Your search keyword '"Arnold AE"' showing total 185 results

1. Resolving structure and function of metaorganisms through a holistic framework combining reductionist and integrative approaches

Author

Jaspers, C, Fraune, S, Arnold, AE, Miller, DJ, Bosch, TCG, and Voolstra, CR

Subjects

Nematostella, Model organism, Aiptasia, Hydra, Microbiota, Holobiont, Model system, Reductionism, Integrative approach, Holobiont, Adaptation, Model system, Model organism, Aiptasia, Hydra, Nematostella, Integrative approach, ddc:570, Reductionism, Animals, Adaptation, Symbiosis, Zoology

Abstract

Current research highlights the importance of associated microbes in contributing to the functioning, health, and even adaptation of their animal, plant, and fungal hosts. As such, we are witnessing a shift in research that moves away from focusing on the eukaryotic host sensu stricto to research into the complex conglomerate of the host and its associated microorganisms (i.e., microbial eukaryotes, archaea, bacteria, and viruses), the so-called metaorganism, as the biological entity. While recent research supports and encourages the adoption of such an integrative view, it must be understood that microorganisms are not involved in all host processes and not all associated microorganisms are functionally important. As such, our intention here is to provide a critical review and evaluation of perspectives and limitations relevant to studying organisms in a metaorganism framework and the functional toolbox available to do so. We note that marker gene-guided approaches that primarily characterize microbial diversity are a first step in delineating associated microbes but are not sufficient to establish proof of their functional relevance. More sophisticated tools and experiments are necessary to reveal the specific functions of associated microbes. This can be accomplished through the study of metaorganisms in less complex environments, the targeted manipulation of microbial associates, or work at the mechanistic level with the toolbox available in model systems. We conclude that the metaorganism framework is a powerful new concept to help provide answers to longstanding biological questions such as the evolution and ecology of organismal complexity and the importance of organismal symbioses to ecosystem functioning. The intricacy of the metaorganism requires a holistic framework combining reductionist and integrative approaches to resolve the structure and function of its member species and to disclose the various roles that microorganisms play in the biology of their hosts. published

Published

2019

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

Author

U'Ren, JM, Miadlikowska, J, Zimmerman, NB, Lutzoni, F, Stajich, JE, and Arnold, AE

Subjects

Daldinia loculata, Xylariomycetidae, Endolichenic fungi, Systematics, Xylaria cubensis, Symbiosis

Published

2016

3. Bioactive secondary metabolites from an Endolichenic Fungus, Corynespora sp. inhabiting the Cavern beard Lichen, Usnea cavernosa

Author

Paranagama, PA, primary, Wijeratne, EMK, additional, Burns, AM, additional, Marron, MT, additional, Gunatilaka, MK, additional, Arnold, AE, additional, and Gunatilaka, AAL, additional

Published

2008

4. Correspondence

Author

Kok We, Arnold Ae, and Umans Va

Subjects

medicine.medical_specialty, Percutaneous transluminal coronary angioplasty, Text mining, business.industry, Internal medicine, medicine, Cardiology, Cardiology and Cardiovascular Medicine, business, Outcome (game theory)

Published

1999

5. Familial sudden death is an important risk factor for primary ventricular fibrillation: a case-control study in acute myocardial infarction patients.

Author

Dekker LR, Bezzina CR, Henriques JP, Tanck MW, Koch KT, Alings MW, Arnold AE, de Boer MJ, Gorgels AP, Michels HR, Verkerk A, Verheugt FW, Zijlstra F, and Wilde AA

Published

2006

6. Luteibacter mycovicinus sp. nov., a yellow-pigmented gammaproteobacterium found as an endohyphal symbiont of endophytic Ascomycota.

Author

Baltrus DA, Carter M, Clark M, Smith C, Spraker J, Inderbitzin P, and Arnold AE

Subjects

Nucleic Acid Hybridization, Fatty Acids, Base Composition, Pigments, Biological metabolism, RNA, Ribosomal, 16S genetics, Phylogeny, Ascomycota genetics, Ascomycota classification, Ascomycota isolation & purification, DNA, Bacterial genetics, Endophytes genetics, Endophytes classification, Endophytes isolation & purification, Sequence Analysis, DNA, Bacterial Typing Techniques, Symbiosis

Abstract

We isolated and described a yellow-pigmented strain of bacteria (strain 9143 T ), originally characterized as an endohyphal inhabitant of an endophytic fungus in the Ascomycota. Although the full-length sequence of its 16S rRNA gene displays 99 % similarity to Luteibacter pinisoli , genomic hybridization demonstrated <30 % genomic similarity between 9143 T and its closest named relatives, further supported by average nucleotide identity results. This and related endohyphal strains form a well-supported clade separate from L. pinisoli and other validly named species including the most closely related Luteibacter rhizovicinus . The name Luteibacter mycovicinus sp. nov. is proposed, with type strain 9143 T (isolate DBL433), for which a genome has been sequenced and is publicly available from the American Type Culture Collection (ATCC TSD-257 T ) and from the Leibniz Institute DSMZ (DSM 112764 T ). The type strain reliably forms yellow colonies across diverse media and growth conditions (lysogeny broth agar, King's Medium B, potato dextrose agar, trypticase soy agar and Reasoner's 2A (R2A) agar). It forms colonies readily at 27 °C on agar with a pH of 6-8, and on salt (NaCl) concentrations up to 2 %. It lacks the ability to utilize sulphate as a sulphur source and thus only forms colonies on minimal media if supplemented with alternative sulphur sources. It is catalase-positive and oxidase-negative. Although it exhibits a single polar flagellum, motility was only clearly visible on R2A agar. Its host range and close relatives, which share the endohyphal lifestyle, are discussed.

Published

2024

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

Author

U'Ren JM, Oita S, Lutzoni F, Miadlikowska J, Ball B, Carbone I, May G, Zimmerman NB, Valle D, Trouet V, and Arnold AE

Subjects

Phylogeny, Ecosystem, Symbiosis, Biodiversity, Plants microbiology, Endophytes physiology, Lichens

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., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

8. A Global Assessment of the State of Plant Health.

Author

Acuña I, Andrade-Piedra J, Andrivon D, Armengol J, Arnold AE, Avelino J, Bandyopadhyay R, Bihon Legesse W, Bock CH, Bove F, Brenes-Arguedas T, Calonnec A, Carmona M, Carnegie AJ, Castilla NP, Chen X, Coletta-Filho HD, Coley PD, Cox KD, Davey T, Del Ponte E, Denman S, Desprez-Loustau ML, Dewdney MM, Djurle A, Drenth A, Ducousso A, Esker P, Fiaboe KM, Fourie PH, Frankel SJ, Frey P, Garcia-Figuera S, Garrett KA, Guérin M, Hardy GESJ, Hausladen H, Hu X, Hüberli D, Juzwik J, Kang Z, Kenyon L, Kreuze J, Kromann P, Kubiriba J, Kuhnem P, Kumar J, Kumar PL, Lebrun MH, Legg JP, Leon A, Ma Z, Mahuku G, Makinson RO, Marzachi C, McDonald BA, McRoberts N, Menkir A, Mikaberidze A, Munck IA, Nelson A, Nguyen NTT, O’Gara E, Ojiambo P, Ortega-Beltran A, Paul P, Pethybridge S, Pinon J, Ramsfield T, Rizzo DM, Rossi V, Safni I, Sah S, Santini A, Sautua F, Savary S, Schreinemachers P, Singh M, Spear ER, Srinivasan R, Tripathi L, Vicent A, Viljoen A, Willocquet L, Woods AJ, Wu B, Xia X, Xu X, Yuen J, Zalamea PC, and Zhou C

Subjects

Agriculture, Plants, Soil, Ecosystem, Plant Breeding

Abstract

The Global Plant Health Assessment (GPHA) is a collective, volunteer-based effort to assemble expert opinions on plant health and disease impacts on ecosystem services based on published scientific evidence. The GPHA considers a range of forest, agricultural, and urban systems worldwide. These are referred to as (Ecoregion × Plant System), i.e., selected case examples involving keystone plants in given parts of the world. The GPHA focuses on infectious plant diseases and plant pathogens, but encompasses the abiotic (e.g., temperature, drought, and floods) and other biotic (e.g., animal pests and humans) factors associated with plant health. Among the 33 (Ecoregion × Plant System) considered, 18 are assessed as in fair or poor health, and 20 as in declining health. Much of the observed state of plant health and its trends are driven by a combination of forces, including climate change, species invasions, and human management. Healthy plants ensure (i) provisioning (food, fiber, and material), (ii) regulation (climate, atmosphere, water, and soils), and (iii) cultural (recreation, inspiration, and spiritual) ecosystem services. All these roles that plants play are threatened by plant diseases. Nearly none of these three ecosystem services are assessed as improving. Results indicate that the poor state of plant health in sub-Saharan Africa gravely contributes to food insecurity and environmental degradation. Results further call for the need to improve crop health to ensure food security in the most populated parts of the world, such as in South Asia, where the poorest of the poor, the landless farmers, are at the greatest risk. The overview of results generated from this work identifies directions for future research to be championed by a new generation of scientists and revived public extension services. Breakthroughs from science are needed to (i) gather more data on plant health and its consequences, (ii) identify collective actions to manage plant systems, (iii) exploit the phytobiome diversity in breeding programs, (iv) breed for plant genotypes with resilience to biotic and abiotic stresses, and (v) design and implement plant systems involving the diversity required to ensure their adaptation to current and growing challenges, including climate change and pathogen invasions., Competing Interests: The author(s) declare no conflict of interest.

Published

2023

9. Engineered In Vitro Tumor Model Recapitulates Molecular Signatures of Invasion in Glioblastoma.

Author

Smith LJ, Skirzynska A, Chin AA, Arnold AE, Kushida M, Dirks PB, and Shoichet MS

Abstract

Glioblastoma stem cells (GSCs) play an important role in the invasive nature of glioblastoma (GBM); yet, the mechanisms driving this behavior are poorly understood. To recapitulate tumor invasion in vitro, we developed a GBM tumor-mimetic hydrogel using extracellular matrix components upregulated in patients. We show that our hydrogel facilitates the infiltration of a subset of patient-derived GSCs, differentiating samples based on phenotypic invasion. Invasive GSCs are enriched for injury-responsive pathways while noninvasive GSCs are enriched for developmental pathways, reflecting established GSC stratifications. Using small molecule inhibitors, we demonstrate that the suppression of matrix metalloprotease and rho-associated protein kinase processes results in a significant reduction of cell invasion into the hydrogel, reflecting mesenchymal- and amoeboid-dependent mechanisms. Similar reduction in cell invasion was observed by siRNA knockdown of ITGB1 and FAK focal adhesion pathways. We elucidate the transcriptomic profile of cells invading in the hydrogel by performing bulk RNA sequencing of cells cultured in the hydrogel and compare these to cells cultured in conventional tissue culture polystyrene (TCP). In our 3D hydrogel cultures, invasion-related molecular signatures along with proliferation and injury response pathways are upregulated while development processes are downregulated compared to culture on 2D TCP. With this validated in vitro model, we establish a valuable tool to find therapeutic intervention strategies against cellular invasion in glioblastoma., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

10. Communities of endophytic fungi in a Puerto Rican rainforest vary along a gradient of disturbance due to Hurricane Maria.

Author

Colón Carrión N, Troche CL, and Arnold AE

Abstract

Increases in the frequency and intensity of hurricanes influence the structure, function, and resilience of Caribbean forests. Trees in such forests harbor diverse fungal endophytes within leaves and roots. Fungal endophytes often are important for plant health and stress responses, but how their communities are impacted by hurricanes is not well known. We measured forest disturbance in Carite State Forest in Puerto Rico ca. 16 months after the passage of Hurricane Maria, a Category 4 storm. In three sites, each comprising three plots representing a local gradient of hurricane disturbance, we evaluated soil chemistry and used culture-free analyses to measure richness, phylogenetic diversity, and composition of endophyte communities in leaves and roots. We found that endophyte richness did not vary significantly among plant families or as a function of soil chemistry. Instead, leaf endophytes peaked in richness and decreased in phylogenetic diversity at intermediate levels of disturbance. Root endophytes did not show such variation, but both leaf- and root endophyte communities differed in species composition as a function of disturbance across the forest. Locations with less disturbance typically hosted distinctive assemblages of foliar endophytes, whereas more disturbed locations had more regionally homogeneous endophyte communities. Together, our results show that changes in endophyte richness and phylogenetic diversity can be detected in aboveground tissues more than a year after major storms. In turn, pervasive shifts in endophyte community composition both aboveground and belowground suggest a subtle and lasting effect of hurricanes that merits further study, potentially contributing to the promotion of spatially heterogeneous endophyte assemblages at a landscape scale in these diverse island forests., Competing Interests: No potential conflict of interest was identified by the authors., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2022

11. Mycology: Metagenomes illuminate evolutionary relationships and reframe symbiotic interactions.

Author

Arnold AE

Abstract

An intriguing new study leverages newly generated metagenomes to remap the evolution of the most species-rich clade of fungi, highlighting how some of the most intriguing and visible manifestations of symbioses - lichens - may arise., Competing Interests: Declaration of interests The author declares no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

12. Wild microbiomes of striped plateau lizards vary with reproductive season, sex, and body size.

Author

Bunker ME, Arnold AE, and Weiss SL

Subjects

Animals, Female, Male, Seasons, RNA, Ribosomal, 16S genetics, Reproduction, Body Size, Lizards, Microbiota

Abstract

Long-term studies of animal microbiomes under natural conditions are valuable for understanding the effects of host demographics and environmental factors on host-associated microbial communities, and how those effects interact and shift over time. We examined how the cloacal microbiome of wild Sceloporus virgatus (the striped plateau lizard) varies under natural conditions in a multi-year study. Cloacal swabs were collected from wild-caught lizards across their entire active season and over three years in southeastern Arizona, USA. Analyses of 16S rRNA data generated on the Illumina platform revealed that cloacal microbiomes of S. virgatus vary as a function of season, sex, body size, and reproductive state, and do so independently of one another. Briefly, microbial diversity was lowest in both sexes during the reproductive season, was higher in females than in males, and was lowest in females when they were vitellogenic, and microbiome composition varied across seasons, sexes, and sizes. The pattern of decreased diversity during reproductive periods with increased sociality is surprising, as studies in other systems often suggest that microbial diversity generally increases with sociality. The cloacal microbiome was not affected significantly by hibernation and was relatively stable from year to year. This study highlights the importance of long term, wide-scale microbiome studies for capturing accurate perspectives on microbiome diversity and composition in animals. It also serves as a warning for comparisons of microbiomes across species, as each may be under a different suite of selective pressures or exhibit short-term variation from external or innate factors, which may differ in a species-specific manner., (© 2022. The Author(s).)

Published

2022

13. Acrogenospora terricola sp. nov., a fungal species associated with seeds of pioneer trees in the soil seed bank of a lowland forest in Panama.

Author

Harrington AH, Sarmiento C, Zalamea PC, Dalling JW, Davis AS, and Arnold AE

Subjects

Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Fatty Acids chemistry, Forests, Phylogeny, RNA, Ribosomal, 16S genetics, Seeds microbiology, Sequence Analysis, DNA, Soil, Tropical Climate, Panama, Ascomycota, Seed Bank

Abstract

As currently circumscribed, Acrogenospora (Acrogenosporaceae, Minutisphaerales, Dothideomycetes) is a genus of saprobic hyphomycetes with distinctive conidia. Although considered common and cosmopolitan, the genus is poorly represented by sequence data, and no neotropical representatives are present in public sequence databases. Consequently, Acrogenospora has been largely invisible to ecological studies that rely on sequence-based identification. As part of an effort to identify fungi collected during ecological studies, we identified strains of Acrogenospora isolated in culture from seeds in the soil seed bank of a lowland tropical forest in Panama. Here we describe Acrogenospora terricola sp. nov. based on morphological and phylogenetic analyses. We confirm that the genus has a pantropical distribution. The observation of Acrogenospora infecting seeds in a terrestrial environment contrasts with previously described species in the genus, most of which occur on decaying wood in freshwater environments. This work highlights the often hidden taxonomic value of collections derived from ecological studies of fungal communities and the ways in which rich sequence databases can shed light on the identity, distributions and diversity of cryptic microfungi.

Published

2022

14. Traits along the leaf economics spectrum are associated with communities of foliar endophytic symbionts.

Author

Tellez PH, Arnold AE, Leo AB, Kitajima K, and Van Bael SA

Abstract

Leaf traits of plants worldwide are classified according to the Leaf Economics Spectrum (LES), which links leaf functional traits to evolutionary life history strategies. As a continuum ranging from thicker, tough leaves that are low in nitrogen (N) to thinner, softer, leaves that are high in N, the LES brings together physical, chemical, and ecological traits. Fungal endophytes are common foliar symbionts that occur in healthy, living leaves, especially in tropical forests. Their community composition often differs among co-occurring host species in ways that cannot be explained by environmental conditions or host phylogenetic relationships. Here, we tested the over-arching hypothesis that LES traits act as habitat filters that shape communities of endophytes both in terms of composition, and in terms of selecting for endophytes with particular suites of functional traits. We used culture-based and culture-free surveys to characterize foliar endophytes in mature leaves of 30 phylogenetically diverse plant species with divergent LES traits in lowland Panama, and then measured functional traits of dominant endophyte taxa in vitro . Endophytes were less abundant and less diverse in thick, tough, leaves compared to thin, softer, leaves in the same forest, even in closely related plants. Endophyte communities differed according to leaf traits, including leaf punch strength and carbon and nitrogen content. The most common endophyte taxa in leaves at different ends of the LES differ in their cellulase, protease, chitinase, and antipathogen activity. Our results extend the LES framework for the first time to diverse and ecologically important endophytes, opening new hypotheses regarding the degree to which foliar symbionts respond to, and extend, the functional traits of leaves they inhabit., 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 © 2022 Tellez, Arnold, Leo, Kitajima and Van Bael.)

Published

2022

15. Comparative transcriptomics of fungal endophytes in co-culture with their moss host Dicranum scoparium reveals fungal trophic lability and moss unchanged to slightly increased growth rates.

Author

Chen KH, Liao HL, Arnold AE, Korotkin HB, Wu SH, Matheny PB, and Lutzoni F

Subjects

Coculture Techniques, Endophytes, Fungi genetics, Transcriptome genetics, Ascomycota genetics, Bryophyta genetics, Bryopsida genetics

Abstract

Mosses harbor fungi whose interactions within their hosts remain largely unexplored. Trophic ranges of fungal endophytes from the moss Dicranum scoparium were hypothesized to encompass saprotrophism. This moss is an ideal host to study fungal trophic lability because of its natural senescence gradient, and because it can be grown axenically. Dicranum scoparium was co-cultured with each of eight endophytic fungi isolated from naturally occurring D. scoparium. Moss growth rates, and gene expression levels (RNA sequencing) of fungi and D. scoparium, were compared between axenic and co-culture treatments. Functional lability of two fungal endophytes was tested by comparing their RNA expression levels when colonizing living vs dead gametophytes. Growth rates of D. scoparium were unchanged, or increased, when in co-culture. One fungal isolate (Hyaloscyphaceae sp.) that promoted moss growth was associated with differential expression of auxin-related genes. When grown with living vs dead gametophytes, Coniochaeta sp. switched from having upregulated carbohydrate transporter activity to upregulated oxidation-based degradation, suggesting an endophytism to saprotrophism transition. However, no such transition was detected for Hyaloscyphaceae sp. Individually, fungal endophytes did not negatively impact growth rates of D. scoparium. Our results support the long-standing hypothesis that some fungal endophytes can switch to saprotrophism., (© 2022 The Authors. New Phytologist © 2022 New Phytologist Foundation.)

Published

2022

16. Transcriptional Profiles of a Foliar Fungal Endophyte ( Pestalotiopsis , Ascomycota) and Its Bacterial Symbiont ( Luteibacter , Gammaproteobacteria ) Reveal Sulfur Exchange and Growth Regulation during Early Phases of Symbiotic Interaction.

Author

Shaffer JP, Carter ME, Spraker JE, Clark M, Smith BA, Hockett KL, Baltrus DA, and Arnold AE

Subjects

Symbiosis, Endophytes, Pestalotiopsis, Bacteria genetics, Plants, Methionine, Gammaproteobacteria, Type VI Secretion Systems, Ascomycota genetics, Fungi, Unclassified, Xanthomonadaceae

Abstract

Symbiosis with bacteria is widespread among eukaryotes, including fungi. Bacteria that live within fungal mycelia (endohyphal bacteria) occur in many plant-associated fungi, including diverse Mucoromycota and Dikarya. Pestalotiopsis sp. strain 9143 is a filamentous ascomycete isolated originally as a foliar endophyte of Platycladus orientalis (Cupressaceae). It is infected naturally with the endohyphal bacterium Luteibacter sp. strain 9143, which influences auxin and enzyme production by its fungal host. Previous studies have used transcriptomics to examine similar symbioses between endohyphal bacteria and root-associated fungi such as arbuscular mycorrhizal fungi and plant pathogens. However, currently there are no gene expression studies of endohyphal bacteria of Ascomycota, the most species-rich fungal phylum. To begin to understand such symbioses, we developed methods for assessing gene expression by Pestalotiopsis sp. and Luteibacter sp. when grown in coculture and when each was grown axenically. Our assays showed that the density of Luteibacter sp. in coculture was greater than in axenic culture, but the opposite was true for Pestalotiopsis sp. Dual-transcriptome sequencing (RNA-seq) data demonstrate that growing in coculture modulates developmental and metabolic processes in both the fungus and bacterium, potentially through changes in the balance of organic sulfur via methionine acquisition. Our analyses also suggest an unexpected, potential role of the bacterial type VI secretion system in symbiosis establishment, expanding current understanding of the scope and dynamics of fungal-bacterial symbioses. IMPORTANCE Interactions between microbes and their hosts have important outcomes for host and environmental health. Foliar fungal endophytes that infect healthy plants can harbor facultative endosymbionts called endohyphal bacteria, which can influence the outcome of plant-fungus interactions. These bacterial-fungal interactions can be influential but are poorly understood, particularly from a transcriptome perspective. Here, we report on a comparative, dual-RNA-seq study examining the gene expression patterns of a foliar fungal endophyte and a facultative endohyphal bacterium when cultured together versus separately. Our findings support a role for the fungus in providing organic sulfur to the bacterium, potentially through methionine acquisition, and the potential involvement of a bacterial type VI secretion system in symbiosis establishment. This work adds to the growing body of literature characterizing endohyphal bacterial-fungal interactions, with a focus on a model facultative bacterial-fungal symbiosis in two species-rich lineages, the Ascomycota and Proteobacteria .

Published

2022

17. Bacterial-fungal interactions: Bacteria take up residence in the house that Fungi built.

Author

Arnold AE

Subjects

Bacteria, Fungi

Abstract

Interactions between bacteria and fungi are widespread in nature. New work shows that bacteria not known to have an endofungal lifestyle can take advantage of environmentally resistant fungal structures that are induced by lipopeptides from other bacteria. Diverse bacterial communities can flourish in these refugia to survive stressful conditions., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

18. Community dynamics of soil-borne fungal communities along elevation gradients in neotropical and palaeotropical forests.

Author

Geml J, Arnold AE, Semenova-Nelsen TA, Nouhra ER, Drechsler-Santos ER, Góes-Neto A, Morgado LN, Ódor P, Hegyi B, Oriol G, Ibáñez A, Tedersoo L, and Lutzoni F

Subjects

Biodiversity, Forests, Fungi, Plants, Soil chemistry, Soil Microbiology, Mycobiome, Mycorrhizae genetics

Abstract

Because of their steep gradients in abiotic and biotic factors, mountains offer an ideal setting to illuminate the mechanisms that underlie patterns of species distributions and community assembly. We compared the composition of taxonomically and functionally diverse fungal communities in soils along five elevational gradients in mountains of the Neo- and Palaeotropics (northern Argentina, southern Brazil, Panama, Malaysian Borneo and Papua New Guinea). Both the richness and composition of soil fungal communities reflect environmental factors, particularly temperature and soil pH, with some shared patterns among neotropical and palaeotropical regions. Community dynamics are characterized by replacement of species along elevation gradients, implying a relatively narrow elevation range for most fungi, which appears to be driven by contrasting environmental preferences among both functional and taxonomic groups. For functional groups dependent on symbioses with plants (especially ectomycorrhizal fungi), the distribution of host plants drives richness and community composition, resulting in important differences in elevational patterns between neotropical and palaeotropical montane communities. The pronounced compositional and functional turnover along elevation gradients implies that tropical montane forest fungi will be sensitive to climate change, resulting in shifts in composition and functionality over time., (© 2022 John Wiley & Sons Ltd.)

Published

2022

19. Endophytism and endolichenism in Pezizomycetes: the exception or the rule?

Author

Healy RA, Arnold AE, Bonito G, Huang YL, Lemmond B, Pfister DH, and Smith ME

Subjects

Endophytes, Fungi, Symbiosis, Ascomycota

Published

2022

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

Author

Franco MEE, Wisecaver JH, Arnold AE, Ju YM, Slot JC, Ahrendt S, Moore LP, Eastman KE, Scott K, Konkel Z, Mondo SJ, Kuo A, Hayes RD, Haridas S, Andreopoulos B, Riley R, LaButti K, Pangilinan J, Lipzen A, Amirebrahimi M, Yan J, Adam C, Keymanesh K, Ng V, Louie K, Northen T, Drula E, Henrissat B, Hsieh HM, Youens-Clark K, Lutzoni F, Miadlikowska J, Eastwood DC, Hamelin RC, Grigoriev IV, and U'Ren JM

Subjects

Endophytes, Fungi, Multigene Family, Symbiosis genetics, Lichens microbiology, Xylariales

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., (© 2021 The Authors. New Phytologist © 2021 New Phytologist Foundation. This article has been contributed to by US Government employees and their work is in the public domain in the USA.)

Published

2022

21. Drivers and implications of distance decay differ for ectomycorrhizal and foliar endophytic fungi across an anciently fragmented landscape.

Author

Bowman EA and Arnold AE

Subjects

Biodiversity, Endophytes genetics, Forests, Fungi genetics, Trees, Mycobiome, Mycorrhizae

Abstract

Fungal communities associated with plants often decrease in similarity as the distance between sampling sites increases (i.e., they demonstrate distance decay). In the southwestern USA, forests occur in highlands separated from one another by warmer, drier biomes with plant and fungal communities that differ from those at higher elevations. These disjunct forests are broadly similar in climate to one another, offering an opportunity to examine drivers of distance decay in plant-associated fungi across multiple ecologically similar yet geographically disparate landscapes. We examined ectomycorrhizal and foliar endophytic fungi associated with a dominant forest tree (Pinus ponderosa) in forests across ca. 550 km of geographic distance from northwestern to southeastern Arizona (USA). Both guilds of fungi showed distance decay, but drivers differed for each: ectomycorrhizal fungi are constrained primarily by dispersal limitation, whereas foliar endophytes are constrained by specific environmental conditions. Most ectomycorrhizal fungi were found in only a single forested area, as were many endophytic fungi. Such regional-scale perspectives are needed for baseline estimates of fungal diversity associated with forest trees at a landscape scale, with attention to the sensitivity of different guilds of fungal symbionts to decreasing areas of suitable habitat, increasing disturbance, and related impacts of climate change., (© 2021. The Author(s), under exclusive licence to International Society for Microbial Ecology.)

Published

2021

22. Coniochaeta elegans sp. nov., Coniochaeta montana sp. nov. and Coniochaeta nivea sp. nov., three new species of endophytes with distinctive morphology and functional traits.

Author

Arnold AE, Harrington AH, Huang YL, U'Ren JM, Massimo NC, Knight-Connoni V, and Inderbitzin P

Subjects

Animals, Canada, DNA, Fungal genetics, DNA, Ribosomal Spacer genetics, Endophytes classification, Endophytes isolation & purification, Mycological Typing Techniques, Sequence Analysis, DNA, Sweden, United States, Ascomycota classification, Ascomycota isolation & purification, Phylogeny

Abstract

A growing interest in fungi that occur within symptom-less plants and lichens (endophytes) has uncovered previously uncharacterized species in diverse biomes worldwide. In many temperate and boreal forests, endophytic Coniochaeta (Sacc.) Cooke ( Coniochaetaceae , Coniochaetales, Sordariomycetes , Ascomycota ) are commonly isolated on standard media, but rarely are characterized. We examined 26 isolates of Coniochaeta housed at the Gilbertson Mycological Herbarium. The isolates were collected from healthy photosynthetic tissues of conifers, angiosperms, mosses and lichens in Canada, Sweden and the United States. Their barcode sequences (nuclear ribosomal internal transcribed spacer and 5.8S; ITS rDNA) were ≤97% similar to any documented species available through GenBank. Phylogenetic analyses based on two loci (ITS rDNA and translation elongation factor 1-alpha) indicated that two isolates represented Coniochaeta cymbiformispora , broadening the ecological niche and geographic range of a species known previously from burned soil in Japan. The remaining 24 endophytes represented three previously undescribed species that we characterize here: Coniochaeta elegans sp. nov., Coniochaeta montana sp. nov. and Coniochaeta nivea sp. nov. Each has a wide host range, including lichens, bryophytes and vascular plants. C. elegans sp. nov. and C. nivea sp. nov. have wide geographic ranges. C. montana sp. nov. occurs in the Madrean biome of Arizona (USA), where it is sympatric with the other species described here. All three species display protease, chitinase and cellulase activity in vitro . Overall, this study provides insight into the ecological and evolutionary diversity of Coniochaeta and suggests that these strains may be amenable for studies of traits relevant to a horizontally transmitted, symbiotic lifestyle.

Published

2021

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

Author

Qu W, Kithsiri Wijeratne EM, Bashyal BP, Xu J, Xu YM, Liu MX, Inácio MC, Arnold AE, U'Ren JM, and Leslie Gunatilaka AA

Subjects

Anti-Infective Agents isolation & purification, Anti-Infective Agents pharmacology, Antineoplastic Agents isolation & purification, Antineoplastic Agents pharmacology, Arizona, Cell Line, Tumor, Diterpenes isolation & purification, Furans isolation & purification, Humans, Microbial Sensitivity Tests, Molecular Structure, Palmitic Acid isolation & purification, Plant Leaves microbiology, Ascomycota chemistry, Diterpenes pharmacology, Furans pharmacology, Pseudotsuga microbiology

Abstract

Six new 6-isopentylsphaeropsidones, strobiloscyphones A-F ( 1 - 6 ), and a new hexadecanoic acid, (2 Z ,4 E ,6 E )-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 Strobiloscypha sp. AZ0266, a fungus inhabiting the leaf litter of Douglas fir ( Pseudotsuga menziesii ). The structures of 1 - 7 were 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 9 and the semisynthetic analogue 12 derived from 8 exhibited cytotoxic activity, whereas 9 and 12 showed antimicrobial activity. Possible biosynthetic pathways to 1 - 6 , 8 , and 9 are proposed.

Published

2021

24. Methodological Approaches Frame Insights into Endophyte Richness and Community Composition.

Author

Oita S, Carey J, Kline I, Ibáñez A, Yang N, Hom EFY, Carbone I, U'Ren JM, and Arnold AE

Subjects

Phylogeny, Plant Leaves, Plants, Endophytes genetics, Fungi genetics

Abstract

Isolating microbes is vital to study microbiomes, but insights into microbial diversity and ecology can be constrained by recalcitrant or unculturable strains. Culture-free methods (e.g., next-generation sequencing, NGS) have become popular in part because they detect greater richness than culturing alone. Both approaches are used widely to characterize microfungi within healthy leaves (foliar endophytes), but methodological differences among studies can constrain large-scale insights into endophyte ecology. We examined endophytes in a temperate plant community to quantify how certain methodological factors, such as the choice of cultivation media for culturing and storage period after leaf collection, affect inferences regarding endophyte communities; how such effects vary among plant taxa; and how complementary culturing and NGS can be when subsets of the same plant tissue are used for each. We found that endophyte richness and composition from culturing were consistent across five media types. Insights from culturing and NGS were largely robust to differences in storage period (1, 5, and 10 days). Although endophyte richness, composition, and taxonomic diversity identified via culturing vs. NGS differed markedly, both methods revealed host-structured communities. Studies differing only in cultivation media or storage period thus can be compared to estimate endophyte richness, composition, and turnover at scales larger than those of individual studies alone. Our data show that it is likely more important to sample more host species, rather than sampling fewer species more intensively, to quantify endophyte diversity in given locations, with the richest insights into endophyte ecology emerging when culturing and NGS are paired., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature.)

Published

2021

25. Vertically transmitted microbiome protects eggs from fungal infection and egg failure.

Author

Bunker ME, Elliott G, Heyer-Gray H, Martin MO, Arnold AE, and Weiss SL

Abstract

Background: Beneficial microbes can be vertically transmitted from mother to offspring in many organisms. In oviparous animals, bacterial transfer to eggs may improve egg success by inhibiting fungal attachment and infection from pathogenic microbes in the nest environment. Vertical transfer of these egg-protective bacteria may be facilitated through behavioral mechanisms such as egg-tending, but many species do not provide parental care. Thus, an important mechanism of vertical transfer may be the passage of the egg through the maternal cloaca during oviposition itself. In this study, we examined how oviposition affects eggshell microbial communities, fungal attachment, hatch success, and offspring phenotype in the striped plateau lizard, Sceloporus virgatus, a species with no post-oviposition parental care., Results: Relative to dissected eggs that did not pass through the cloaca, oviposited eggs had more bacteria and fewer fungal hyphae when examined with a scanning electron microscope. Using high throughput Illumina sequencing, we also found a difference in the bacterial communities of eggshells that did and did not pass through the cloaca, and the diversity of eggshell communities tended to correlate with maternal cloacal diversity only for oviposited eggs, and not for dissected eggs, indicating that vertical transmission of microbes is occurring. Further, we found that oviposited eggs had greater hatch success and led to larger offspring than those that were dissected., Conclusions: Overall, our results indicate that female S. virgatus lizards transfer beneficial microbes from their cloaca onto their eggs during oviposition, and that these microbes reduce fungal colonization and infection of eggs during incubation and increase female fitness. Cloacal transfer of egg-protective bacteria may be common among oviparous species, and may be especially advantageous to species that lack parental care.

Published

2021

26. Climate and seasonality drive the richness and composition of tropical fungal endophytes at a landscape scale.

Author

Oita S, Ibáñez A, Lutzoni F, Miadlikowska J, Geml J, Lewis LA, Hom EFY, Carbone I, U'Ren JM, and Arnold AE

Subjects

Symbiosis, Biota, Endophytes classification, Fungi classification, Plant Leaves microbiology, Rainforest, Seasons, Trees microbiology, Tropical Climate

Abstract

Understanding how species-rich communities persist is a foundational question in ecology. In tropical forests, tree diversity is structured by edaphic factors, climate, and biotic interactions, with seasonality playing an essential role at landscape scales: wetter and less seasonal forests typically harbor higher tree diversity than more seasonal forests. We posited that the abiotic factors shaping tree diversity extend to hyperdiverse symbionts in leaves-fungal endophytes-that influence plant health, function, and resilience to stress. Through surveys in forests across Panama that considered climate, seasonality, and covarying biotic factors, we demonstrate that endophyte richness varies negatively with temperature seasonality. Endophyte community structure and taxonomic composition reflect both temperature seasonality and climate (mean annual temperature and precipitation). Overall our findings highlight the vital role of climate-related factors in shaping the hyperdiversity of these important and little-known symbionts of the trees that, in turn, form the foundations of tropical forest biodiversity.

Published

2021

27. Teratopyrones A-C, Dimeric Naphtho-γ-Pyrones and Other Metabolites from Teratosphaeria sp. AK1128, a Fungal Endophyte of Equisetum arvense .

Author

Xu YM, Arnold AE, U Ren JM, Xuan LJ, Wang WQ, and Gunatilaka AAL

Subjects

Ascomycota metabolism, Endophytes metabolism, Female, Humans, MCF-7 Cells, Male, Neoplasms metabolism, Neoplasms pathology, PC-3 Cells, Antineoplastic Agents chemistry, Antineoplastic Agents isolation & purification, Antineoplastic Agents pharmacology, Ascomycota chemistry, Endophytes chemistry, Equisetum microbiology, Neoplasms drug therapy, Pyrones chemistry, Pyrones isolation & purification, Pyrones pharmacology

Abstract

Bioassay-guided fractionation of a cytotoxic extract derived from a solid potato dextrose agar (PDA) culture of Teratosphaeria sp. AK1128, a fungal endophyte of Equisetum arvense , afforded three new naphtho-γ-pyrone dimers, teratopyrones A-C ( 1 - 3 ), together with five known naphtho-γ-pyrones, aurasperone B ( 4 ), aurasperone C ( 5 ), aurasperone F ( 6 ), nigerasperone A ( 7 ), and fonsecin B ( 8 ), and two known diketopiperazines, asperazine ( 9 ) and isorugulosuvine ( 10 ). The structures of 1 - 3 were determined on the basis of their spectroscopic data. Cytotoxicity assay revealed that nigerasperone A ( 7 ) was moderately active against the cancer cell lines PC-3M (human metastatic prostate cancer), NCI-H460 (human non-small cell lung cancer), SF-268 (human CNS glioma), and MCF-7 (human breast cancer), with IC 50 s ranging from 2.37 to 4.12 μM while other metabolites exhibited no cytotoxic activity up to a concentration of 5.0 μM.

Published

2020

28. An epigenetic modifier induces production of 3-(4-oxopyrano)-chromen-2-ones in Aspergillus sp. AST0006, an endophytic fungus of Astragalus lentiginosus .

Author

de Amorim MR, Wijeratne EMK, Zhou S, Arnold AE, Batista ANL, Batista JM Jr, Dos Santos LC, and Gunatilaka AAL

Abstract

Incorporation of the epigenetic modifier suberoylanilide hydroxamic acid (SAHA) into a potato dextrose broth culture of the endophytic fungus Aspergillus sp. AST0006 affected its polyketide biosynthetic pathway providing two new 3-(4-oxopyrano)-chromen-2-ones, aspyranochromenones A ( 1 ) and B ( 2 ), and the isocoumarin, (-)-6,7-dihydroxymellein ( 3 ). Eight additional metabolites ( 4 - 11 ) and two biotransformation products of SAHA ( 12 - 13 ) were also encountered. The planar structures and relative configurations of the new metabolites 1 - 2 were elucidated with the help of high-resolution mass, 1D and 2D NMR spectroscopic data and the absolute configurations of 1 - 3 were determined by comparison of experimental and calculated ECD data. Possible biosynthetic pathways to 1 and 2 are presented., Competing Interests: Declaration of interests 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.

Published

2020

29. Attenuated diphtheria toxin mediates siRNA delivery.

Author

Arnold AE, Smith LJ, Beilhartz GL, Bahlmann LC, Jameson E, Melnyk RA, and Shoichet MS

Subjects

Endosomes metabolism, Humans, Lysosomes metabolism, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Diphtheria Toxin genetics, Diphtheria Toxin metabolism, Endocytosis

Abstract

Toxins efficiently deliver cargo to cells by binding to cell surface ligands, initiating endocytosis, and escaping the endolysosomal pathway into the cytoplasm. We took advantage of this delivery pathway by conjugating an attenuated diphtheria toxin to siRNA, thereby achieving gene downregulation in patient-derived glioblastoma cells. We delivered siRNA against integrin-β1 ( ITGB1 )-a gene that promotes invasion and metastasis-and siRNA against eukaryotic translation initiation factor 3 subunit b ( eIF-3b )-a survival gene. We demonstrated mRNA downregulation of both genes and the corresponding functional outcomes: knockdown of ITGB1 led to a significant inhibition of invasion, shown with an innovative 3D hydrogel model; and knockdown of eIF-3b resulted in significant cell death. This is the first example of diphtheria toxin being used to deliver siRNAs, and the first time a toxin-based siRNA delivery strategy has been shown to induce relevant genotypic and phenotypic effects in cancer cells., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

30. Diversity and distribution of microbial communities in floral nectar of two night-blooming plants of the Sonoran Desert.

Author

von Arx M, Moore A, Davidowitz G, and Arnold AE

Subjects

Arizona, Flowers microbiology, Plant Nectar, Agave microbiology, Datura microbiology, Desert Climate, Microbiota

Abstract

Nectar-inhabiting microbes are increasingly appreciated as important components of plant-pollinator interactions. We quantified the incidence, abundance, diversity, and composition of bacterial and fungal communities in floral nectar of two night-blooming plants of the Sonoran Desert over the course of a flowering season: Datura wrightii (Solanaceae), which is pollinated by hawkmoths, and Agave palmeri (Agavaceae), which is pollinated by bats but visited by hawkmoths that forage for nectar. We examined the relevance of growing environment (greenhouse vs. field), time (before and after anthesis), season (from early to late in the flowering season), and flower visitors (excluded via mesh sleeves or allowed to visit flowers naturally) in shaping microbial assemblages in nectar. We isolated and identified bacteria and fungi from >300 nectar samples to estimate richness and taxonomic composition. Our results show that microbes were common in D. wrightii and A. palmeri nectar in the greenhouse but more so in field environments, both before and especially after anthesis. Bacteria were isolated more frequently than fungi. The abundance of microbes in nectar of D. wrightii peaked near the middle of the flowering season. Microbes generally were more abundant as time for floral visitation increased. The composition of bacterial and especially fungal communities differed significantly between nectars of D. wrightii and A. palmeri, opening the door to future studies examining their functional roles in shaping nectar chemistry, attractiveness, and pollinator specialization., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

31. Host availability drives distributions of fungal endophytes in the imperilled boreal realm.

Author

U'Ren JM, Lutzoni F, Miadlikowska J, Zimmerman NB, Carbone I, May G, and Arnold AE

Subjects

North America, Phylogeny, Symbiosis, Ecosystem, Endophytes

Abstract

Boreal forests represent the world's largest terrestrial biome and provide ecosystem services of global importance. Highly imperilled by climate change, these forests host Earth's greatest phylogenetic diversity of endophytes, a hyperdiverse group of symbionts that are defined by their occurrence within living, symptomless plant and lichen tissues. Endophytes shape the ecological and evolutionary trajectories of plants and are therefore key to the function and resilience of terrestrial ecosystems. A critical step in linking the ecological functions of endophytes with those of their hosts is to understand the distributions of these symbionts at the global scale; however, turnover in host taxa with geography and climate can confound insights into endophyte biogeography. As a result, global drivers of endophyte diversity and distributions are not known. Here, we leverage sampling from phylogenetically diverse boreal plants and lichens across North America and Eurasia to show that host filtering in distinctive environments, rather than turnover with geographical or environmental distance, is the main determinant of the community composition and diversity of endophytes. We reveal the distinctiveness of boreal endophytes relative to soil fungi worldwide and endophytes from diverse temperate biomes, highlighting a high degree of global endemism. Overall, the distributions of endophytes are directly linked to the availability of compatible hosts, highlighting the role of biotic interactions in shaping fungal communities across large spatial scales, and the threat that climate change poses to biological diversity and function in the imperilled boreal realm.

Published

2019

32. Effect of Sugar 2',4'-Modifications on Gene Silencing Activity of siRNA Duplexes.

Author

Malek-Adamian E, Fakhoury J, Arnold AE, Martínez-Montero S, Shoichet MS, and Damha MJ

Subjects

Argonaute Proteins antagonists & inhibitors, Humans, Models, Molecular, Nucleic Acid Conformation, Nucleotides chemistry, Nucleotides genetics, RNA Interference drug effects, RNA, Double-Stranded, RNA, Small Interfering antagonists & inhibitors, Uridine chemistry, Argonaute Proteins genetics, Gene Silencing, RNA, Small Interfering genetics, Sugars chemistry

Abstract

In this study, we explore the effect of a library of 2'-, 4'-, and 2',4'-modified uridine nucleosides and their impact on silencing firefly luciferase and on down-regulated in renal cell carcinoma (DRR) gene targets. The modifications studied were 2'-F-ribose, 2'-F-arabinose, 2'-OMe-ribose, 2'-F,4'-OMe-ribose, 2'-F,4'-OMe-arabinose, and 2'-OMe,4'-F-ribose. We found that 2',4'-modifications are well tolerated within A-form RNA duplexes, leading to virtually no change in melting temperature as assessed by UV thermal melting. The impact of the dual (2',4') modification was assessed by comparing gene silencing ability to 2'- or 4'- (singly) modified siRNA counterparts. siRNAs with (2',4')-modified overhangs generally outperformed the native siRNA as well as siRNAs with a 2'- or 4'-modified overhang, suggesting that 2',4'-modified nucleotides interact favorably with Argonaute protein's PAZ domain. Among the most active siRNAs were those with 2'-F,4'-OMe-ribose or 2'-F,4'-OMe-arabinose at the overhangs. When modifications were placed at both overhangs and internal positions, a duplex with the 2'-F (internal) and 2'-F,4'-OMe (overhang) combination was found to be the most potent, followed by the duplex with 2'-OMe (internal) and 2',4'-diOMe (overhang) modifications. Given the nuclease resistance exhibited by 2',4'-modified siRNAs, particularly when the modification is placed at or near the overhangs, these findings may allow the creation of superior siRNAs for therapy.

Published

2019

33. Complete Genome Sequence of Luteibacter pinisoli MAH-14.

Author

Baltrus DA, Clark M, Inderbitzin P, Pignatta D, Knight-Connoni V, and Arnold AE

Abstract

Diverse strains of Luteibacter ( Gammaproteobacteria ) have been isolated from a variety of environments, most frequently in association with both plants and fungi. Motivated by the lack of genomic information for strains throughout the genus Luteibacter, we report here a complete genome sequence for Luteibacter pinisoli strain MAH-14., (Copyright © 2019 Baltrus et al.)

Published

2019

34. T-BAS Version 2.1: Tree-Based Alignment Selector Toolkit for Evolutionary Placement of DNA Sequences and Viewing Alignments and Specimen Metadata on Curated and Custom Trees.

Author

Carbone I, White JB, Miadlikowska J, Arnold AE, Miller MA, Magain N, U'Ren JM, and Lutzoni F

Abstract

The Tree-Based Alignment Selector (T-BAS) toolkit combines phylogenetic-based placement of DNA sequences with alignment and specimen metadata visualization tools in an integrative pipeline for analyzing microbial biodiversity. The release of T-BAS version 2.1 makes available reference phylogenies, supports multilocus sequence placements and permits uploading and downloading trees, alignments, and specimen metadata., (Copyright © 2019 Carbone et al.)

Published

2019

35. Resolving structure and function of metaorganisms through a holistic framework combining reductionist and integrative approaches.

Author

Jaspers C, Fraune S, Arnold AE, Miller DJ, Bosch TCG, and Voolstra CR

Subjects

Animals, Symbiosis, Microbiota

Abstract

Current research highlights the importance of associated microbes in contributing to the functioning, health, and even adaptation of their animal, plant, and fungal hosts. As such, we are witnessing a shift in research that moves away from focusing on the eukaryotic host sensu stricto to research into the complex conglomerate of the host and its associated microorganisms (i.e., microbial eukaryotes, archaea, bacteria, and viruses), the so-called metaorganism, as the biological entity. While recent research supports and encourages the adoption of such an integrative view, it must be understood that microorganisms are not involved in all host processes and not all associated microorganisms are functionally important. As such, our intention here is to provide a critical review and evaluation of perspectives and limitations relevant to studying organisms in a metaorganism framework and the functional toolbox available to do so. We note that marker gene-guided approaches that primarily characterize microbial diversity are a first step in delineating associated microbes but are not sufficient to establish proof of their functional relevance. More sophisticated tools and experiments are necessary to reveal the specific functions of associated microbes. This can be accomplished through the study of metaorganisms in less complex environments, the targeted manipulation of microbial associates, or work at the mechanistic level with the toolbox available in model systems. We conclude that the metaorganism framework is a powerful new concept to help provide answers to longstanding biological questions such as the evolution and ecology of organismal complexity and the importance of organismal symbioses to ecosystem functioning. The intricacy of the metaorganism requires a holistic framework combining reductionist and integrative approaches to resolve the structure and function of its member species and to disclose the various roles that microorganisms play in the biology of their hosts., (Copyright © 2019 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published

2019

36. Age-related variation in the oral microbiome of urban Cooper's hawks (Accipiter cooperii).

Author

Taylor MJ, Mannan RW, U'Ren JM, Garber NP, Gallery RE, and Arnold AE

Subjects

Age Factors, Animals, Arizona, Female, Hydrogen-Ion Concentration, Male, Mouth chemistry, Hawks microbiology, Microbiota, Mouth microbiology

Abstract

Background: Bird species worldwide are affected by trichomoniasis caused by the protist Trichomonas gallinae. In avivorous raptors such as Cooper's hawks (Accipiter cooperii), nestlings are more susceptible than fledglings and adults. Previous research suggested a link between oral pH and susceptibility: the oral pH of fledgling and adult hawks is more than seven times more acidic than that of nestlings. We speculated that this age-specific difference in pH would correspond to age-specific differences in the oral microbiota of Cooper's hawks. We examined the oral microbiomes of 31 healthy, wild Cooper's hawks in Tucson, Arizona (USA). Individuals represented three age classes (nestlings, fledglings, and adults). We designed our study with multiple controls, replicated sampling, mock communities, and stringent quality-controls to address challenges that can limit the inferential quality of microbiome data sets., Results: Richness of bacterial communities in oral cavities of Cooper's hawks differed as a function of age but not as a function of sex, sampling date, or sampling location. Bacterial communities in oral cavities of nestlings differed from those of fledglings and adults, whereas communities in fledglings and adults did not differ from each other. Communities were similar in males and females and did not differ over the sampling season. Prevalence of acid-producing bacteria in fledgling and adults vs. nestlings is consistent with previous reports of age-specific variation in oral pH, but further research is needed to establish a causal link to pH levels or susceptibility to disease. Analyses of mock communities demonstrated high repeatability and showed that operon number and read abundance were highly correlated., Conclusions: The oral microbiota of wild Cooper's hawks differs between nestlings and older birds. Variation in the oral microbiome is consistent with differences in oral pH between nestlings and older individuals. Overall our study provides a first perspective on bacterial communities associated with oral cavities of a wild raptor.

Published

2019

37. Contemporaneous radiations of fungi and plants linked to symbiosis.

Author

Lutzoni F, Nowak MD, Alfaro ME, Reeb V, Miadlikowska J, Krug M, Arnold AE, Lewis LA, Swofford DL, Hibbett D, Hilu K, James TY, Quandt D, and Magallón S

Subjects

Biological Evolution, Embryophyta, Fungi, Symbiosis

Abstract

Interactions between fungi and plants, including parasitism, mutualism, and saprotrophy, have been invoked as key to their respective macroevolutionary success. Here we evaluate the origins of plant-fungal symbioses and saprotrophy using a time-calibrated phylogenetic framework that reveals linked and drastic shifts in diversification rates of each kingdom. Fungal colonization of land was associated with at least two origins of terrestrial green algae and preceded embryophytes (as evidenced by losses of fungal flagellum, ca. 720 Ma), likely facilitating terrestriality through endomycorrhizal and possibly endophytic symbioses. The largest radiation of fungi (Leotiomyceta), the origin of arbuscular mycorrhizae, and the diversification of extant embryophytes occurred ca. 480 Ma. This was followed by the origin of extant lichens. Saprotrophic mushrooms diversified in the Late Paleozoic as forests of seed plants started to dominate the landscape. The subsequent diversification and explosive radiation of Agaricomycetes, and eventually of ectomycorrhizal mushrooms, were associated with the evolution of Pinaceae in the Mesozoic, and establishment of angiosperm-dominated biomes in the Cretaceous.

Published

2018

38. A novel proof of concept for capturing the diversity of endophytic fungi preserved in herbarium specimens.

Author

Daru BH, Bowman EA, Pfister DH, and Arnold AE

Subjects

Endophytes physiology, Fungi physiology, Ledum microbiology, Endophytes classification, Ericaceae microbiology, Fungi classification, Microbiota, Museums, Specimen Handling methods

Abstract

Herbarium specimens represent important records of morphological and genetic diversity of plants that inform questions relevant to global change, including species distributions, phenology and functional traits. It is increasingly appreciated that plant microbiomes can influence these aspects of plant biology, but little is known regarding the historic distribution of microbes associated with plants collected in the pre-molecular age. If microbiomes can be observed reliably in herbarium specimens, researchers will gain a new lens with which to examine microbial ecology, evolution, species interactions. Here, we describe a method for accessing historical plant microbiomes from preserved herbarium specimens, providing a proof of concept using two plant taxa from the imperiled boreal biome ( Andromeda polifolia and Ledum palustre subsp . groenlandicum, Ericaceae). We focus on fungal endophytes, which occur within symptomless plant tissues such as leaves. Through a three-part approach (i.e. culturing, cloning and next-generation amplicon sequencing via the Illumina MiSeq platform, with extensive controls), we examined endophyte communities in dried, pressed leaves that had been processed as regular herbarium specimens and stored at room temperature in a herbarium for four years . We retrieved only one endophyte in culture, but cloning and especially the MiSeq analysis revealed a rich community of foliar endophytes. The phylogenetic distribution and diversity of endophyte assemblages, especially among the Ascomycota, resemble endophyte communities from fresh plants collected in the boreal biome. We could distinguish communities of endophytes in each plant species and differentiate likely endophytes from fungi that could be surface contaminants. Taxa found by cloning were observed in the larger MiSeq dataset, but species richness was greater when subsets of the same tissues were evaluated with the MiSeq approach. Our findings provide a proof of concept for capturing endophyte DNA from herbarium specimens, supporting the importance of herbarium records as roadmaps for understanding the dynamics of plant-associated microbial biodiversity in the Anthropocene.This article is part of the theme issue 'Biological collections for understanding biodiversity in the Anthropocene'., (© 2018 The Author(s).)

Published

2018

39. Dormancy-defense syndromes and tradeoffs between physical and chemical defenses in seeds of pioneer species.

Author

Zalamea PC, Dalling JW, Sarmiento C, Arnold AE, Delevich C, Berhow MA, Ndobegang A, Gripenberg S, and Davis AS

Subjects

Germination, Humans, Panama, Soil, Syndrome, Plant Dormancy, Seeds

Abstract

Seeds of tropical pioneer trees have chemical and physical characteristics that determine their capacity to persist in the soil seed bank. These traits allow seeds to survive in the soil despite diverse predators and pathogens, and to germinate and recruit even decades after dispersal. Defenses in seedlings and adult plants often are described in terms of tradeoffs between chemical and physical defense, but the interplay of defensive strategies has been evaluated only rarely for seeds. Here we evaluated whether classes of seed defenses were negatively correlated across species (consistent with tradeoffs in defense strategies), or whether groups of traits formed associations across species (consistent with seed defense syndromes). Using 16 of the most common pioneer tree species in a neotropical lowland forest in Panama we investigated relationships among four physical traits (seed fracture resistance, seed coat thickness, seed permeability, and seed mass) and two chemical traits (number of phenolic compounds and phenolic peak area), and their association with seed persistence. In addition, seed toxicity was assessed with bioassays in which we evaluated the activity of seed extracts against representative fungal pathogens and a model invertebrate. We did not find univariate tradeoffs between chemical and physical defenses. Instead, we found that seed permeability - a trait that distinguishes physical dormancy from other dormancy types - was positively associated with chemical defense traits and negatively associated with physical defense traits. Using a linear discriminant analysis and a hierarchical cluster analysis we found evidence to distinguish three distinct seed defense syndromes that correspond directly with seed dormancy classes (i.e., quiescent, physical, and physiological). Our data suggest that short and long-term persistence of seeds can be achieved via two strategies: having permeable seeds that are well defended chemically, corresponding to the physiologically dormant defense syndrome; or having impermeable seeds that are well defended physically, corresponding to the physically dormant defense syndrome. In turn, transient seeds appear to have a lower degree of chemical and physical defenses, corresponding to the quiescent defense syndrome. Overall, we find that seed defense and seed dormancy are linked, suggesting that environmental pressures on seed persistence and for delayed germination can select for trait combinations defining distinct dormancy-defense syndromes., (© 2018 by the Ecological Society of America.)

Published

2018

40. RNA-based analyses reveal fungal communities structured by a senescence gradient in the moss Dicranum scoparium and the presence of putative multi-trophic fungi.

Author

Chen KH, Liao HL, Arnold AE, Bonito G, and Lutzoni F

Subjects

Bryophyta genetics, Endophytes physiology, Metagenome, RNA, Fungal genetics, RNA, Ribosomal metabolism, Transcription, Genetic, Transcriptome genetics, Bryophyta microbiology, Fungi genetics, RNA, Fungal metabolism

Abstract

Diverse plant-associated fungi are thought to have symbiotrophic and saprotrophic states because they can be isolated from both dead and living plant tissues. However, such tissues often are separated in time and space, and fungal activity at various stages of plant senescence is rarely assessed directly in fungal community studies. We used fungal ribosomal RNA metatranscriptomics to detect active fungal communities across a natural senescence gradient within wild-collected gametophytes of Dicranum scoparium (Bryophyta) to understand the distribution of active fungal communities in adjacent living, senescing and dead tissues. Ascomycota were active in all tissues across the senescence gradient. By contrast, Basidiomycota were prevalent and active in senescing and dead tissues. Several fungi were detected as active in living and dead tissues, suggesting their capacity for multi-trophy. Differences in community assembly detected by metatranscriptomics were echoed by amplicon sequencing of cDNA and compared to culture-based inferences and observation of fungal fruit bodies in the field. The combination of amplicon sequencing of cDNA and metatranscriptomics is promising for studying symbiotic systems with complex microbial diversity, allowing for the simultaneous detection of their presence and activity., (© 2018 The Authors. New Phytologist © 2018 New Phytologist Trust.)

Published

2018

41. Antibody-Antisense Oligonucleotide Conjugate Downregulates a Key Gene in Glioblastoma Stem Cells.

Author

Arnold AE, Malek-Adamian E, Le PU, Meng A, Martínez-Montero S, Petrecca K, Damha MJ, and Shoichet MS

Abstract

Glioblastoma stem cells (GSCs) are invasive, treatment-resistant brain cancer cells that express downregulated in renal cell carcinoma (DRR), also called FAM107A, a genetic driver of GSC invasion. We developed antibody-antisense oligonucleotide (AON) conjugates to target and reduce DRR/FAM107A expression. Specifically, we used antibodies against antigens expressed on the GSCs, such as CD44 and EphA2, conjugated to chemically modified AONs against DRR/FAM107A, which were designed as chimeras of DNA and 2'-deoxy-2'-fluoro-beta-D-arabinonucleic acid (FANA) for increased nuclease stability and mRNA affinity. We demonstrate that these therapeutic conjugates successfully internalize, accumulate, and reduce DRR/FAM107A expression in patient-derived GSCs. This is the first example of an antibody-antisense strategy against cancer stem cells., (Copyright © 2018 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2018

42. Observations on the Early Establishment of Foliar Endophytic Fungi in Leaf Discs and Living Leaves of a Model Woody Angiosperm, Populus trichocarpa (Salicaceae).

Author

Huang YL, Zimmerman NB, and Arnold AE

Abstract

Fungal endophytes are diverse and widespread symbionts that occur in the living tissues of all lineages of plants without causing evidence of disease. Culture-based and culture-free studies indicate that they often are abundant in the leaves of woody angiosperms, but only a few studies have visualized endophytic fungi in leaf tissues, and the process through which most endophytes colonize leaves has not been studied thoroughly. We inoculated leaf discs and the living leaves of a model woody angiosperm, Populus trichocarpa , which has endophytes that represent three distantly-related genera ( Cladosporium , Penicillium , and Trichoderma ). We used scanning electron microscopy and light microscopy to evaluate the timeline and processes by which they colonize leaf tissue. Under laboratory conditions with high humidity, conidia germinated on leaf discs to yield hyphae that grew epiphytically and incidentally entered stomata, but did not grow in a directed fashion toward stomatal openings. No cuticular penetration was observed. The endophytes readily colonized the interiors of leaf discs that were detached from living leaves, and could be visualized within discs with light microscopy. Although they were difficult to visualize within the interior of living leaves following in vivo inoculations, standard methods for isolating foliar endophytes confirmed their presence., Competing Interests: The authors declare no conflict of interest.

Published

2018

43. Molecular lemmings: strategies to avoid when designing BODIPY ferrocene dyads for dye-sensitized solar cell applications.

Author

Hussein BA, Huynh JT, Prieto PL, Barran CP, Arnold AE, Sarycheva OV, Lough AJ, and Koivisto BD

Abstract

BODIPY (4,4-difluoro-4-bora-3a,4a-diaza-s-indacenes) dyes possess intense absorption profiles that can be exploited in various light harvesting applications. However, redox stability and optimization of frontier molecular orbital energies in these dyes are critical for their successful incorporation into new solar cell materials. This article describes the synthesis and characterization of a family of β-substituted BODIPY-ferrocene dyads with push-pull architectures. Designed to stabilize the photo-oxidized BODIPY for dye-sensitized solar cell (DSSC) applications, some deleterious electron transfer behaviours emerged when the ferrocene unit was conjugated to electron deficient BODIPYs. These findings are discussed herein.

Published

2018

44. Distributions of ectomycorrhizal and foliar endophytic fungal communities associated with Pinus ponderosa along a spatially constrained elevation gradient.

Author

Bowman EA and Arnold AE

Subjects

Altitude, Ecosystem, Endophytes physiology, Plant Leaves microbiology, Plant Roots microbiology, Soil Microbiology, Symbiosis, Mycorrhizae physiology, Pinus ponderosa microbiology

Abstract

Premise of the Study: Understanding distributions of plant-symbiotic fungi is important for projecting responses to environmental change. Many coniferous trees host ectomycorrhizal fungi (EM) in association with roots and foliar endophytic fungi (FE) in leaves. We examined how EM and FE associated with Pinus ponderosa each vary in abundance, diversity, and community structure over a spatially constrained elevation gradient that traverses four plant communities, 4°C in mean annual temperature, and 15 cm in mean annual precipitation., Methods: We sampled 63 individuals of Pinus ponderosa in 10 sites along a 635 m elevation gradient that encompassed a geographic distance of 9.8 km. We used standard methods to characterize each fungal group (amplified and sequenced EM from root tips; isolated and sequenced FE from leaves)., Key Results: Abundance and diversity of EM were similar across sites, but community composition and distributions of the most common EM differed with elevation (i.e., with climate, soil chemistry, and plant communities). Abundance and composition of FE did not differ with elevation, but diversity peaked in mid-to-high elevations., Conclusions: Our results suggest relatively tight linkages between EM and climate, soil chemistry, and plant communities. That FE appear less linked with these factors may speak to limitations of a culture-based approach, but more likely reflects the small spatial scale encompassed by our study. Future work should consider comparable methods for characterizing these functional groups, and additional transects to understand relationships of EM and FE to environmental factors that are likely to shift as a function of climate change., (© 2018 Botanical Society of America.)

Published

2018

45. Cytotoxic and Noncytotoxic Metabolites from Teratosphaeria sp. FL2137, a Fungus Associated with Pinus clausa.

Author

Padumadasa C, Xu YM, Wijeratne EMK, Espinosa-Artiles P, U'Ren JM, Arnold AE, and Gunatilaka AAL

Subjects

Breast Neoplasms drug therapy, Cell Line, Tumor, Cytotoxins pharmacology, Drug Screening Assays, Antitumor methods, Humans, Magnetic Resonance Spectroscopy methods, Naphthoquinones chemistry, Naphthoquinones pharmacology, Ascomycota chemistry, Cytotoxins chemistry, Pinus microbiology

Abstract

A new naphthoquinone, teratosphaerone A (1), four new naphthalenones, namely, teratosphaerone B (2), structurally related to 1, iso-balticol B (3), iso-balticol B-4,9-acetonide (4), and (+)-balticol C (5), a new furanonaphthalenone, (3a S,9 R,9a S)-1(9a),3(3a),9-hexahydromonosporascone (6), and the known metabolite monosporascone (7) were isolated from Teratosphaeria sp. FL2137, a fungal strain inhabiting the internal tissue of recently dead but undecomposed foliage of Pinus clausa. The structures of 1-6 were elucidated on the basis of their spectroscopic data including 2D NMR, and absolute configurations of 2, 3, and 6 were determined by the modified Mosher's ester method. When evaluated in a panel of five tumor cell lines, metabolites 1 and 7 isolated from a cytotoxic fraction of the extract exhibited moderate selectivity for metastatic breast adenocarcinoma cell line MDA-MB-231. Of these, 1 showed cytotoxicity to this cell line with an IC 50 of 1.2 ± 0.1 μM.

Published

2018

46. What Is Your Diagnosis?

Author

Rodgers KC, Arnold AE, Newhard DK, Cline K, and Winter RL

Subjects

Animals, Diagnosis, Differential, Dog Diseases diagnostic imaging, Dogs, Ductus Arteriosus, Patent diagnosis, Echocardiography veterinary, Male, Radiography, Thoracic veterinary, Dog Diseases diagnosis, Ductus Arteriosus, Patent veterinary

Published

2018

47. Quantifying beetle-macrofungal associations in a temperate biodiversity hot spot.

Author

Epps MJ and Arnold AE

Subjects

Animals, Host Specificity, United States, Basidiomycota, Biodiversity, Coleoptera classification, Coleoptera growth & development

Abstract

Beetles (Coleoptera) are often among the most abundant and diverse insects that feed on sporocarps of macrofungi, but little is known regarding their relative specialism or generalism in most communities. We surveyed >9000 sporocarps in montane hardwood forest in the Appalachian Mountains (USA) to characterize associations of mycophagous beetles and macrofungi. We used traditional metrics and network analyses to quantify relationships between sporocarp traits (mass, age, persistence, and toughness) and assemblages of adult beetles, drawing from >50 000 beetles collected over two survey years. Strict-sense specificity was rare in these associations: most beetle species were found on multiple fungal genera, and most fungi hosted multiple beetle species. Sporocarp age and fresh mass were positively associated with beetle diversity in fungi with ephemeral sporocarps (here including 12 genera of Agaricales and Russulales), but sporocarp persistence was not. In Polyporales, beetle diversity was greater in softer sporocarps than in tough or woody sporocarps. The increase of beetle diversity in aging sporocarps could not be attributed to increases in sporocarp mass or sampling point in the growing season, suggesting that age-related changes in chemistry or structure may support increasingly diverse beetle communities. Interaction networks differed as a function of sporocarp age, revealing that community-wide measures of generalism (i.e., network connectance) and evenness (i.e., variance in normalized degree) change as sporocarps mature and senesce. Beetles observed on Agaricales and Russulales with more persistent sporocarps had narrower interaction breadth (i.e., were more host-specific) than those on less persistent sporocarps, and beetles on Polyporales with tougher sporocarps had narrower interaction breadth than those on soft sporocarps. In addition to providing a large-scale evaluation of sporocarp use by adult beetles in this temperate biodiversity hot spot, this study shows that characteristics of food organisms are associated with specialism and generalism in interactions relevant to fungal and forest ecology.

Published

2018

48. Using collections data to infer biogeographic, environmental, and host structure in communities of endophytic fungi.

Author

Huang YL, Bowman EA, Massimo NC, Garber NP, U'Ren JM, Sandberg DC, and Arnold AE

Subjects

Arizona, Endophytes isolation & purification, Fungi isolation & purification, Universities, Biological Specimen Banks, Endophytes classification, Endophytes growth & development, Fungi classification, Fungi growth & development, Phylogeography, Plants microbiology

Abstract

Biodiversity collections contain a wealth of information encapsulated both in specimens and in their metadata, providing the foundation for diverse studies in fields such as ecology. Yet biodiversity repositories can present a challenge for ecological inferences because collections rarely are structured with ecological questions in mind: collections may be opportunistic in space or time, may focus on particular taxonomic groups, may reflect different collection strategies in different places or times, or may not be exhaustive in terms of retaining every specimen or having similar metadata for each record. In addition to its primary holdings, the Robert L. Gilbertson Mycological Herbarium at the University of Arizona holds a collection of living specimens of fungi isolated from the interior of healthy plants and lichens (i.e., endophytic and endolichenic fungi). Over the past decade, more than 7000 isolates from the southwestern United States were accessioned, including strains from diverse hosts in more than 50 localities across the biotically rich state of Arizona. This collection is distinctive in that metadata and barcode sequences are available for each specimen, many localities have been sampled with consistent methods, and all isolates obtained in surveys have been retained. Here, we use this herbarium collection to examine endophyte community structure in an ecological and evolutionary context. We then artificially restructure the collection to resemble collections more typical of biodiversity repositories, providing a case study for ecological insights that can be gleaned from collections that were not structured explicitly to address ecological questions. Overall, our analyses highlight the relevance of biogeography, climate, hosts, and geographic separation in endophyte community composition. This study showcases the importance of extensive metadata in collections and highlights the utility of biodiversity collections that can yield emergent insights from many surveys to answer ecological questions in mycology, ultimately providing information for understanding and conserving fungal biodiversity.

Published

2018

49. Quantifying Re-association of a Facultative Endohyphal Bacterium with a Filamentous Fungus.

Author

Baltrus DA, Spraker J, and Arnold AE

Subjects

Anti-Bacterial Agents pharmacology, Coculture Techniques, Fungi drug effects, Gentamicins pharmacology, Phenotype, Bacterial Physiological Phenomena drug effects, Fungi physiology, Symbiosis

Abstract

We present here a method to quantify reassociation between facultative endohyphal bacteria and filamentous fungal hosts. Our method takes advantage of the capabilities of fungal cell walls to selectively protect internal bacteria from gentamicin treatment, an assay adapted from studies of internalized bacterial pathogens in cell culture. We report the efficacy of gentamicin to kill planktonic bacteria treated during fungal coculture, and also describe and characterize a sampling scheme to recover and quantify culturable bacteria from the growing edge of fungal mycelium in vitro. This assay enables qualitative and quantitative tests of reassociation capabilities for facultative endohyphal bacteria with host fungi and provides a means to investigate the genetic basis for these associations in a repeatable way.

Published

2018

50. Soilborne fungi have host affinity and host-specific effects on seed germination and survival in a lowland tropical forest.

Author

Sarmiento C, Zalamea PC, Dalling JW, Davis AS, Stump SM, U'Ren JM, and Arnold AE

Subjects

Host Specificity, Plants classification, Plants microbiology, Soil Microbiology, Forests, Fungi isolation & purification, Germination physiology, Seeds microbiology, Seeds physiology, Tropical Climate

Abstract

The Janzen-Connell (JC) hypothesis provides a conceptual framework for explaining the maintenance of tree diversity in tropical forests. Its central tenet-that recruits experience high mortality near conspecifics and at high densities-assumes a degree of host specialization in interactions between plants and natural enemies. Studies confirming JC effects have focused primarily on spatial distributions of seedlings and saplings, leaving major knowledge gaps regarding the fate of seeds in soil and the specificity of the soilborne fungi that are their most important antagonists. Here we use a common garden experiment in a lowland tropical forest in Panama to show that communities of seed-infecting fungi are structured predominantly by plant species, with only minor influences of factors such as local soil type, forest characteristics, or time in soil (1-12 months). Inoculation experiments confirmed that fungi affected seed viability and germination in a host-specific manner and that effects on seed viability preceded seedling emergence. Seeds are critical components of reproduction for tropical trees, and the factors influencing their persistence, survival, and germination shape the populations of seedlings and saplings on which current perspectives regarding forest dynamics are based. Together these findings bring seed dynamics to light in the context of the JC hypothesis, implicating them directly in the processes that have emerged as critical for diversity maintenance in species-rich tropical forests., Competing Interests: The authors declare no conflict of interest.

Published

2017