phylogenetic position, ecology, and host range. The genetic data indicate that the symbiont is Ordospora pajunii , a newly described microsporidian parasite of Daphnia . We show that O. pajunii infection damages the gut, causing infected epithelial cells to lose microvilli and then rupture. The prevalence of this microsporidian could be high (up to 100% in the lab and 77% of adults in the field). Its overall virulence was low in most cases, but some genotypes suffered reduced survival and/or reproduction. Susceptibility and virulence were strongly host-genotype dependent. We found that North American O. pajunii were able to infect multiple Daphnia species, including the European species Daphnia longispina , as well as Ceriodaphnia spp. Given the low, often undetectable virulence of this microsporidian and potentially far-reaching consequences of infections for the host when interacting with other pathogens or food, this Daphnia-O. pajunii symbiosis emerges as a valuable system for studying the mechanisms of context-dependent shifts between mutualism and parasitism, as well as for understanding how symbionts might alter host interactions with resources., Importance: The net outcome of symbiosis depends on the costs and benefits to each partner. Those can be context dependent, driving the potential for an interaction to change between parasitism and mutualism. Understanding the baseline fitness impact in an interaction can help us understand those shifts; for an organism that is generally parasitic, it should be easier for it to become a mutualist if its baseline virulence is relatively low. Recently, a microsporidian was found to become beneficial to its Daphnia hosts in certain ecological contexts, but little was known about the symbiont (including its species identity). Here, we identify it as the microsporidium Ordospora pajunii . Despite the parasitic nature of microsporidia, we found O. pajunii to be, at most, mildly virulent; this helps explain why it can shift toward mutualism in certain ecological contexts and helps establish O. pajunii is a valuable model for investigating shifts along the mutualism-parasitism continuum., Competing Interests: The authors declare no conflict of interest.
Published: 2024
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42. Evolutionary history of arbuscular mycorrhizal fungi and genomic signatures of obligate symbiosis.

Author: Rosling A, Eshghi Sahraei S, Kalsoom Khan F, Desirò A, Bryson AE, Mondo SJ, Grigoriev IV, Bonito G, and Sánchez-García M
Subjects: Evolution, Molecular, Genome, Fungal, Glomeromycota genetics, Glomeromycota physiology, Plants microbiology, Mycorrhizae genetics, Mycorrhizae physiology, Symbiosis genetics, Phylogeny, Genomics methods
Abstract: Background: The colonization of land and the diversification of terrestrial plants is intimately linked to the evolutionary history of their symbiotic fungal partners. Extant representatives of these fungal lineages include mutualistic plant symbionts, the arbuscular mycorrhizal (AM) fungi in Glomeromycota and fine root endophytes in Endogonales (Mucoromycota), as well as fungi with saprotrophic, pathogenic and endophytic lifestyles. These fungal groups separate into three monophyletic lineages but their evolutionary relationships remain enigmatic confounding ancestral reconstructions. Their taxonomic ranks are currently fluid., Results: In this study, we recognize these three monophyletic linages as phyla, and use a balanced taxon sampling and broad taxonomic representation for phylogenomic analysis that rejects a hard polytomy and resolves Glomeromycota as sister to a clade composed of Mucoromycota and Mortierellomycota. Low copy numbers of genes associated with plant cell wall degradation could not be assigned to the transition to a plant symbiotic lifestyle but appears to be an ancestral phylogenetic signal. Both plant symbiotic lineages, Glomeromycota and Endogonales, lack numerous thiamine metabolism genes but the lack of fatty acid synthesis genes is specific to AM fungi. Many genes previously thought to be missing specifically in Glomeromycota are either missing in all analyzed phyla, or in some cases, are actually present in some of the analyzed AM fungal lineages, e.g. the high affinity phosphorus transporter Pho89., Conclusion: Based on a broad taxon sampling of fungal genomes we present a well-supported phylogeny for AM fungi and their sister lineages. We show that among these lineages, two independent evolutionary transitions to mutualistic plant symbiosis happened in a genomic background profoundly different from that known from the emergence of ectomycorrhizal fungi in Dikarya. These results call for further reevaluation of genomic signatures associated with plant symbiosis., (© 2024. The Author(s).)
Published: 2024
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43. The differential virulence of Fusarium strains causing corneal infections and plant diseases is associated with accessory chromosome composition.

Author: Ayhan DH, Abbondante S, Martínez-Soto D, Milo S, Rickelton K, Sohrab V, Kotera S, Arie T, Marshall ME, Rocha MC, Haridas S, Grigoriev IV, Shlezinger N, Pearlman E, and Ma LJ
Abstract: Fusarium oxysporum is a cross-kingdom pathogen. While some strains cause disseminated fusariosis and blinding corneal infections in humans, others are responsible for devastating vascular wilt diseases in plants. To better understand the distinct adaptations of F. oxysporum to animal or plant hosts, we conducted a comparative phenotypic and genetic analysis of two strains: MRL8996 (isolated from a keratitis patient) and Fol4287 (isolated from a wilted tomato [ Solanum lycopersicum ]). In vivo infection of mouse corneas and tomato plants revealed that, while both strains cause symptoms in both hosts, MRL8996 caused more severe corneal ulceration and perforation in mice, whereas Fol4287 induced more pronounced wilting symptoms in tomato. In vitro assays using abiotic stress treatments revealed that the human pathogen MRL8996 was better adapted to elevated temperatures, whereas the plant pathogen Fol4287 was more tolerant of osmotic and cell wall stresses. Both strains displayed broad resistance to antifungal treatment, with MRL8996 exhibiting the paradoxical effect of increased tolerance to higher concentrations of the antifungal caspofungin. We identified a set of accessory chromosomes (ACs) and protein-encoding genes with distinct transposon profiles and functions, respectively, between MRL8996 and Fol4287. Interestingly, ACs from both genomes also encode proteins with shared functions, such as chromatin remodeling and post-translational protein modifications. Our phenotypic assays and comparative genomics analyses lay the foundation for future studies correlating genotype with phenotype and for developing targeted antifungals for agricultural and clinical uses.
Published: 2024
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44. Identification and recombinant expression of a cutinase from Papiliotrema laurentii that hydrolyzes natural and synthetic polyesters.

Author: Roman VA, Crable BR, Wagner DN, Gryganskyi A, Zelik S, Cummings L, Hung CS, Nadeau LJ, Schratz L, Haridas S, Pangilinan J, Lipzen A, Na H, Yan M, Ng V, Grigoriev IV, Barlow D, Biffinger J, Kelley-Loughnane N, Crookes-Goodson WJ, Stamps B, and Varaljay VA
Subjects: Hydrolysis, Carboxylic Ester Hydrolases metabolism, Carboxylic Ester Hydrolases genetics, Fungal Proteins genetics, Fungal Proteins metabolism, Fungal Proteins chemistry, Recombinant Proteins metabolism, Recombinant Proteins genetics, Recombinant Proteins chemistry, Recombinant Proteins isolation & purification, Polyesters metabolism
Abstract: Given the multitude of extracellular enzymes at their disposal, many of which are designed to degrade nature's polymers (lignin, cutin, cellulose, etc.), fungi are adept at targeting synthetic polyesters with similar chemical composition. Microbial-influenced deterioration of xenobiotic polymeric surfaces is an area of interest for material scientists as these are important for the conservation of the underlying structural materials. Here, we describe the isolation and characterization of the Papiliotrema laurentii 5307AH ( P. laurentii ) cutinase, Plcut1. P. laurentii is basidiomycete yeast with the ability to disperse Impranil-DLN (Impranil), a colloidal polyester polyurethane, in agar plates. To test whether the fungal factor involved in this clearing was a secreted enzyme, we screened the ability of P. laurentii culture supernatants to disperse Impranil. Using size exclusion chromatography (SEC), we isolated fractions that contained Impranil-clearing activity. These fractions harbored a single ~22 kD band, which was excised and subjected to peptide sequencing. Homology searches using the peptide sequences identified, revealed that the protein Papla1 543643 (Plcut1) displays similarities to serine esterase and cutinase family of proteins. Biochemical assays using recombinant Plcut1 confirmed that this enzyme has the capability to hydrolyze Impranil, soluble esterase substrates, and apple cutin. Finally, we confirmed the presence of the Plcut1 in culture supernatants using a custom antibody that specifically recognizes this protein. The work shown here supports a major role for the Plcut1 in the fungal degradation of natural polyesters and xenobiotic polymer surfaces.IMPORTANCEFungi play a vital role in the execution of a broad range of biological processes that drive ecosystem function through production of a diverse arsenal of enzymes. However, the universal reactivity of these enzymes is a current problem for the built environment and the undesired degradation of polymeric materials in protective coatings. Here, we report the identification and characterization of a hydrolase from Papiliotrema laurentii 5307AH, an aircraft-derived fungal isolate found colonizing a biodeteriorated polymer-coated surface. We show that P. laurentii secretes a cutinase capable of hydrolyzing soluble esters as well as ester-based compounds forming solid surface coatings. These findings indicate that this fungus plays a significant role in biodeterioration through the production of a cutinase adept at degrading ester-based polymers, some of which form the backbone of protective surface coatings. The work shown here provides insights into the mechanisms employed by fungi to degrade xenobiotic polymers., Competing Interests: The authors declare no conflict of interest.
Published: 2024
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45. Diverse fates of ancient horizontal gene transfers in extremophilic red algae.

Author: Van Etten J, Stephens TG, Chille E, Lipzen A, Peterson D, Barry K, Grigoriev IV, and Bhattacharya D
Subjects: Mercury metabolism, Stress, Physiological genetics, Inactivation, Metabolic genetics, Evolution, Molecular, Gene Transfer, Horizontal, Rhodophyta genetics, Extremophiles genetics, Arsenic metabolism
Abstract: Horizontal genetic transfer (HGT) is a common phenomenon in eukaryotic genomes. However, the mechanisms by which HGT-derived genes persist and integrate into other pathways remain unclear. This topic is of significant interest because, over time, the stressors that initially favoured the fixation of HGT may diminish or disappear. Despite this, the foreign genes may continue to exist if they become part of a broader stress response or other pathways. The conventional model suggests that the acquisition of HGT equates to adaptation. However, this model may evolve into more complex interactions between gene products, a concept we refer to as the 'Integrated HGT Model' (IHM). To explore this concept further, we studied specialized HGT-derived genes that encode heavy metal detoxification functions. The recruitment of these genes into other pathways could provide clear examples of IHM. In our study, we exposed two anciently diverged species of polyextremophilic red algae from the Galdieria genus to arsenic and mercury stress in laboratory cultures. We then analysed the transcriptome data using differential and coexpression analysis. Our findings revealed that mercury detoxification follows a 'one gene-one function' model, resulting in an indivisible response. In contrast, the arsH gene in the arsenite response pathway demonstrated a complex pattern of duplication, divergence and potential neofunctionalization, consistent with the IHM. Our research sheds light on the fate and integration of ancient HGTs, providing a novel perspective on the ecology of extremophiles., (© 2024 The Authors. Environmental Microbiology published by John Wiley & Sons Ltd.)
Published: 2024
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46. Ectomycorrhizal fungi enhance pine growth by stimulating iron-dependent mechanisms with trade-offs in symbiotic performance.

Author: Zhang K, Wang H, Tappero R, Bhatnagar JM, Vilgalys R, Barry K, Keymanesh K, Tejomurthula S, Grigoriev IV, Kew WR, Eder EK, Nicora CD, and Liao HL
Subjects: Plant Roots microbiology, Plant Roots metabolism, Plant Roots growth & development, Mycorrhizae physiology, Symbiosis, Pinus microbiology, Pinus growth & development, Iron metabolism
Abstract: Iron (Fe) is crucial for metabolic functions of living organisms. Plants access occluded Fe through interactions with rhizosphere microorganisms and symbionts. Yet, the interplay between Fe addition and plant-mycorrhizal interactions, especially the molecular mechanisms underlying mycorrhiza-assisted Fe processing in plants, remains largely unexplored. We conducted mesocosms in Pinus plants inoculated with different ectomycorrhizal fungi (EMF) Suillus species under conditions with and without Fe coatings. Meta-transcriptomic, biogeochemical, and X-ray fluorescence imaging analyses were applied to investigate early-stage mycorrhizal roots. While Fe addition promoted Pinus growth, it concurrently reduced mycorrhiza formation rate, symbiosis-related metabolites in plant roots, and aboveground plant carbon and macronutrient content. This suggested potential trade-offs between Fe-enhanced plant growth and symbiotic performance. However, the extent of this trade-off may depend on interactions between host plants and EMF species. Interestingly, dual EMF species were more effective at facilitating plant Fe uptake by inducing diverse Fe-related functions than single-EMF species. This subsequently triggered various Fe-dependent physiological and biochemical processes in Pinus roots, significantly contributing to Pinus growth. However, this resulted in a greater carbon allocation to roots, relatively reducing the aboveground plant carbon content. Our study offers critical insights into how EMF communities rebalance benefits of Fe-induced effects on symbiotic partners., (© 2023 Battelle Memorial Institute. Brookhaven Science Associates, LLC and The Authors. New Phytologist © 2023 New Phytologist Foundation This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)
Published: 2024
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47. Metatranscriptomics sheds light on the links between the functional traits of fungal guilds and ecological processes in forest soil ecosystems.

Author: Auer L, Buée M, Fauchery L, Lombard V, Barry KW, Clum A, Copeland A, Daum C, Foster B, LaButti K, Singan V, Yoshinaga Y, Martineau C, Alfaro M, Castillo FJ, Imbert JB, Ramírez L, Castanera R, Pisabarro AG, Finlay R, Lindahl B, Olson A, Séguin A, Kohler A, Henrissat B, Grigoriev IV, and Martin FM
Subjects: Mycorrhizae physiology, Mycorrhizae genetics, Gene Expression Profiling, Gene Expression Regulation, Fungal, Nitrogen metabolism, Soil chemistry, Ecosystem, RNA, Messenger genetics, RNA, Messenger metabolism, Forests, Fungi genetics, Fungi physiology, Soil Microbiology, Transcriptome genetics
Abstract: Soil fungi belonging to different functional guilds, such as saprotrophs, pathogens, and mycorrhizal symbionts, play key roles in forest ecosystems. To date, no study has compared the actual gene expression of these guilds in different forest soils. We used metatranscriptomics to study the competition for organic resources by these fungal groups in boreal, temperate, and Mediterranean forest soils. Using a dedicated mRNA annotation pipeline combined with the JGI MycoCosm database, we compared the transcripts of these three fungal guilds, targeting enzymes involved in C- and N mobilization from plant and microbial cell walls. Genes encoding enzymes involved in the degradation of plant cell walls were expressed at a higher level in saprotrophic fungi than in ectomycorrhizal and pathogenic fungi. However, ectomycorrhizal and saprotrophic fungi showed similarly high expression levels of genes encoding enzymes involved in fungal cell wall degradation. Transcripts for N-related transporters were more highly expressed in ectomycorrhizal fungi than in other groups. We showed that ectomycorrhizal and saprotrophic fungi compete for N in soil organic matter, suggesting that their interactions could decelerate C cycling. Metatranscriptomics provides a unique tool to test controversial ecological hypotheses and to better understand the underlying ecological processes involved in soil functioning and carbon stabilization., (© 2023 His Majesty the King in Right of Canada and The Authors. New Phytologist © 2023 New Phytologist Foundation Reproduced with the permission of the Minister of Natural Resources Canada. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)
Published: 2024
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48. Genomes of multicellular algal sisters to land plants illuminate signaling network evolution.

Author: Feng X, Zheng J, Irisarri I, Yu H, Zheng B, Ali Z, de Vries S, Keller J, Fürst-Jansen JMR, Dadras A, Zegers JMS, Rieseberg TP, Dhabalia Ashok A, Darienko T, Bierenbroodspot MJ, Gramzow L, Petroll R, Haas FB, Fernandez-Pozo N, Nousias O, Li T, Fitzek E, Grayburn WS, Rittmeier N, Permann C, Rümpler F, Archibald JM, Theißen G, Mower JP, Lorenz M, Buschmann H, von Schwartzenberg K, Boston L, Hayes RD, Daum C, Barry K, Grigoriev IV, Wang X, Li FW, Rensing SA, Ben Ari J, Keren N, Mosquna A, Holzinger A, Delaux PM, Zhang C, Huang J, Mutwil M, de Vries J, and Yin Y
Subjects: Gene Regulatory Networks, Genome genetics, Genome, Plant, Signal Transduction genetics, Embryophyta genetics, Evolution, Molecular, Phylogeny
Abstract: Zygnematophyceae are the algal sisters of land plants. Here we sequenced four genomes of filamentous Zygnematophyceae, including chromosome-scale assemblies for three strains of Zygnema circumcarinatum. We inferred traits in the ancestor of Zygnematophyceae and land plants that might have ushered in the conquest of land by plants: expanded genes for signaling cascades, environmental response, and multicellular growth. Zygnematophyceae and land plants share all the major enzymes for cell wall synthesis and remodifications, and gene gains shaped this toolkit. Co-expression network analyses uncover gene cohorts that unite environmental signaling with multicellular developmental programs. Our data shed light on a molecular chassis that balances environmental response and growth modulation across more than 600 million years of streptophyte evolution., (© 2024. The Author(s).)
Published: 2024
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49. Biofilm-disrupting effects of phage endolysins LysAm24, LysAp22, LysECD7, and LysSi3: breakdown the matrix.

Author: Lendel AM, Antonova NP, Grigoriev IV, Usachev EV, Gushchin VA, and Vasina DV
Subjects: Acinetobacter baumannii drug effects, Klebsiella pneumoniae drug effects, Viral Proteins metabolism, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, N-Acetylmuramoyl-L-alanine Amidase metabolism, N-Acetylmuramoyl-L-alanine Amidase chemistry, Biofilms drug effects, Biofilms growth & development, Endopeptidases metabolism, Endopeptidases pharmacology, Endopeptidases chemistry, Bacteriophages enzymology
Abstract: The ability of most opportunistic bacteria to form biofilms, coupled with antimicrobial resistance, hinder the efforts to control widespread infections, resulting in high risks of negative outcomes and economic costs. Endolysins are promising compounds that efficiently combat bacteria, including multidrug-resistant strains and biofilms, without a low probability of subsequent emergence of stable endolysin-resistant phenotypes. However, the details of antibiofilm effects of these enzymes are poorly understood. To elucidate the interactions of bacteriophage endolysins LysAm24, LysAp22, LysECD7, and LysSi3 with bacterial films formed by Gram-negative species, we estimated their composition and assessed the endolysins' effects on the most abundant exopolymers in vitro. The obtained data suggests a pronounced efficiency of these lysins against biofilms with high (Klebsiella pneumoniae) and low (Acinetobacter baumannii) matrix contents, or dual-species biofilms, resulting in at least a twofold loss of the biomass. These peptidoglycan hydrolases interacted diversely with protective compounds of biofilms such as extracellular DNA and polyanionic carbohydrates, indicating a spectrum of biofilm-disrupting effects for bacteriolytic phage enzymes. Specifically, we detected disruption of acid exopolysaccharides by LysAp22, strong DNA-binding capacity of LysAm24, both of these interactions for LysECD7, and neither of them for LysSi3., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)
Published: 2024
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50. Hot springs viruses at Yellowstone National Park have ancient origins and are adapted to thermophilic hosts.

Author: Felipe Benites L, Stephens TG, Van Etten J, James T, Christian WC, Barry K, Grigoriev IV, McDermott TR, and Bhattacharya D
Subjects: Phylogeny, Parks, Recreational, Ecosystem, Biomass, Hot Springs, Rhodophyta genetics
Abstract: Geothermal springs house unicellular red algae in the class Cyanidiophyceae that dominate the microbial biomass at these sites. Little is known about host-virus interactions in these environments. We analyzed the virus community associated with red algal mats in three neighboring habitats (creek, endolithic, soil) at Lemonade Creek, Yellowstone National Park (YNP), USA. We find that despite proximity, each habitat houses a unique collection of viruses, with the giant viruses, Megaviricetes, dominant in all three. The early branching phylogenetic position of genes encoded on metagenome assembled virus genomes (vMAGs) suggests that the YNP lineages are of ancient origin and not due to multiple invasions from mesophilic habitats. The existence of genomic footprints of adaptation to thermophily in the vMAGs is consistent with this idea. The Cyanidiophyceae at geothermal sites originated ca. 1.5 Bya and are therefore relevant to understanding biotic interactions on the early Earth., (© 2024. The Author(s).)
Published: 2024
Full Text: View/download PDF

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