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1. Ecological generalism drives hyperdiversity of secondary metabolite gene clusters in xylarialean endophytes

Author

Franco, Mario EE, Wisecaver, Jennifer H, Arnold, A Elizabeth, Ju, Yu‐Ming, Slot, Jason C, Ahrendt, Steven, Moore, Lillian P, Eastman, Katharine E, Scott, Kelsey, Konkel, Zachary, Mondo, Stephen J, Kuo, Alan, Hayes, Richard D, Haridas, Sajeet, Andreopoulos, Bill, Riley, Robert, LaButti, Kurt, Pangilinan, Jasmyn, Lipzen, Anna, Amirebrahimi, Mojgan, Yan, Juying, Adam, Catherine, Keymanesh, Keykhosrow, Ng, Vivian, Louie, Katherine, Northen, Trent, Drula, Elodie, Henrissat, Bernard, Hsieh, Huei‐Mei, Youens‐Clark, Ken, Lutzoni, François, Miadlikowska, Jolanta, Eastwood, Daniel C, Hamelin, Richard C, Grigoriev, Igor V, and U’Ren, Jana M

Subjects
Microbiology, Environmental Sciences, Biological Sciences, Ecology, Genetics, 2.1 Biological and endogenous factors, Endophytes, Fungi, Lichens, Multigene Family, Symbiosis, Xylariales, Ascomycota, endophyte, plant-fungal interactions, saprotroph, specialised metabolism, symbiosis, trophic mode, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications
Abstract

Although secondary metabolites are typically associated with competitive or pathogenic interactions, the high bioactivity of endophytic fungi in the Xylariales, coupled with their abundance and broad host ranges spanning all lineages of land plants and lichens, suggests that enhanced secondary metabolism might facilitate symbioses with phylogenetically diverse hosts. Here, we examined secondary metabolite gene clusters (SMGCs) across 96 Xylariales genomes in two clades (Xylariaceae s.l. and Hypoxylaceae), including 88 newly sequenced genomes of endophytes and closely related saprotrophs and pathogens. We paired genomic data with extensive metadata on endophyte hosts and substrates, enabling us to examine genomic factors related to the breadth of symbiotic interactions and ecological roles. All genomes contain hyperabundant SMGCs; however, Xylariaceae have increased numbers of gene duplications, horizontal gene transfers (HGTs) and SMGCs. Enhanced metabolic diversity of endophytes is associated with a greater diversity of hosts and increased capacity for lignocellulose decomposition. Our results suggest that, as host and substrate generalists, Xylariaceae endophytes experience greater selection to diversify SMGCs compared with more ecologically specialised Hypoxylaceae species. Overall, our results provide new evidence that SMGCs may facilitate symbiosis with phylogenetically diverse hosts, highlighting the importance of microbial symbioses to drive fungal metabolic diversity.

Published
2022

2. Shed Light in the DaRk LineagES of the Fungal Tree of Life-STRES.

Author

Selbmann, Laura, Benkő, Zsigmond, Coleine, Claudia, de Hoog, Sybren, Donati, Claudio, Druzhinina, Irina, Emri, Tamás, Ettinger, Cassie L, Gladfelter, Amy S, Gorbushina, Anna A, Grigoriev, Igor V, Grube, Martin, Gunde-Cimerman, Nina, Karányi, Zsolt Ákos, Kocsis, Beatrix, Kubressoian, Tania, Miklós, Ida, Miskei, Márton, Muggia, Lucia, Northen, Trent, Novak-Babič, Monika, Pennacchio, Christa, Pfliegler, Walter P, Pòcsi, Istvàn, Prigione, Valeria, Riquelme, Meritxell, Segata, Nicola, Schumacher, Julia, Shelest, Ekaterina, Sterflinger, Katja, Tesei, Donatella, U'Ren, Jana M, Varese, Giovanna C, Vázquez-Campos, Xabier, Vicente, Vania A, Souza, Emanuel M, Zalar, Polona, Walker, Allison K, and Stajich, Jason E

Subjects
Dothideomycetes, Eurotiomycetes, adaptation, black fungi, extremophiles, genomics, metabolomics, secondary metabolites, stress conditions, transcriptomics
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

6. Contributions of North American endophytes to the phylogeny, ecology, and taxonomy of Xylariaceae (Sordariomycetes, Ascomycota)

Author

U’Ren, Jana M, Miadlikowska, Jolanta, Zimmerman, Naupaka B, Lutzoni, François, Stajich, Jason E, and Arnold, A Elizabeth

Subjects
Microbiology, Biological Sciences, Ecology, Evolutionary Biology, Biological Evolution, Ecosystem, Endophytes, Lichens, Phylogeny, Plants, United States, Xylariales, Daldinia loculata, Endolichenic fungi, Symbiosis, Systematics, Xylaria cubensis, Xylariomycetidae, Genetics, Zoology, Evolutionary biology
Abstract

The Xylariaceae (Sordariomycetes) comprise one of the largest and most diverse families of Ascomycota, with at least 85 accepted genera and ca. 1343 accepted species. In addition to their frequent occurrence as saprotrophs, members of the family often are found as endophytes in living tissues of phylogenetically diverse plants and lichens. Many of these endophytes remain sterile in culture, precluding identification based on morphological characters. Previous studies indicate that endophytes are highly diverse and represent many xylariaceous genera; however, phylogenetic analyses at the family level generally have not included endophytes, such that their contributions to understanding phylogenetic relationships of Xylariaceae are not well known. Here we use a multi-locus, cumulative supermatrix approach to integrate 92 putative species of fungi isolated from plants and lichens into a phylogenetic framework for Xylariaceae. Our collection spans 1933 isolates from living and senescent tissues in five biomes across the continental United States, and here is analyzed in the context of previously published sequence data from described species and additional taxon sampling of type specimens from culture collections. We found that the majority of strains obtained in our surveys can be classified in the hypoxyloid and xylaroid subfamilies, although many also were found outside of these lineages (as currently circumscribed). Many endophytes were placed in lineages previously not known for endophytism. Most endophytes appear to represent novel species, but inferences are limited by potential gaps in public databases. By linking our data, publicly available sequence data, and records of ascomata, we identify many geographically widespread, host-generalist clades capable of symbiotic associations with diverse photosynthetic partners. Concomitant with such cosmopolitan host use and distributions, many xylariaceous endophytes appear to inhabit both living and non-living plant tissues, with potentially important roles as saprotrophs. Overall, our study reveals major gaps in the availability of multi-locus datasets and metadata for this iconic family, and provides new hypotheses regarding the ecology and evolution of endophytism and other trophic modes across the family Xylariaceae.

Published
2016

7. Contributions of North American endophytes to the phylogeny, ecology, and taxonomy of Xylariaceae (Sordariomycetes, Ascomycota).

Author

U'Ren, Jana M, Miadlikowska, Jolanta, Zimmerman, Naupaka B, Lutzoni, François, Stajich, Jason E, and Arnold, A Elizabeth

Subjects
Lichens, Plants, Ecology, Ecosystem, Phylogeny, United States, Xylariales, Biological Evolution, Endophytes, Daldinia loculata, Endolichenic fungi, Symbiosis, Systematics, Xylaria cubensis, Xylariomycetidae, Evolutionary Biology, Genetics, Zoology
Abstract

The Xylariaceae (Sordariomycetes) comprise one of the largest and most diverse families of Ascomycota, with at least 85 accepted genera and ca. 1343 accepted species. In addition to their frequent occurrence as saprotrophs, members of the family often are found as endophytes in living tissues of phylogenetically diverse plants and lichens. Many of these endophytes remain sterile in culture, precluding identification based on morphological characters. Previous studies indicate that endophytes are highly diverse and represent many xylariaceous genera; however, phylogenetic analyses at the family level generally have not included endophytes, such that their contributions to understanding phylogenetic relationships of Xylariaceae are not well known. Here we use a multi-locus, cumulative supermatrix approach to integrate 92 putative species of fungi isolated from plants and lichens into a phylogenetic framework for Xylariaceae. Our collection spans 1933 isolates from living and senescent tissues in five biomes across the continental United States, and here is analyzed in the context of previously published sequence data from described species and additional taxon sampling of type specimens from culture collections. We found that the majority of strains obtained in our surveys can be classified in the hypoxyloid and xylaroid subfamilies, although many also were found outside of these lineages (as currently circumscribed). Many endophytes were placed in lineages previously not known for endophytism. Most endophytes appear to represent novel species, but inferences are limited by potential gaps in public databases. By linking our data, publicly available sequence data, and records of ascomata, we identify many geographically widespread, host-generalist clades capable of symbiotic associations with diverse photosynthetic partners. Concomitant with such cosmopolitan host use and distributions, many xylariaceous endophytes appear to inhabit both living and non-living plant tissues, with potentially important roles as saprotrophs. Overall, our study reveals major gaps in the availability of multi-locus datasets and metadata for this iconic family, and provides new hypotheses regarding the ecology and evolution of endophytism and other trophic modes across the family Xylariaceae.

Published
2016

24. Ecological generalism drives hyperdiversity of secondary metabolite gene clusters in xylarialean endophytes

Author

Franco, Mario E. E., primary, Wisecaver, Jennifer H., additional, Arnold, A. Elizabeth, additional, Ju, Yu‐Ming, additional, Slot, Jason C., additional, Ahrendt, Steven, additional, Moore, Lillian P., additional, Eastman, Katharine E., additional, Scott, Kelsey, additional, Konkel, Zachary, additional, Mondo, Stephen J., additional, Kuo, Alan, additional, Hayes, Richard D., additional, Haridas, Sajeet, additional, Andreopoulos, Bill, additional, Riley, Robert, additional, LaButti, Kurt, additional, Pangilinan, Jasmyn, additional, Lipzen, Anna, additional, Amirebrahimi, Mojgan, additional, Yan, Juying, additional, Adam, Catherine, additional, Keymanesh, Keykhosrow, additional, Ng, Vivian, additional, Louie, Katherine, additional, Northen, Trent, additional, Drula, Elodie, additional, Henrissat, Bernard, additional, Hsieh, Huei‐Mei, additional, Youens‐Clark, Ken, additional, Lutzoni, François, additional, Miadlikowska, Jolanta, additional, Eastwood, Daniel C., additional, Hamelin, Richard C., additional, Grigoriev, Igor V., additional, and U’Ren, Jana M., additional

Published
2021
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26. Strobiloscyphones A–F, 6-Isopentylsphaeropsidones and Other Metabolites from Strobiloscypha sp. AZ0266, a Leaf-Associated Fungus of Douglas Fir

Author

Qu, Wei, primary, Kithsiri Wijeratne, E. M., additional, Bashyal, Bharat P., additional, Xu, Jian, additional, Xu, Ya-Ming, additional, Liu, Manping X., additional, Inácio, Marielle C., additional, Arnold, A. Elizabeth, additional, U’Ren, Jana M., additional, and Leslie Gunatilaka, A. A., additional

Published
2021
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29. Secondary metabolism drives ecological breadth in the Xylariaceae

Author

Franco, Mario E.E., primary, Wisecaver, Jennifer H., additional, Arnold, A. Elizabeth, additional, Ju, Yu-Ming, additional, Slot, Jason C., additional, Ahrendt, Steven, additional, Moore, Lillian P., additional, Eastman, Katharine E., additional, Scott, Kelsey, additional, Konkel, Zachary, additional, Mondo, Stephen J., additional, Kuo, Alan, additional, Hayes, Richard, additional, Haridas, Sajeet, additional, Andreopoulos, Bill, additional, Riley, Robert, additional, LaButti, Kurt, additional, Pangilinan, Jasmyn, additional, Lipzen, Anna, additional, Amirebrahimi, Mojgan, additional, Yan, Juying, additional, Adam, Catherine, additional, Keymanesh, Keykhosrow, additional, Ng, Vivian, additional, Louie, Katherine, additional, Northen, Trent, additional, Drula, Elodie, additional, Henrissat, Bernard, additional, Hsieh, Huei-Mei, additional, Youens-Clark, Ken, additional, Lutzoni, François, additional, Miadlikowska, Jolanta, additional, Eastwood, Daniel C., additional, Hamelin, Richard C., additional, Grigoriev, Igor V., additional, and U’Ren, Jana M., additional

Published
2021
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30. Biological Collections as Tools to Fill Gaps in the Pezizomycotina Tree of Life

Author

Bronstein, Judith, Sanderson, Michael J., U'Ren, Jana M., Harrington, Alison, Bronstein, Judith, Sanderson, Michael J., U'Ren, Jana M., and Harrington, Alison

Abstract

Fungi represent one of the most species rich lineages of Life. However, the majority of fungal biodiversity is undescribed, precluding inference of the distributions, ecological and morphological traits, and evolution of many fungal taxa. The increasing accessibility of sequencing technology and prevalence of large-scale metabarcoding studies have advanced fungal systematics and ecological inference, and sequence data have become the primary means by which fungi are identified. Typically, these methods use sequence data from a specific ‘barcode’ locus for identification, which is then compared to a reference database of barcode sequences annotated with taxonomic names to estimate identity. Yet, accurate and precise sequence-based identification of fungi remain elusive, with studies often generating sequences that cannot be identified with any precision. In this dissertation, I use a synthesis of traditional taxonomic methods and data derived from molecular ecology, multi-locus sequencing, genomics, and bioassays to explore the limitations of and opportunities to improve sequence-based identification of fungi, particularly in the context of ecological studies. I describe three novel taxa, all of which were previously collected during ecological studies conducted by other authors and deposited as unidentified vouchers in a culture collection. To evaluate the precision of methods that rely on barcode sequence similarity to identify and infer ecological guild of unknown samples, I first used morphological, phenotypic, and molecular methods to characterize strains of Coniochaeta with highly similar barcode sequences to two described species in the genus. Coniochaeta is one of the most frequently isolated genera of plant-associated fungi in temperate biomes, though little is known about how these fungi affect the fitness of their host plants. Using in vitro assays, phylogenetic analyses of two loci, and analyses of genome data newly generated by a collaborative team for t

Published
2021

33. Supplementary Table 3 from Marine mammal skin microbiotas are influenced by host phylogeny

Author

Apprill, Amy, Miller, Carolyn A., Cise, Amy M. Van, U'Ren, Jana M., Leslie, Matthew S., Weber, Laura, Baird, Robin W., Jooke Robbins, Landry, Scott, Bogomolni, Andrea, and Waring, Gordon

Abstract

Supplementary Table 3. PERMANOVA and PERMDISP pair-wise comparison analysis of the effect of species on the composition of the skin microbiota (PERMANOVA *p0.05 ).

Published
2020
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35. Supplementary Table 5 from Marine mammal skin microbiotas are influenced by host phylogeny

Author

Apprill, Amy, Miller, Carolyn A., Cise, Amy M. Van, U'Ren, Jana M., Leslie, Matthew S., Weber, Laura, Baird, Robin W., Jooke Robbins, Landry, Scott, Bogomolni, Andrea, and Waring, Gordon

Subjects
chemical and pharmacologic phenomena
Abstract

Specific MED sequencing groupings from SIMPER analysis that contribute to microbiome similarity within a species.

Published
2020
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36. Supplementary Table 2 from Marine mammal skin microbiotas are influenced by host phylogeny

Author

Apprill, Amy, Miller, Carolyn, Cise, Amy Van, U'Ren, Jana M., Leslie, Matthew S., Weber, Laura, Baird, Robin W., Jooke Robbins, Landry, Scott, Bogomolni, Andrea, and Waring, Gordon

Subjects
animal structures, genetic processes, information science, food and beverages, natural sciences
Abstract

NCBI accessions for reference mitochondrial genomes sequences used to infer host phylogeny.

Published
2020
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37. Fine-scale genetic diversity among Burkholderia pseudomallei soil isolates in northeast Thailand

Author

U'Ren, Jana M., Hornstra, Heidie, Pearson, Talima, Schupp, James M., Leadem, Benjamin, Georgia, Shalamar, Sermswam, Rasana W., and Keim, Paul

Subjects
Bacteria -- Research, Bacteria -- Genetic aspects, Genotype -- Observations, Biological sciences
Abstract

Burkholderia pseudomallei soil isolates from northeast Thailand are genotyped using multiple-locus variable number tandem repeat analysis (MLVA) and multilocus sequence typing (MLST). MLVA identified 19 genotypes within three clades, while MLST revealed two genotypes.

Published
2007

38. Marine mammal skin microbiotas are influenced by host phylogeny

Author

Apprill, Amy, Miller, Carolyn A., Van Cise, Amy M., U'Ren, Jana M., Leslie, Matthew S., Weber, Laura, Baird, Robin W., Robbins, Jooke, Landry, Scott, Bogomolni, Andrea L., Waring, Gordon T., Apprill, Amy, Miller, Carolyn A., Van Cise, Amy M., U'Ren, Jana M., Leslie, Matthew S., Weber, Laura, Baird, Robin W., Robbins, Jooke, Landry, Scott, Bogomolni, Andrea L., and Waring, Gordon T.

Abstract

© The Author(s), 2020. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Apprill, A., Miller, C. A., Van Cise, A. M., U'Ren, J. M., Leslie, M. S., Weber, L., Baird, R. W., Robbins, J., Landry, S., Bogomolni, A., & Waring, G. Marine mammal skin microbiotas are influenced by host phylogeny. Royal Society Open Science, 7(5), (2020): 192046, doi:10.1098/rsos.192046., Skin-associated microorganisms have been shown to play a role in immune function and disease of humans, but are understudied in marine mammals, a diverse animal group that serve as sentinels of ocean health. We examined the microbiota associated with 75 epidermal samples opportunistically collected from nine species within four marine mammal families, including: Balaenopteridae (sei and fin whales), Phocidae (harbour seal), Physeteridae (sperm whales) and Delphinidae (bottlenose dolphins, pantropical spotted dolphins, rough-toothed dolphins, short-finned pilot whales and melon-headed whales). The skin was sampled from free-ranging animals in Hawai‘i (Pacific Ocean) and off the east coast of the United States (Atlantic Ocean), and the composition of the bacterial community was examined using the sequencing of partial small subunit (SSU) ribosomal RNA genes. Skin microbiotas were significantly different among host species and taxonomic families, and microbial community distance was positively correlated with mitochondrial-based host genetic divergence. The oceanic location could play a role in skin microbiota variation, but skin from species sampled in both locations is necessary to determine this influence. These data suggest that a phylosymbiotic relationship may exist between microbiota and their marine mammal hosts, potentially providing specific health and immune-related functions that contribute to the success of these animals in diverse ocean ecosystems., Funding provided by the Earth Microbiome Project, WHOI Marine Mammal Center, WHOI Ocean Life Institute and WHOI's Andrew W. Mellon Foundation Endowed Fund for Innovative Research to A.A. Hawai‘i sampling was undertaken during field projects funded by grants from ONR (N000141310648 to R.W.B, N000141110612 to T.A. Mooney and N00014101686 to R.D. Andrews) and NMFS (NA13OAR4540212 to R.W.B).

Published
2020

39. Aquatic Microbial Community Modeling With Dynamic Bayesian Networks

Author

U'Ren, Jana M., Piegorsch, Walter W., Bedrick, Edward J., Liu, Xiang, U'Ren, Jana M., Piegorsch, Walter W., Bedrick, Edward J., and Liu, Xiang

Abstract

Microorganisms, and the communities they form, serve a crucial role in maintaining the ecosystem's energy balance, recycling nutrients, and the neutralization and degradation of toxins and other detritus. In the microbial community, organisms live together in a contiguous environment and interact with each other. Microbial communities are a complex system. To understand this system, we need to know 1) the identity of the components that constitute the biological system, 2) the dynamic behavior of these components, and 3) the interactions among these components. This information can be combined into a consistent model with current knowledge to provide new insights and predictions. Here, I use Bayesian Networks (BNs) to model aquatic microbial communities based on taxonomic composition and function to understand how microorganisms interact with each other and their surrounding environment. The long-term goal of my work is to use BNs to provide insights and predictions of the construction and function of microbial communities. To do this, I examine environmental factors (e.g. temperature, nutrition, and light intensity, etc.) that affect the distribution of microorganisms and result in changes to composition and function of microbial communities. This work is possible given advances in metagenomics and bioinformatics techniques to identify and quantify microbial taxa and function, and Dynamic Bayesian Networks (DBNs) to model relationships in aquatic environments and microbial communities.To explore the relationships between domain bacteria in a lake environment, I constructed a DBNs model representing the connections between the domain bacteria and their environmental factors. The resulting network structure captures the relationships between bacteria and essential ecological factors validated by previous studies. Furthermore, this DBN model can also be used to predict the composition of a bacterial community based on ecological factors and prior datasets. I used DBNs

Published
2020

40. Phylogenetic discovery bias in Bacillus anthracis using single-nucleotide polymorphisms from whole-genome sequencing

Author

Pearson, Talima, Busch, Joseph D., Ravel, Jacques, Read, Timothy D., Rhoton, Shane D., U'Ren, Jana M., Simonson, Tatum S., Kachur, Sergey M., Leadem, Rebecca R., Cardon, Michelle L., Van Ert, Matthew N., Huynh, Lynn Y., Fraser, Claire M., and Keim, Paul

Subjects
Bacillus anthracis -- Research, Science and technology
Abstract

Phylogenetic reconstruction using molecular data is often subject to homoplasy, leading to inaccurate conclusions about phylogenetic relationships among operational taxonomic units. Compared with other molecular markers, single-nucleotide polymorphisms (SNPs) exhibit extremely low mutation rates, making them rare in recently emerged pathogens, but they are less prone to homoplasy and thus extremely valuable for phylogenetic analyses. Despite their phylogenetic potential, ascertainment bias occurs when SNP characters are discovered through biased taxonomic sampling; by using whole-genome comparisons of five diverse strains of Bacillus anthracis to facilitate SNP discovery, we show that only polymorphisms lying along the evolutionary pathway between reference strains will be observed. We illustrate this in theoretical and simulated data sets in which complex phylogenetic topologies are reduced to linear evolutionary models. Using a set of 990 SNP markers, we also show how divergent branches in our topologies collapse to single points but provide accurate information on internodal distances and points of origin for ancestral clades. These data allowed us to determine the ancestral root of B. anthracis, showing that it lies closer to a newly described 'C' branch than to either of two previously described 'A' or 'B' branches. In addition, subclade rooting of the C branch revealed unequal evolutionary rates that seem to be correlated with ecological parameters and strain attributes. Our use of nonhomoplastic whole-genome SNP characters allows branch points and clade membership to be estimated with great precision, providing greater insight into epidemiological, ecological, and forensic questions.

Published
2004

42. Marine mammal skin microbiotas are influenced by host phylogeny

Author

Apprill, Amy, primary, Miller, Carolyn A., additional, Van Cise, Amy M., additional, U'Ren, Jana M., additional, Leslie, Matthew S., additional, Weber, Laura, additional, Baird, Robin W., additional, Robbins, Jooke, additional, Landry, Scott, additional, Bogomolni, Andrea, additional, and Waring, Gordon, additional

Published
2020
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43. Coniochaeta endophytica.

Author

Arnold, A. Elizabeth, Harrington, Alison H., U'Ren, Jana M., Shuzo Oita, and Inderbitzin, Patrik

Subjects
FUNGI imperfecti, LICHENS, ENDOPHYTIC fungi, SPECIES diversity, TAXONOMY
Abstract

Coniochaeta (Coniochaetaceae, Ascomycota) is a diverse genus that includes a striking richness of undescribed species with endophytic lifestyles, especially in temperate and boreal plants and lichens. These endophytes frequently represent undescribed species that can clarify evolutionary relationships and trait evolution within clades of previously classified fungi. Here we extend the geographic, taxonomic, and host sampling presented in a previous analysis of the clade containing Coniochaeta endophytica, a recently described species occurring as an endophyte from North America; and C. prunicola, associated with necroses of stonefruit trees in South Africa. Our multi-locus analysis and examination of metadata for endophyte strains housed in the Robert L. Gilbertson Mycological Herbarium at the University of Arizona (ARIZ) (1) expands the geographic range of C. endophytica across a wider range of the USA than recognized previously; (2) shows that the ex-type of C. prunicola (CBS 120875) forms a well-supported clade with endophytes of native hosts in North Carolina and Michigan, USA; (3) reveals that the ex-paratype for C. prunicola (CBS 121445) forms a distinct clade with endophytes from North Carolina and Russia, is distinct morphologically from the other taxa considered here, and is described herein as Coniochaeta lutea; and (4) describes a new species, Coniochaeta palaoa, here identified as an endophyte of multiple plant lineages in the highlands and piedmont of North Carolina. Separation of CBS 120875 and CBS 121445 into C. prunicola sensu stricto and C. lutea is consistent with previously described genomic differences between these isolates, and morphological and functional differences among the four species (C. endophytica, C. prunicola, C. palaoa, and C. lutea) underscore the phylogenetic relationships described here. The resolving power of particular loci and the emerging perspective on the host- and geographic range of Coniochaeta and the C. endophytica / C. prunicola clade are discussed. [ABSTRACT FROM AUTHOR]

Published
2021
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44. Environmental drivers and cryptic biodiversity hotspots define endophytes in Earth's largest terrestrial biome.

Author

U'Ren, Jana M., Oita, Shuzo, Lutzoni, François, Miadlikowska, Jolanta, Ball, Bernard, Carbone, Ignazio, May, Georgiana, Zimmerman, Naupaka B., Valle, Denis, Trouet, Valerie, and Arnold, A. Elizabeth

Subjects
*BIOMES, *ENDOPHYTIC fungi, *BIODIVERSITY, *TAIGAS, *ENDOPHYTES, *PLANT-fungus relationships, *EARTH (Planet)
Abstract

Understanding how symbiotic associations differ across environmental gradients is key to predicting the fate of symbioses as environments change, and it is vital for detecting global reservoirs of symbiont biodiversity in a changing world. 1,2,3 However, sampling of symbiotic partners at the full-biome scale is difficult and rare. As Earth's largest terrestrial biome, boreal forests influence carbon dynamics and climate regulation at a planetary scale. Plants and lichens in this biome host the highest known phylogenetic diversity of fungal endophytes, which occur within healthy photosynthetic tissues and can influence hosts' resilience to stress. 4,5 We examined how communities of endophytes are structured across the climate gradient of the boreal biome, focusing on the dominant plant and lichen species occurring across the entire south-to-north span of the boreal zone in eastern North America. Although often invoked for understanding the distribution of biodiversity, neither a latitudinal gradient nor mid-domain effect 5,6,7 can explain variation in endophyte diversity at this trans-biome scale. Instead, analyses considering shifts in forest characteristics, Picea biomass and age, and nutrients in host tissues from 46° to 58° N reveal strong and distinctive signatures of climate in defining endophyte assemblages in each host lineage. Host breadth of endophytes varies with climate factors, and biodiversity hotspots can be identified at plant-community transitions across the boreal zone at a global scale. Placed against a backdrop of global circumboreal sampling, 4 our study reveals the sensitivity of endophytic fungi, their reservoirs of biodiversity, and their important symbiotic associations, to climate. • Endophyte associations with boreal plants and lichens are defined by climate • Effects of climate on endophyte diversity differ among hosts and fungal lineages • Endophyte biodiversity hotspots occur at key plant-community transitions • Climate change threatens symbiotic fungi in Earth's largest terrestrial biome U'Ren and Oita et al. use comprehensive, biome-scale sampling to show how hidden fungal symbionts of plants and lichens, and their biodiversity hotspots, are structured by climate—thus highlighting the potential sensitivity of foundational symbioses in Earth's largest terrestrial biome to the effects of climate change. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Coniochaeta endophytica sp. nov., a foliar endophyte associated with healthy photosynthetic tissue of Platycladus orientalis (Cupressaceae)

Author

Harrington, Alison H., primary, Olmo-Ruiz, Mariana del, additional, U’Ren, Jana M., additional, Garcia, Kayla, additional, Pignatta, Daniela, additional, Wespe, Nichole, additional, Sandberg, Dustin C., additional, Huang, Yu-Ling, additional, Hoffman, Michele T., additional, and Arnold, A. Elizabeth, additional

Published
2019
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48. Bacillus anthracis in China and its relationship to worldwide lineages

Author

Schupp James M, Beaudry Jodi, Kenefic Leo J, Zanecki Shaylan R, Dukerich Meghan, U'Ren Jana M, Huynh Lynn, Easterday W Ryan, Wang Bingxiang, Okinaka Richard T, Simonson Tatum S, Pearson Talima, Wagner David M, Hoffmaster Alex, Ravel Jacques, and Keim Paul

Subjects
Microbiology, QR1-502
Abstract

Abstract Background The global pattern of distribution of 1033 B. anthracis isolates has previously been defined by a set of 12 conserved canonical single nucleotide polymorphisms (canSNP). These studies reinforced the presence of three major lineages and 12 sub-lineages and sub-groups of this anthrax-causing pathogen. Isolates that form the A lineage (unlike the B and C lineages) have become widely dispersed throughout the world and form the basis for the geographical disposition of "modern" anthrax. An archival collection of 191 different B. anthracis isolates from China provides a glimpse into the possible role of Chinese trade and commerce in the spread of certain sub-lineages of this pathogen. Canonical single nucleotide polymorphism (canSNP) and multiple locus VNTR analysis (MLVA) typing has been used to examine this archival collection of isolates. Results The canSNP study indicates that there are 5 different sub-lineages/sub-groups in China out of 12 previously described world-wide canSNP genotypes. Three of these canSNP genotypes were only found in the western-most province of China, Xinjiang. These genotypes were A.Br.008/009, a sub-group that is spread across most of Europe and Asia; A.Br.Aust 94, a sub-lineage that is present in Europe and India, and A.Br.Vollum, a lineage that is also present in Europe. The remaining two canSNP genotypes are spread across the whole of China and belong to sub-group A.Br.001/002 and the A.Br.Ames sub-lineage, two closely related genotypes. MLVA typing adds resolution to the isolates in each canSNP genotype and diversity indices for the A.Br.008/009 and A.Br.001/002 sub-groups suggest that these represent older and established clades in China. Conclusion B. anthracis isolates were recovered from three canSNP sub-groups (A.Br.008/009, A.Br.Aust94, and A.Br.Vollum) in the western most portion of the large Chinese province of Xinjiang. The city of Kashi in this province appears to have served as a crossroads for not only trade but the movement of diseases such as anthrax along the ancient "silk road". Phylogenetic inference also suggests that the A.Br.Ames sub-lineage, first identified in the original Ames strain isolated from Jim Hogg County, TX, is descended from the A.Br.001/002 sub-group that has a major presence in most of China. These results suggest a genetic discontinuity between the younger Ames sub-lineage in Texas and the large Western North American sub-lineage spread across central Canada and the Dakotas.

Published
2009
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49. Tandem repeat regions within the Burkholderia pseudomallei genome and their application for high resolution genotyping

Author

Harvey Steven P, DeShazer David, Huynh Lynn Y, Cardon Michelle, Georgia Shalamar, Leadem Ben, Rhoton Shane D, Daugherty Rebecca, Smith Kimothy L, Friedman Christine, Hornstra Heidie, Pearson Talima, Schupp James M, U'Ren Jana M, Robison Richard, Gal Daniel, Mayo Mark J, Wagner David, Currie Bart J, and Keim Paul

Subjects
Microbiology, QR1-502
Abstract

Abstract Background The facultative, intracellular bacterium Burkholderia pseudomallei is the causative agent of melioidosis, a serious infectious disease of humans and animals. We identified and categorized tandem repeat arrays and their distribution throughout the genome of B. pseudomallei strain K96243 in order to develop a genetic typing method for B. pseudomallei. We then screened 104 of the potentially polymorphic loci across a diverse panel of 31 isolates including B. pseudomallei, B. mallei and B. thailandensis in order to identify loci with varying degrees of polymorphism. A subset of these tandem repeat arrays were subsequently developed into a multiple-locus VNTR analysis to examine 66 B. pseudomallei and 21 B. mallei isolates from around the world, as well as 95 lineages from a serial transfer experiment encompassing ~18,000 generations. Results B. pseudomallei contains a preponderance of tandem repeat loci throughout its genome, many of which are duplicated elsewhere in the genome. The majority of these loci are composed of repeat motif lengths of 6 to 9 bp with 4 to 10 repeat units and are predominately located in intergenic regions of the genome. Across geographically diverse B. pseudomallei and B.mallei isolates, the 32 VNTR loci displayed between 7 and 28 alleles, with Nei's diversity values ranging from 0.47 and 0.94. Mutation rates for these loci are comparable (>10-5 per locus per generation) to that of the most diverse tandemly repeated regions found in other less diverse bacteria. Conclusion The frequency, location and duplicate nature of tandemly repeated regions within the B. pseudomallei genome indicate that these tandem repeat regions may play a role in generating and maintaining adaptive genomic variation. Multiple-locus VNTR analysis revealed extensive diversity within the global isolate set containing B. pseudomallei and B. mallei, and it detected genotypic differences within clonal lineages of both species that were identical using previous typing methods. Given the health threat to humans and livestock and the potential for B. pseudomallei to be released intentionally, MLVA could prove to be an important tool for fine-scale epidemiological or forensic tracking of this increasingly important environmental pathogen.

Published
2007
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50. Strobiloscyphones A–F, 6-Isopentylsphaeropsidones and Other Metabolites from Strobiloscyphasp. AZ0266, a Leaf-Associated Fungus of Douglas Fir

Author

Qu, Wei, Kithsiri Wijeratne, E. M., Bashyal, Bharat P., Xu, Jian, Xu, Ya-Ming, Liu, Manping X., Inácio, Marielle C., Arnold, A. Elizabeth, U’Ren, Jana M., and Leslie Gunatilaka, A. A.

Abstract

Six new 6-isopentylsphaeropsidones, strobiloscyphones A–F (1–6), and a new hexadecanoic acid, (2Z,4E,6E)-8,9-dihydroxy-10-oxohexadeca-2,4,6-trienoic acid (7), together with sphaeropsidone (8) and its known synthetic analogue 5-dehydrosphaeropsidone (9) were isolated from Strobiloscyphasp. AZ0266, a fungus inhabiting the leaf litter of Douglas fir (Pseudotsuga menziesii). The structures of 1–7were established on the basis of their high-resolution mass and 1D and 2D NMR spectroscopic data, and their relative and/or absolute configurations were determined by NOE, comparison of experimental and calculated ECD spectra, and application of the modified Mosher’s ester method. Of these, strobiloscyphone F (6) contains a novel highly oxygenated tetracyclic oxireno-octahydrodibenzofuran ring system. Natural products 1, 6, and 9and the semisynthetic analogue 12derived from 8exhibited cytotoxic activity, whereas 9and 12showed antimicrobial activity. Possible biosynthetic pathways to 1–6, 8, and 9are proposed.

Published
2021
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