2,302 results on '"Riley, Robert"'
Search Results
2. Genomic Analysis of Aspergillus Section Terrei Reveals a High Potential in Secondary Metabolite Production and Plant Biomass Degradation
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Theobald, Sebastian, Vesth, Tammi C, Geib, Elena, Nybo, Jane L, Frisvad, Jens C, Larsen, Thomas O, Kuo, Alan, LaButti, Kurt, Lyhne, Ellen K, Kjærbølling, Inge, Ledsgaard, Line, Barry, Kerrie, Clum, Alicia, Chen, Cindy, Nolan, Matt, Sandor, Laura, Lipzen, Anna, Mondo, Stephen, Pangilinan, Jasmyn, Salamov, Asaf, Riley, Robert, Wiebenga, Ad, Müller, Astrid, Kun, Roland S, dos Santos Gomes, Ana Carolina, Henrissat, Bernard, Magnuson, Jon K, Simmons, Blake A, Mäkelä, Miia R, Mortensen, Uffe H, Grigoriev, Igor V, Brock, Matthias, Baker, Scott E, de Vries, Ronald P, and Andersen, Mikael R
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Microbiology ,Biological Sciences ,Genetics ,Biotechnology ,Human Genome ,genomics ,fungi ,Aspergillus ,section Terrei ,Aspergillus terreus ,secondary metabolism ,CAZymes - Abstract
Aspergillus terreus has attracted interest due to its application in industrial biotechnology, particularly for the production of itaconic acid and bioactive secondary metabolites. As related species also seem to possess a prosperous secondary metabolism, they are of high interest for genome mining and exploitation. Here, we present draft genome sequences for six species from Aspergillus section Terrei and one species from Aspergillus section Nidulantes. Whole-genome phylogeny confirmed that section Terrei is monophyletic. Genome analyses identified between 70 and 108 key secondary metabolism genes in each of the genomes of section Terrei, the highest rate found in the genus Aspergillus so far. The respective enzymes fall into 167 distinct families with most of them corresponding to potentially unique compounds or compound families. Moreover, 53% of the families were only found in a single species, which supports the suitability of species from section Terrei for further genome mining. Intriguingly, this analysis, combined with heterologous gene expression and metabolite identification, suggested that species from section Terrei use a strategy for UV protection different to other species from the genus Aspergillus. Section Terrei contains a complete plant polysaccharide degrading potential and an even higher cellulolytic potential than other Aspergilli, possibly facilitating additional applications for these species in biotechnology.
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- 2024
3. Coassembly and binning of a twenty-year metagenomic time-series from Lake Mendota
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Oliver, Tiffany, Varghese, Neha, Roux, Simon, Schulz, Frederik, Huntemann, Marcel, Clum, Alicia, Foster, Brian, Foster, Bryce, Riley, Robert, LaButti, Kurt, Egan, Robert, Hajek, Patrick, Mukherjee, Supratim, Ovchinnikova, Galina, Reddy, TBK, Calhoun, Sara, Hayes, Richard D, Rohwer, Robin R, Zhou, Zhichao, Daum, Chris, Copeland, Alex, Chen, I-Min A, Ivanova, Natalia N, Kyrpides, Nikos C, Mouncey, Nigel J, del Rio, Tijana Glavina, Grigoriev, Igor V, Hofmeyr, Steven, Oliker, Leonid, Yelick, Katherine, Anantharaman, Karthik, McMahon, Katherine D, Woyke, Tanja, and Eloe-Fadrosh, Emiley A
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Microbiology ,Biological Sciences ,Ecology ,Bacteria ,Lakes ,Metagenome ,Metagenomics ,Phylogeny - Abstract
The North Temperate Lakes Long-Term Ecological Research (NTL-LTER) program has been extensively used to improve understanding of how aquatic ecosystems respond to environmental stressors, climate fluctuations, and human activities. Here, we report on the metagenomes of samples collected between 2000 and 2019 from Lake Mendota, a freshwater eutrophic lake within the NTL-LTER site. We utilized the distributed metagenome assembler MetaHipMer to coassemble over 10 terabases (Tbp) of data from 471 individual Illumina-sequenced metagenomes. A total of 95,523,664 contigs were assembled and binned to generate 1,894 non-redundant metagenome-assembled genomes (MAGs) with ≥50% completeness and ≤10% contamination. Phylogenomic analysis revealed that the MAGs were nearly exclusively bacterial, dominated by Pseudomonadota (Proteobacteria, N = 623) and Bacteroidota (N = 321). Nine eukaryotic MAGs were identified by eukCC with six assigned to the phylum Chlorophyta. Additionally, 6,350 high-quality viral sequences were identified by geNomad with the majority classified in the phylum Uroviricota. This expansive coassembled metagenomic dataset provides an unprecedented foundation to advance understanding of microbial communities in freshwater ecosystems and explore temporal ecosystem dynamics.
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- 2024
4. Symmetric and asymmetric DNA N6-adenine methylation regulates different biological responses in Mucorales
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Lax, Carlos, Mondo, Stephen J, Osorio-Concepción, Macario, Muszewska, Anna, Corrochano-Luque, María, Gutiérrez, Gabriel, Riley, Robert, Lipzen, Anna, Guo, Jie, Hundley, Hope, Amirebrahimi, Mojgan, Ng, Vivian, Lorenzo-Gutiérrez, Damaris, Binder, Ulrike, Yang, Junhuan, Song, Yuanda, Cánovas, David, Navarro, Eusebio, Freitag, Michael, Gabaldón, Toni, Grigoriev, Igor V, Corrochano, Luis M, Nicolás, Francisco E, and Garre, Victoriano
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Biological Sciences ,Genetics ,DNA Methylation ,Adenine ,Gene Expression Regulation ,Fungal ,Mucorales ,Epigenesis ,Genetic ,Fungal Proteins ,Phylogeny ,Evolution ,Molecular ,Methyltransferases ,DNA ,Fungal ,Mutation - Abstract
DNA N6-adenine methylation (6mA) has recently gained importance as an epigenetic modification in eukaryotes. Its function in lineages with high levels, such as early-diverging fungi (EDF), is of particular interest. Here, we investigated the biological significance and evolutionary implications of 6mA in EDF, which exhibit divergent evolutionary patterns in 6mA usage. The analysis of two Mucorales species displaying extreme 6mA usage reveals that species with high 6mA levels show symmetric methylation enriched in highly expressed genes. In contrast, species with low 6mA levels show mostly asymmetric 6mA. Interestingly, transcriptomic regulation throughout development and in response to environmental cues is associated with changes in the 6mA landscape. Furthermore, we identify an EDF-specific methyltransferase, likely originated from endosymbiotic bacteria, as responsible for asymmetric methylation, while an MTA-70 methylation complex performs symmetric methylation. The distinct phenotypes observed in the corresponding mutants reinforced the critical role of both types of 6mA in EDF.
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- 2024
5. Genome-scale model development and genomic sequencing of the oleaginous clade Lipomyces.
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Czajka, Jeffrey, Han, Yichao, Kim, Joonhoon, Yan, Juying, Wang, Mei, Ng, Vivian, Grigoriev, Igor, Spatafora, Joseph, Magnuson, Jon, Baker, Scott, Pomraning, Kyle, Hofstad, Beth, Robles, AnaLaura, Haridas, Sajeet, Riley, Robert, LaButti, Kurt, Pangilinan, Jasmyn, Lipzen, Anna, Andreopoulos, William, and Mondo, Stephen
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Lipomyces ,flux balance analysis ,genome sequencing ,genome-scale metabolic model ,oleaginous yeasts - Abstract
The Lipomyces clade contains oleaginous yeast species with advantageous metabolic features for biochemical and biofuel production. Limited knowledge about the metabolic networks of the species and limited tools for genetic engineering have led to a relatively small amount of research on the microbes. Here, a genome-scale metabolic model (GSM) of Lipomyces starkeyi NRRL Y-11557 was built using orthologous protein mappings to model yeast species. Phenotypic growth assays were used to validate the GSM (66% accuracy) and indicated that NRRL Y-11557 utilized diverse carbohydrates but had more limited catabolism of organic acids. The final GSM contained 2,193 reactions, 1,909 metabolites, and 996 genes and was thus named iLst996. The model contained 96 of the annotated carbohydrate-active enzymes. iLst996 predicted a flux distribution in line with oleaginous yeast measurements and was utilized to predict theoretical lipid yields. Twenty-five other yeasts in the Lipomyces clade were then genome sequenced and annotated. Sixteen of the Lipomyces species had orthologs for more than 97% of the iLst996 genes, demonstrating the usefulness of iLst996 as a broad GSM for Lipomyces metabolism. Pathways that diverged from iLst996 mainly revolved around alternate carbon metabolism, with ortholog groups excluding NRRL Y-11557 annotated to be involved in transport, glycerolipid, and starch metabolism, among others. Overall, this study provides a useful modeling tool and data for analyzing and understanding Lipomyces species metabolism and will assist further engineering efforts in Lipomyces.
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- 2024
6. Draft genome sequence of Yarrowia lipolytica NRRL Y-64008, an oleaginous yeast capable of growing on lignocellulosic hydrolysates.
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Jagtap, Sujit, Liu, Jing-Jing, Walukiewicz, Hanna, Ahrendt, Steven, Koriabine, Maxim, Cobaugh, Kelly, Salamov, Asaf, Yoshinaga, Yuko, Ng, Vivian, Daum, Chris, Grigoriev, Igor, Slininger, Patricia, Dien, Bruce, Jin, Yong-Su, Rao, Christopher, and Riley, Robert
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Yarrowia lipolytica ,genome analysis ,oleaginous yeast - Abstract
Yarrowia lipolytica is an oleaginous yeast that produces high titers of fatty acid-derived biofuels and biochemicals. It can grow on hydrophobic carbon sources and lignocellulosic hydrolysates. The genome sequence of Y. lipolytica NRRL Y-64008 is reported to aid in its development as a biotechnological chassis for producing biofuels and bioproducts.
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- 2023
7. Convergent reductive evolution and host adaptation in Mycoavidus bacterial endosymbionts of Mortierellaceae fungi
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Amses, Kevin, Desiró, Alessandro, Bryson, Abigail, Grigoriev, Igor, Mondo, Stephen, Lipzen, Anna, LaButti, Kurt, Riley, Robert, Singan, Vasanth, Salazar-Hamm, Paris, King, Jason, Ballou, Elizabeth, Pawlowska, Teresa, Adeleke, Rasheed, Bonito, Gregory, and Uehling, Jessie
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Microbiology ,Biological Sciences ,Ecology ,Genetics ,Human Genome ,Infection ,Phylogeny ,Host Adaptation ,Burkholderiaceae ,Fungi ,Bacteria ,Symbiosis ,Host-specificity ,Fungal bacterial interactions ,Secondary metabolism ,Gene loss ,Plant Biology ,Plant biology - Abstract
Intimate associations between fungi and intracellular bacterial endosymbionts are becoming increasingly well understood. Phylogenetic analyses demonstrate that bacterial endosymbionts of Mucoromycota fungi are related either to free-living Burkholderia or Mollicutes species. The so-called Burkholderia-related endosymbionts or BRE comprise Mycoavidus, Mycetohabitans and Candidatus Glomeribacter gigasporarum. These endosymbionts are marked by genome contraction thought to be associated with intracellular selection. However, the conclusions drawn thus far are based on a very small subset of endosymbiont genomes, and the mechanisms leading to genome streamlining are not well understood. The purpose of this study was to better understand how intracellular existence shapes Mycoavidus and BRE functionally at the genome level. To this end we generated and analyzed 14 novel draft genomes for Mycoavidus living within the hyphae of Mortierellomycotina fungi. We found that our novel Mycoavidus genomes were significantly reduced compared to free-living Burkholderiales relatives. Using a genome-scale phylogenetic approach including the novel and available existing genomes of Mycoavidus, we show that the genus is an assemblage composed of two independently derived lineages including three well supported clades of Mycoavidus. Using a comparative genomic approach, we shed light on the functional implications of genome reduction, documenting shared and unique gene loss patterns between the three Mycoavidus clades. We found that many endosymbiont isolates demonstrate patterns of vertical transmission and host-specificity, but others are present in phylogenetically disparate hosts. We discuss how reductive evolution and host specificity reflect convergent adaptation to the intrahyphal selective landscape, and commonalities of eukaryotic endosymbiont genome evolution.
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- 2023
8. Genome-scale phylogeny and comparative genomics of the fungal order Sordariales
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Hensen, Noah, Bonometti, Lucas, Westerberg, Ivar, Brännström, Ioana Onut, Guillou, Sonia, Cros-Aarteil, Sandrine, Calhoun, Sara, Haridas, Sajeet, Kuo, Alan, Mondo, Stephen, Pangilinan, Jasmyn, Riley, Robert, LaButti, Kurt, Andreopoulos, Bill, Lipzen, Anna, Chen, Cindy, Yan, Mi, Daum, Chris, Ng, Vivian, Clum, Alicia, Steindorff, Andrei, Ohm, Robin A, Martin, Francis, Silar, Philippe, Natvig, Donald O, Lalanne, Christophe, Gautier, Valérie, Ament-Velásquez, Sandra Lorena, Kruys, Åsa, Hutchinson, Miriam I, Powell, Amy Jo, Barry, Kerrie, Miller, Andrew N, Grigoriev, Igor V, Debuchy, Robert, Gladieux, Pierre, Hiltunen Thorén, Markus, and Johannesson, Hanna
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Microbiology ,Biological Sciences ,Evolutionary Biology ,Genetics ,Biotechnology ,Human Genome ,Humans ,Phylogeny ,Genomics ,Genome ,Sordariales ,Base Sequence ,Evolution ,Molecular ,Whole-genome phylogeny ,Podosporaceae ,Chaetomiaceae ,Sordariaceae ,Genome evolution ,Zoology ,Evolutionary biology - Abstract
The order Sordariales is taxonomically diverse, and harbours many species with different lifestyles and large economic importance. Despite its importance, a robust genome-scale phylogeny, and associated comparative genomic analysis of the order is lacking. In this study, we examined whole-genome data from 99 Sordariales, including 52 newly sequenced genomes, and seven outgroup taxa. We inferred a comprehensive phylogeny that resolved several contentious relationships amongst families in the order, and cleared-up intrafamily relationships within the Podosporaceae. Extensive comparative genomics showed that genomes from the three largest families in the dataset (Chaetomiaceae, Podosporaceae and Sordariaceae) differ greatly in GC content, genome size, gene number, repeat percentage, evolutionary rate, and genome content affected by repeat-induced point mutations (RIP). All genomic traits showed phylogenetic signal, and ancestral state reconstruction revealed that the variation of the properties stems primarily from within-family evolution. Together, the results provide a thorough framework for understanding genome evolution in this important group of fungi.
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- 2023
9. Comparative genomics of Mollicutes-related endobacteria supports a late invasion into Mucoromycota fungi.
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Longley, Reid, Robinson, Aaron, Liber, Julian, Bryson, Abigail, Morales, Demosthenes, LaButti, Kurt, Kuo, Alan, Desirò, Alessandro, Chain, Patrick, Bonito, Gregory, Daum, Chris, Barry, Kerrie, Grigoriev, Igor, Riley, Robert, Yoshinaga, Yuko, and Mondo, Stephen
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Tenericutes ,Phylogeny ,Genomics ,Mycorrhizae ,Genome Size - Abstract
Diverse members of early-diverging Mucoromycota, including mycorrhizal taxa and soil-associated Mortierellaceae, are known to harbor Mollicutes-related endobacteria (MRE). It has been hypothesized that MRE were acquired by a common ancestor and transmitted vertically. Alternatively, MRE endosymbionts could have invaded after the divergence of Mucoromycota lineages and subsequently spread to new hosts horizontally. To better understand the evolutionary history of MRE symbionts, we generated and analyzed four complete MRE genomes from two Mortierellaceae genera: Linnemannia (MRE-L) and Benniella (MRE-B). These genomes include the smallest known of fungal endosymbionts and showed signals of a tight relationship with hosts including a reduced functional capacity and genes transferred from fungal hosts to MRE. Phylogenetic reconstruction including nine MRE from mycorrhizal fungi revealed that MRE-B genomes are more closely related to MRE from Glomeromycotina than MRE-L from the same host family. We posit that reductions in genome size, GC content, pseudogene content, and repeat content in MRE-L may reflect a longer-term relationship with their fungal hosts. These data indicate Linnemannia and Benniella MRE were likely acquired independently after their fungal hosts diverged from a common ancestor. This work expands upon foundational knowledge on minimal genomes and provides insights into the evolution of bacterial endosymbionts.
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- 2023
10. Vertical and horizontal gene transfer shaped plant colonization and biomass degradation in the fungal genus Armillaria
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Sahu, Neha, Indic, Boris, Wong-Bajracharya, Johanna, Merényi, Zsolt, Ke, Huei-Mien, Ahrendt, Steven, Monk, Tori-Lee, Kocsubé, Sándor, Drula, Elodie, Lipzen, Anna, Bálint, Balázs, Henrissat, Bernard, Andreopoulos, Bill, Martin, Francis M, Bugge Harder, Christoffer, Rigling, Daniel, Ford, Kathryn L, Foster, Gary D, Pangilinan, Jasmyn, Papanicolaou, Alexie, Barry, Kerrie, LaButti, Kurt, Virágh, Máté, Koriabine, Maxim, Yan, Mi, Riley, Robert, Champramary, Simang, Plett, Krista L, Grigoriev, Igor V, Tsai, Isheng Jason, Slot, Jason, Sipos, György, Plett, Jonathan, and Nagy, László G
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Microbiology ,Biological Sciences ,Genetics ,Infectious Diseases ,Armillaria ,Biomass ,Gene Transfer ,Horizontal ,Ecosystem ,Plants ,Medical Microbiology - Abstract
The fungal genus Armillaria contains necrotrophic pathogens and some of the largest terrestrial organisms that cause tremendous losses in diverse ecosystems, yet how they evolved pathogenicity in a clade of dominantly non-pathogenic wood degraders remains elusive. Here we show that Armillaria species, in addition to gene duplications and de novo gene origins, acquired at least 1,025 genes via 124 horizontal gene transfer events, primarily from Ascomycota. Horizontal gene transfer might have affected plant biomass degrading and virulence abilities of Armillaria, and provides an explanation for their unusual, soft rot-like wood decay strategy. Combined multi-species expression data revealed extensive regulation of horizontally acquired and wood-decay related genes, putative virulence factors and two novel conserved pathogenicity-induced small secreted proteins, which induced necrosis in planta. Overall, this study details how evolution knitted together horizontally and vertically inherited genes in complex adaptive traits of plant biomass degradation and pathogenicity in important fungal pathogens.
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- 2023
11. A standardized quantitative analysis strategy for stable isotope probing metagenomics
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Vyshenska, Dariia, Sampara, Pranav, Singh, Kanwar, Tomatsu, Andy, Kauffman, W Berkeley, Nuccio, Erin E, Blazewicz, Steven J, Pett-Ridge, Jennifer, Louie, Katherine B, Varghese, Neha, Kellom, Matthew, Clum, Alicia, Riley, Robert, Roux, Simon, Eloe-Fadrosh, Emiley A, Ziels, Ryan M, and Malmstrom, Rex R
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Microbiology ,Biological Sciences ,Genetics ,Biotechnology ,Human Genome ,Humans ,Metagenomics ,RNA ,Ribosomal ,16S ,DNA ,Isotopes ,Microbiota ,stable isotope probing ,metagenomics ,DNA-SIP ,co-assembly ,internal standards ,spike-ins - Abstract
Stable isotope probing (SIP) facilitates culture-independent identification of active microbial populations within complex ecosystems through isotopic enrichment of nucleic acids. Many DNA-SIP studies rely on 16S rRNA gene sequences to identify active taxa, but connecting these sequences to specific bacterial genomes is often challenging. Here, we describe a standardized laboratory and analysis framework to quantify isotopic enrichment on a per-genome basis using shotgun metagenomics instead of 16S rRNA gene sequencing. To develop this framework, we explored various sample processing and analysis approaches using a designed microbiome where the identity of labeled genomes and their level of isotopic enrichment were experimentally controlled. With this ground truth dataset, we empirically assessed the accuracy of different analytical models for identifying active taxa and examined how sequencing depth impacts the detection of isotopically labeled genomes. We also demonstrate that using synthetic DNA internal standards to measure absolute genome abundances in SIP density fractions improves estimates of isotopic enrichment. In addition, our study illustrates the utility of internal standards to reveal anomalies in sample handling that could negatively impact SIP metagenomic analyses if left undetected. Finally, we present SIPmg, an R package to facilitate the estimation of absolute abundances and perform statistical analyses for identifying labeled genomes within SIP metagenomic data. This experimentally validated analysis framework strengthens the foundation of DNA-SIP metagenomics as a tool for accurately measuring the in situ activity of environmental microbial populations and assessing their genomic potential. IMPORTANCE Answering the questions, "who is eating what?" and "who is active?" within complex microbial communities is paramount for our ability to model, predict, and modulate microbiomes for improved human and planetary health. These questions can be pursued using stable isotope probing to track the incorporation of labeled compounds into cellular DNA during microbial growth. However, with traditional stable isotope methods, it is challenging to establish links between an active microorganism's taxonomic identity and genome composition while providing quantitative estimates of the microorganism's isotope incorporation rate. Here, we report an experimental and analytical workflow that lays the foundation for improved detection of metabolically active microorganisms and better quantitative estimates of genome-resolved isotope incorporation, which can be used to further refine ecosystem-scale models for carbon and nutrient fluxes within microbiomes.
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- 2023
12. Terabase-Scale Coassembly of a Tropical Soil Microbiome
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Riley, Robert, Bowers, Robert M, Camargo, Antonio Pedro, Campbell, Ashley, Egan, Rob, Eloe-Fadrosh, Emiley A, Foster, Brian, Hofmeyr, Steven, Huntemann, Marcel, Kellom, Matthew, Kimbrel, Jeffrey A, Oliker, Leonid, Yelick, Katherine, Pett-Ridge, Jennifer, Salamov, Asaf, Varghese, Neha J, and Clum, Alicia
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Microbiology ,Biological Sciences ,Genetics ,Human Genome ,Life Below Water ,Soil ,Microbiota ,Bacteria ,Metagenome ,Genome ,Viral ,Metagenomics ,metagenomics ,terabase ,tropical soil ,redox ,rare biosphere - Abstract
Petabases of environmental metagenomic data are publicly available, presenting an opportunity to characterize complex environments and discover novel lineages of life. Metagenome coassembly, in which many metagenomic samples from an environment are simultaneously analyzed to infer the underlying genomes' sequences, is an essential tool for achieving this goal. We applied MetaHipMer2, a distributed metagenome assembler that runs on supercomputing clusters, to coassemble 3.4 terabases (Tbp) of metagenome data from a tropical soil in the Luquillo Experimental Forest (LEF), Puerto Rico. The resulting coassembly yielded 39 high-quality (>90% complete,
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- 2023
13. T-Toxin Virulence Genes: Unconnected Dots in a Sea of Repeats
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Haridas, Sajeet, González, Jennifer B, Riley, Robert, Koriabine, Maxim, Yan, Mi, Ng, Vivian, Rightmyer, Adriana, Grigoriev, Igor V, Baker, Scott E, and Turgeon, B Gillian
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Microbiology ,Biological Sciences ,Genetics ,Biotechnology ,Infection ,Humans ,Virulence ,Mycotoxins ,Fungal Proteins ,Pandemics ,Ascomycota ,COVID-19 ,Toxins ,Biological ,Plant Diseases ,fungi ,PacBio ,Cochliobolus ,secondary metabolite ,transposable element ,unlinked loci ,filamentous fungi ,repeats ,secondary metabolism ,Southern Corn Leaf Blight ,virulence determinants ,Biochemistry and cell biology ,Medical microbiology - Abstract
In 1970, the Southern Corn Leaf Blight epidemic ravaged U.S. fields to great economic loss. The outbreak was caused by never-before-seen, supervirulent, Race T of the fungus Cochliobolus heterostrophus. The functional difference between Race T and O, the previously known, far less aggressive strain, is production of T-toxin, a host-selective polyketide. Supervirulence is associated with ~1 Mb of Race T-specific DNA; only a fraction encodes T-toxin biosynthetic genes (Tox1). Tox1 is genetically and physically complex, with unlinked loci (Tox1A, Tox1B) genetically inseparable from breakpoints of a Race O reciprocal translocation that generated hybrid Race T chromosomes. Previously, we identified 10 genes for T-toxin biosynthesis. Unfortunately, high-depth, short-read sequencing placed these genes on four small, unconnected scaffolds surrounded by repeated A+T rich sequence, concealing context. To sort out Tox1 topology and pinpoint the hypothetical Race O translocation breakpoints corresponding to Race T-specific insertions, we undertook PacBio long-read sequencing which revealed Tox1 gene arrangement and the breakpoints. Six Tox1A genes are arranged as three small islands in a Race T-specific sea (~634 kb) of repeats. Four Tox1B genes are linked, on a large loop of Race T-specific DNA (~210 kb). The race O breakpoints are short sequences of race O-specific DNA; corresponding positions in race T are large insertions of race T-specific, A+T rich DNA, often with similarity to transposable (predominantly Gypsy) elements. Nearby, are 'Voyager Starship' elements and DUF proteins. These elements may have facilitated Tox1 integration into progenitor Race O and promoted large scale recombination resulting in race T. IMPORTANCE In 1970 a corn disease epidemic ravaged fields in the United States to great economic loss. The outbreak was caused by a never-before seen, supervirulent strain of the fungal pathogen Cochliobolus heterostrophus. This was a plant disease epidemic, however, the current COVID-19 pandemic of humans is a stark reminder that novel, highly virulent, pathogens evolve with devastating consequences, no matter what the host-animal, plant, or other organism. Long read DNA sequencing technology allowed in depth structural comparisons between the sole, previously known, much less aggressive, version of the pathogen and the supervirulent version and revealed, in meticulous detail, the structure of the unique virulence-causing DNA. These data are foundational for future analysis of mechanisms of DNA acquisition from a foreign source.
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- 2023
14. A global phylogenomic analysis of the shiitake genus Lentinula
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Sierra-Patev, Sean, Min, Byoungnam, Naranjo-Ortiz, Miguel, Looney, Brian, Konkel, Zachary, Slot, Jason C, Sakamoto, Yuichi, Steenwyk, Jacob L, Rokas, Antonis, Carro, Juan, Camarero, Susana, Ferreira, Patricia, Molpeceres, Gonzalo, Ruiz-Dueñas, Francisco J, Serrano, Ana, Henrissat, Bernard, Drula, Elodie, Hughes, Karen W, Mata, Juan L, Ishikawa, Noemia Kazue, Vargas-Isla, Ruby, Ushijima, Shuji, Smith, Chris A, Donoghue, John, Ahrendt, Steven, Andreopoulos, William, He, Guifen, LaButti, Kurt, Lipzen, Anna, Ng, Vivian, Riley, Robert, Sandor, Laura, Barry, Kerrie, Martínez, Angel T, Xiao, Yang, Gibbons, John G, Terashima, Kazuhisa, Grigoriev, Igor V, and Hibbett, David
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Microbiology ,Biological Sciences ,Genetics ,Lentinula ,Phylogeny ,Asia ,Eastern ,Thailand ,fungi ,domestication ,mushrooms ,evolution ,population genomics - Abstract
Lentinula is a broadly distributed group of fungi that contains the cultivated shiitake mushroom, L. edodes. We sequenced 24 genomes representing eight described species and several unnamed lineages of Lentinula from 15 countries on four continents. Lentinula comprises four major clades that arose in the Oligocene, three in the Americas and one in Asia-Australasia. To expand sampling of shiitake mushrooms, we assembled 60 genomes of L. edodes from China that were previously published as raw Illumina reads and added them to our dataset. Lentinula edodes sensu lato (s. lat.) contains three lineages that may warrant recognition as species, one including a single isolate from Nepal that is the sister group to the rest of L. edodes s. lat., a second with 20 cultivars and 12 wild isolates from China, Japan, Korea, and the Russian Far East, and a third with 28 wild isolates from China, Thailand, and Vietnam. Two additional lineages in China have arisen by hybridization among the second and third groups. Genes encoding cysteine sulfoxide lyase (lecsl) and γ-glutamyl transpeptidase (leggt), which are implicated in biosynthesis of the organosulfur flavor compound lenthionine, have diversified in Lentinula. Paralogs of both genes that are unique to Lentinula (lecsl 3 and leggt 5b) are coordinately up-regulated in fruiting bodies of L. edodes. The pangenome of L. edodes s. lat. contains 20,308 groups of orthologous genes, but only 6,438 orthogroups (32%) are shared among all strains, whereas 3,444 orthogroups (17%) are found only in wild populations, which should be targeted for conservation.
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- 2023
15. Speciation Underpinned by Unexpected Molecular Diversity in the Mycorrhizal Fungal Genus Pisolithus
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Plett, Jonathan M, Miyauchi, Shingo, Morin, Emmanuelle, Plett, Krista, Wong-Bajracharya, Johanna, de Freitas Pereira, Maira, Kuo, Alan, Henrissat, Bernard, Drula, Elodie, Wojtalewicz, Dominika, Riley, Robert, Pangilinan, Jasmyn, Andreopoulos, William, LaButti, Kurt, Daum, Chris, Yoshinaga, Yuko, Fauchery, Laure, Ng, Vivian, Lipzen, Anna, Barry, Kerrie, Singan, Vasanth, Guo, Jie, Lebel, Teresa, Costa, Mauricio Dutra, Grigoriev, Igor V, Martin, Francis, Anderson, Ian C, and Kohler, Annegret
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Microbiology ,Biological Sciences ,Ecology ,Infectious Diseases ,Human Genome ,Biotechnology ,Genetics ,2.1 Biological and endogenous factors ,Generic health relevance ,Mycorrhizae ,Symbiosis ,Basidiomycota ,Plant Roots ,Sugars ,mycorrhizal symbiosis ,host specificity ,trehalose ,CAZyme ,transposable elements ,effector ,evolution ,Biochemistry and Cell Biology ,Evolutionary Biology ,Biochemistry and cell biology ,Evolutionary biology - Abstract
The mutualistic ectomycorrhizal (ECM) fungal genus Pisolithus comprises 19 species defined to date which colonize the roots of >50 hosts worldwide suggesting that substantial genomic and functional evolution occurred during speciation. To better understand this intra-genus variation, we undertook a comparative multi-omic study of nine Pisolithus species sampled from North America, South America, Asia, and Australasia. We found that there was a small core set of genes common to all species (13%), and that these genes were more likely to be significantly regulated during symbiosis with a host than accessory or species-specific genes. Thus, the genetic "toolbox" foundational to the symbiotic lifestyle in this genus is small. Transposable elements were located significantly closer to gene classes including effector-like small secreted proteins (SSPs). Poorly conserved SSPs were more likely to be induced by symbiosis, suggesting that they may be a class of protein that tune host specificity. The Pisolithus gene repertoire is characterized by divergent CAZyme profiles when compared with other fungi, both symbiotic and saprotrophic. This was driven by differences in enzymes associated with symbiotic sugar processing, although metabolomic analysis suggest that neither copy number nor expression of these genes is sufficient to predict sugar capture from a host plant or its metabolism in fungal hyphae. Our results demonstrate that intra-genus genomic and functional diversity within ECM fungi is greater than previously thought, underlining the importance of continued comparative studies within the fungal tree of life to refine our focus on pathways and evolutionary processes foundational to this symbiotic lifestyle.
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- 2023
16. Diploid-dominant life cycles characterize the early evolution of Fungi
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Amses, Kevin R, Simmons, D Rabern, Longcore, Joyce E, Mondo, Stephen J, Seto, Kensuke, Jerônimo, Gustavo H, Bonds, Anne E, Quandt, C Alisha, Davis, William J, Chang, Ying, Federici, Brian A, Kuo, Alan, LaButti, Kurt, Pangilinan, Jasmyn, Andreopoulos, William, Tritt, Andrew, Riley, Robert, Hundley, Hope, Johnson, Jenifer, Lipzen, Anna, Barry, Kerrie, Lang, B Franz, Cuomo, Christina A, Buchler, Nicolas E, Grigoriev, Igor V, Spatafora, Joseph W, Stajich, Jason E, and James, Timothy Y
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Microbiology ,Biological Sciences ,Evolutionary Biology ,Genetics ,Diploidy ,Fungi ,Genome ,Fungal ,Life Cycle Stages ,Phylogeny ,life cycle evolution ,phylogenomics ,aquatic fungi ,plesiomorphy - Abstract
Most of the described species in kingdom Fungi are contained in two phyla, the Ascomycota and the Basidiomycota (subkingdom Dikarya). As a result, our understanding of the biology of the kingdom is heavily influenced by traits observed in Dikarya, such as aerial spore dispersal and life cycles dominated by mitosis of haploid nuclei. We now appreciate that Fungi comprises numerous phylum-level lineages in addition to those of Dikarya, but the phylogeny and genetic characteristics of most of these lineages are poorly understood due to limited genome sampling. Here, we addressed major evolutionary trends in the non-Dikarya fungi by phylogenomic analysis of 69 newly generated draft genome sequences of the zoosporic (flagellated) lineages of true fungi. Our phylogeny indicated five lineages of zoosporic fungi and placed Blastocladiomycota, which has an alternation of haploid and diploid generations, as branching closer to the Dikarya than to the Chytridiomyceta. Our estimates of heterozygosity based on genome sequence data indicate that the zoosporic lineages plus the Zoopagomycota are frequently characterized by diploid-dominant life cycles. We mapped additional traits, such as ancestral cell-cycle regulators, cell-membrane- and cell-wall-associated genes, and the use of the amino acid selenocysteine on the phylogeny and found that these ancestral traits that are shared with Metazoa have been subject to extensive parallel loss across zoosporic lineages. Together, our results indicate a gradual transition in the genetics and cell biology of fungi from their ancestor and caution against assuming that traits measured in Dikarya are typical of other fungal lineages.
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- 2022
17. Phyllosticta paracitricarpa is synonymous with the EU quarantine fungus P. citricarpa based on phylogenomic analyses
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van Ingen-Buijs, Valerie A., van Westerhoven, Anouk C., Skiadas, Petros, Zuijdgeest, Xander C.L., Haridas, Sajeet, Daum, Christopher, Duffy, Kecia, Guo, Jie, Hundley, Hope, LaButti, Kurt, Lipzen, Anna, Pangilinan, Jasmyn, Riley, Robert, Wang, Jie, Yan, Mi, Martin, Francis, Barry, Kerrie, Grigoriev, Igor V., Groenewald, Johannes Z., Crous, Pedro W., and Seidl, Michael F.
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- 2024
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18. Multi-omics profiling of the cold tolerant Monoraphidium minutum 26B-AM in response to abiotic stress
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Calhoun, Sara, Kamel, Bishoy, Bell, Tisza AS, Kruse, Colin PS, Riley, Robert, Singan, Vasanth, Kunde, Yuliya, Gleasner, Cheryl D, Chovatia, Mansi, Sandor, Laura, Daum, Christopher, Treen, Daniel, Bowen, Benjamin P, Louie, Katherine B, Northen, Trent R, Starkenburg, Shawn R, and Grigoriev, Igor V
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Biological Sciences ,Industrial Biotechnology ,Genetics ,Genomics ,Transcriptomics ,Metabolomics ,Salt stress ,Temperature stress ,Plant Biology ,Chemical Engineering ,Plant biology ,Chemical engineering - Published
- 2022
19. Population genomics provides insights into the genetic basis of adaptive evolution in the mushroom-forming fungus Lentinula edodes
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Zhang, Jingcheng, Shen, Nan, Li, Chuang, Xiang, Xingjie, Liu, Gaolei, Gui, Ying, Patev, Sean, Hibbett, David S, Barry, Kerrie, Andreopoulos, William, Lipzen, Anna, Riley, Robert, He, Guifen, Yan, Mi, Grigoriev, Igor V, Kwan, Hoi Shan, Cheung, Man Kit, Bian, Yinbing, and Xiao, Yang
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Biological Sciences ,Evolutionary Biology ,Genetics ,Biotechnology ,Human Genome ,Agaricales ,Genome ,Genome-Wide Association Study ,Metagenomics ,Shiitake Mushrooms ,Shiitake ,Population genomics ,Adaptation ,Genetic divergence ,GWAS ,Phenotypic differentiation - Abstract
IntroductionMushroom-forming fungi comprise diverse species that develop complex multicellular structures. In cultivated species, both ecological adaptation and artificial selection have driven genome evolution. However, little is known about the connections among genotype, phenotype and adaptation in mushroom-forming fungi.ObjectivesThis study aimed to (1) uncover the population structure and demographic history of Lentinula edodes, (2) dissect the genetic basis of adaptive evolution in L. edodes, and (3) determine if genes related to fruiting body development are involved in adaptive evolution.MethodsWe analyzed genomes and fruiting body-related traits (FBRTs) in 133 L. edodes strains and conducted RNA-seq analysis of fruiting body development in the YS69 strain. Combined methods of genomic scan for divergence, genome-wide association studies (GWAS), and RNA-seq were used to dissect the genetic basis of adaptive evolution.ResultsWe detected three distinct subgroups of L. edodes via single nucleotide polymorphisms, which showed robust phenotypic and temperature response differentiation and correlation with geographical distribution. Demographic history inference suggests that the subgroups diverged 36,871 generations ago. Moreover, L. edodes cultivars in China may have originated from the vicinity of Northeast China. A total of 942 genes were found to be related to genetic divergence by genomic scan, and 719 genes were identified to be candidates underlying FBRTs by GWAS. Integrating results of genomic scan and GWAS, 80 genes were detected to be related to phenotypic differentiation. A total of 364 genes related to fruiting body development were involved in genetic divergence and phenotypic differentiation.ConclusionAdaptation to the local environment, especially temperature, triggered genetic divergence and phenotypic differentiation of L. edodes. A general model for genetic divergence and phenotypic differentiation during adaptive evolution in L. edodes, which involves in signal perception and transduction, transcriptional regulation, and fruiting body morphogenesis, was also integrated here.
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- 2022
20. Global Consensus Recommendations on Improving the Safety of Chronic Total Occlusion Interventions
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Rafeh, Nidal Abi, Agostoni, Pierfrancesco, Alaswad, Khaldoon, Araya, Mario, Avran, Alexandre, Ayoub, Mohamed, Azzalini, Lorenzo, Babunashvili, Avtandil M., Bayani, Baktash, Behnes, Michael, Bhindi, Ravinay, Boudou, Nicolas, Boukhris, Marouane, Bozinovic, Nenad Z., Bryniarski, Leszek, Bufe, Alexander, Buller, Christopher E., Burke, M. Nicholas, Buettner, Heinz Joachim, Cardoso, Pedro, Carlino, Mauro, Chan, Chi-Kin, Chen, Jiyan, Christiansen, Evald Hoej, Colombo, Antonio, Croce, Kevin, Damas de los Santos, Felix, de Martini, Tony, Dens, Joseph, di Mario, Carlo, Doshi, Darshan, Dou, Kefei, Egred, Mohaned, Elbarouni, Basem, ElGuindy, Ahmed M., Escaned, Javier, Furkalo, Sergey, Gagnor, Andrea, Galassi, Alfredo R., Garbo, Roberto, L.Gasparini, Gabriele, Ge, Junbo, Ge, Lei, Goel, Pravin Kumar, Goktekin, Omer, Gonzalo, Nieves, Gorgulu, Sevket, Grancini, Luca, Hall, Allison B., Hanratty, Colm, Harb, Stefan, Harding, Scott A., Hatem, Raja, Hellig, Farrel, Henriques, Jose P.S., Hildick-Smith, David, Hill, Jonathan M., Hoye, Angela, Jaber, Wissam, Jaffer, Farouc A., Jang, Yangsoo, Jussila, Risto, Kalnins, Artis, Kalra, Sanjog, Kandzari, David E., Kao, Hsien-Li, Karmpaliotis, Dimitri, Kassem, Hussien Heshmat, Kearney, Kathleen E., Kerrigan, Jimmy, Khatri, Jaikirshan, Khelimskii, Dmitri, Kirtane, Ajay J., Knaapen, Paul, Kornowski, Ran, Krestyaninov, Oleg, Kumar, V. Ganesh, Kumar, Prathap, Lamelas, Pablo Manuel, Lee, Seung-Whan, Lefevre, Thierry, Leibundgut, Gregor, Leung, Raymond, Leung, Sum-Kin, Li, Yu, Li, Yue, Lim, Soo-Teik, Lo, Sidney, Lombardi, William, Maran, Anbukarasi, McEntegart, Margaret, Moses, Jeffrey, Munawar, Muhammad, Nagamatsu, Wataru, Navarro, Andres, Ngo, Hung M., Nicholson, William, Oksnes, Anja, Olivecrona, Goran K., Padilla, Lucio, Patel, Mitul, Pershad, Ashish, Postu, Marin, Pyxaras, Stylianos, Qian, Jie, Quadros, Alexandre, Hanna Quesada, Franklin Leonardo, Råmunddal, Truls, Rao, Vithala Suryaprakasa, Rathore, Sudhir, Reifart, Nicolaus, Riley, Robert F., Rinfret, Stephane, Saghatelyan, Meruzhan, Santiago, Ricardo, Seth, Ashok, Sianos, Georgios, Smith, Elliot, Spaedy, Anthony, Spratt, James, Stone, Gregg W., Strange, Julian W., Tammam, Khalid O., Thompson, Craig A., Toma, Aurel, Tremmel, Jennifer A., Ungi, Imre, Vadalà, Giuseppe, Vo, Minh, Vu, Vu Hoang, Walsh, Simon, Weilenmann, Daniel, Werner, Gerald S., Wojcik, Jaroslaw, Wollmuth, Jason, Wu, Chiung-Jen, Xu, Bo, Yamane, Masahisa, Ybarra, Luiz F., Yeh, Robert W., Zambakides, Chris, Zhang, Qi, Wu, Eugene B., Kalyanasundaram, Arun, Brilakis, Emmanouil S., Mashayekhi, Kambis, and Tsuchikane, Etsuo
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- 2024
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21. Emergency coronary artery bypass surgery after chronic total occlusion percutaneous coronary intervention: Insights from the PROGRESS-CTO registry
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Mutlu, Deniz, Rempakos, Athanasios, Alexandrou, Michaella, Al-Ogaili, Ahmed, Gorgulu, Sevket, Choi, James W., Elbarouni, Basem, Khatri, Jaikirshan J., Jaffer, Farouc, Riley, Robert, Smith, A.J. Conrad, Davies, Rhian, Frizzel, Jarrod, Patel, Mitul, Koutouzis, Michalis, Tsiafoutis, Ioannis, Rangan, Bavana V., Mastrodemos, Olga C., Sandoval, Yader, Burke, M. Nicholas, and Brilakis, Emmanouil S.
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- 2024
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22. Ecological generalism drives hyperdiversity of secondary metabolite gene clusters in xylarialean endophytes
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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
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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.
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- 2022
23. On the origin of bird’s nest fungi: Phylogenomic analyses of fungi in the Nidulariaceae (Agaricales, Basidiomycota)
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Kraisitudomsook, Nattapol, Ahrendt, Steven, Riley, Robert, LaButti, Kurt, Lipzen, Anna, Daum, Chris, Barry, Kerrie, Grigoriev, Igor V., Rämä, Teppo, Martin, Francis, and Smith, Matthew E.
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- 2024
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24. SCAI Expert Consensus Statement on the Management of Calcified Coronary Lesions
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Riley, Robert F., Patel, Mitul P., Abbott, J. Dawn, Bangalore, Sripal, Brilakis, Emanouil S., Croce, Kevin J., Doshi, Darshan, Kaul, Prashant, Kearney, Kathleen E., Kerrigan, Jimmy L., McEntegart, Margaret, Maehara, Akiko, Rymer, Jennifer A., Sutton, Nadia R., and Shah, Binita
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- 2024
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25. Retrospective Multicenter Analysis of Intravascular Lithotripsy Use During Calcified Left Main Coronary Artery Percutaneous Coronary Interventions
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Riley, Robert F., Miller, Larry E., Davies, Rhian, Alaswad, Khaldoon, Al-Jebaje, Zaid, Doshi, Darshan, Jaffer, Farouc A., Adusumalli, Srikanth, Frizzell, Jarrod D., Kumar, Kris, Patel, Mitul P., Dakroub, Ali, and Ali, Ziad A.
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- 2024
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26. HT-SIP: a semi-automated stable isotope probing pipeline identifies cross-kingdom interactions in the hyphosphere of arbuscular mycorrhizal fungi
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Nuccio, Erin E, Blazewicz, Steven J, Lafler, Marissa, Campbell, Ashley N, Kakouridis, Anne, Kimbrel, Jeffrey A, Wollard, Jessica, Vyshenska, Dariia, Riley, Robert, Tomatsu, Andy, Hestrin, Rachel, Malmstrom, Rex R, Firestone, Mary, and Pett-Ridge, Jennifer
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Microbiology ,Biological Sciences ,Ecology ,Bioengineering ,Mycorrhizae ,Phylogeny ,Soil Microbiology ,Ammonia ,Reproducibility of Results ,Soil ,Isotopes ,Plants ,DNA ,Stable-isotope probing ,Metagenomics ,Microbial community ,Arbuscular mycorrhizal fungi ,SIP ,AMF ,Bacteria ,Archaea ,Ammonia oxidation ,Medical Microbiology ,Evolutionary biology - Abstract
BackgroundLinking the identity of wild microbes with their ecophysiological traits and environmental functions is a key ambition for microbial ecologists. Of many techniques that strive for this goal, Stable-isotope probing-SIP-remains among the most comprehensive for studying whole microbial communities in situ. In DNA-SIP, actively growing microorganisms that take up an isotopically heavy substrate build heavier DNA, which can be partitioned by density into multiple fractions and sequenced. However, SIP is relatively low throughput and requires significant hands-on labor. We designed and tested a semi-automated, high-throughput SIP (HT-SIP) pipeline to support well-replicated, temporally resolved amplicon and metagenomics experiments. We applied this pipeline to a soil microhabitat with significant ecological importance-the hyphosphere zone surrounding arbuscular mycorrhizal fungal (AMF) hyphae. AMF form symbiotic relationships with most plant species and play key roles in terrestrial nutrient and carbon cycling.ResultsOur HT-SIP pipeline for fractionation, cleanup, and nucleic acid quantification of density gradients requires one-sixth of the hands-on labor compared to manual SIP and allows 16 samples to be processed simultaneously. Automated density fractionation increased the reproducibility of SIP gradients compared to manual fractionation, and we show adding a non-ionic detergent to the gradient buffer improved SIP DNA recovery. We applied HT-SIP to 13C-AMF hyphosphere DNA from a 13CO2 plant labeling study and created metagenome-assembled genomes (MAGs) using high-resolution SIP metagenomics (14 metagenomes per gradient). SIP confirmed the AMF Rhizophagus intraradices and associated MAGs were highly enriched (10-33 atom% 13C), even though the soils' overall enrichment was low (1.8 atom% 13C). We assembled 212 13C-hyphosphere MAGs; the hyphosphere taxa that assimilated the most AMF-derived 13C were from the phyla Myxococcota, Fibrobacterota, Verrucomicrobiota, and the ammonia-oxidizing archaeon genus Nitrososphaera.ConclusionsOur semi-automated HT-SIP approach decreases operator time and improves reproducibility by targeting the most labor-intensive steps of SIP-fraction collection and cleanup. We illustrate this approach in a unique and understudied soil microhabitat-generating MAGs of actively growing microbes living in the AMF hyphosphere (without plant roots). The MAGs' phylogenetic composition and gene content suggest predation, decomposition, and ammonia oxidation may be key processes in hyphosphere nutrient cycling. Video Abstract.
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- 2022
27. Phylogenomics and Comparative Genomics Highlight Specific Genetic Features in Ganoderma Species
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Sun, Yi-Fei, Lebreton, Annie, Xing, Jia-Hui, Fang, Yu-Xuan, Si, Jing, Morin, Emmanuelle, Miyauchi, Shingo, Drula, Elodie, Ahrendt, Steven, Cobaugh, Kelly, Lipzen, Anna, Koriabine, Maxim, Riley, Robert, Kohler, Annegret, Barry, Kerrie, Henrissat, Bernard, Grigoriev, Igor V, Martin, Francis M, and Cui, Bao-Kai
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Microbiology ,Biological Sciences ,Genetics ,Biotechnology ,Human Genome ,Generic health relevance ,Ganoderma ,genomics ,secondary metabolism ,secretome ,terpenes ,wood decay - Abstract
The Ganoderma species in Polyporales are ecologically and economically relevant wood decayers used in traditional medicine, but their genomic traits are still poorly documented. In the present study, we carried out a phylogenomic and comparative genomic analyses to better understand the genetic blueprint of this fungal lineage. We investigated seven Ganoderma genomes, including three new genomes, G. australe, G. leucocontextum, and G. lingzhi. The size of the newly sequenced genomes ranged from 60.34 to 84.27 Mb and they encoded 15,007 to 20,460 genes. A total of 58 species, including 40 white-rot fungi, 11 brown-rot fungi, four ectomycorrhizal fungi, one endophyte fungus, and two pathogens in Basidiomycota, were used for phylogenomic analyses based on 143 single-copy genes. It confirmed that Ganoderma species belong to the core polyporoid clade. Comparing to the other selected species, the genomes of the Ganoderma species encoded a larger set of genes involved in terpene metabolism and coding for secreted proteins (CAZymes, lipases, proteases and SSPs). Of note, G. australe has the largest genome size with no obvious genome wide duplication, but showed transposable elements (TEs) expansion and the largest set of terpene gene clusters, suggesting a high ability to produce terpenoids for medicinal treatment. G. australe also encoded the largest set of proteins containing domains for cytochrome P450s, heterokaryon incompatibility and major facilitator families. Besides, the size of G. australe secretome is the largest, including CAZymes (AA9, GH18, A01A), proteases G01, and lipases GGGX, which may enhance the catabolism of cell wall carbohydrates, proteins, and fats during hosts colonization. The current genomic resource will be used to develop further biotechnology and medicinal applications, together with ecological studies of the Ganoderma species.
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- 2022
28. Gene family expansions and transcriptome signatures uncover fungal adaptations to wood decay.
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Hage, Hayat, Miyauchi, Shingo, Virágh, Máté, Drula, Elodie, Min, Byoungnam, Chaduli, Delphine, Navarro, David, Favel, Anne, Norest, Manon, Lesage-Meessen, Laurence, Bálint, Balázs, Merényi, Zsolt, de Eugenio, Laura, Morin, Emmanuelle, Martínez, Angel T, Baldrian, Petr, Štursová, Martina, Martínez, María Jesús, Novotny, Cenek, Magnuson, Jon K, Spatafora, Joey W, Maurice, Sundy, Pangilinan, Jasmyn, Andreopoulos, Willian, LaButti, Kurt, Hundley, Hope, Na, Hyunsoo, Kuo, Alan, Barry, Kerrie, Lipzen, Anna, Henrissat, Bernard, Riley, Robert, Ahrendt, Steven, Nagy, László G, Grigoriev, Igor V, Martin, Francis, and Rosso, Marie-Noëlle
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Genetics ,Biotechnology ,Human Genome ,Microbiology ,Evolutionary Biology - Abstract
Because they comprise some of the most efficient wood-decayers, Polyporales fungi impact carbon cycling in forest environment. Despite continuous discoveries on the enzymatic machinery involved in wood decomposition, the vision on their evolutionary adaptation to wood decay and genome diversity remains incomplete. We combined the genome sequence information from 50 Polyporales species, including 26 newly sequenced genomes and sought for genomic and functional adaptations to wood decay through the analysis of genome composition and transcriptome responses to different carbon sources. The genomes of Polyporales from different phylogenetic clades showed poor conservation in macrosynteny, indicative of genome rearrangements. We observed different gene family expansion/contraction histories for plant cell wall degrading enzymes in core polyporoids and phlebioids and captured expansions for genes involved in signalling and regulation in the lineages of white rotters. Furthermore, we identified conserved cupredoxins, thaumatin-like proteins and lytic polysaccharide monooxygenases with a yet uncharacterized appended module as new candidate players in wood decomposition. Given the current need for enzymatic toolkits dedicated to the transformation of renewable carbon sources, the observed genomic diversity among Polyporales strengthens the relevance of mining Polyporales biodiversity to understand the molecular mechanisms of wood decay.
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- 2021
29. Comprehensive Shielding System Enhances Radiation Protection for Structural Heart Procedures
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Rizik, David G., Burke, Robert F., Klassen, Sabrina R., Nigoghosian, Ariana M., Riley, Robert D., Gosselin, Kevin P., and Goldstein, James A.
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- 2024
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30. Coronary Intravascular Lithotripsy for Treatment of Severely Calcified Lesions: Long-Term Sex-Specific Outcomes
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Frampton, Jennifer, Kearney, Kathleen E., Abbott, J. Dawn, Kereiakes, Dean J., Di Mario, Carlo, Saito, Shigeru, Cristea, Ecaterina, Riley, Robert F., Fajadet, Jean, Shlofmitz, Richard A., Ali, Ziad A., Klein, Andrew J., Price, Matthew J., Hill, Jonathan M., Stone, Gregg W., and Lansky, Alexandra J.
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- 2023
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31. Genomic Analysis Enlightens Agaricales Lifestyle Evolution and Increasing Peroxidase Diversity
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Ruiz-Dueñas, Francisco J, Barrasa, José M, Sánchez-García, Marisol, Camarero, Susana, Miyauchi, Shingo, Serrano, Ana, Linde, Dolores, Babiker, Rashid, Drula, Elodie, Ayuso-Fernández, Iván, Pacheco, Remedios, Padilla, Guillermo, Ferreira, Patricia, Barriuso, Jorge, Kellner, Harald, Castanera, Raúl, Alfaro, Manuel, Ramírez, Lucía, Pisabarro, Antonio G, Riley, Robert, Kuo, Alan, Andreopoulos, William, LaButti, Kurt, Pangilinan, Jasmyn, Tritt, Andrew, Lipzen, Anna, He, Guifen, Yan, Mi, Ng, Vivian, Grigoriev, Igor V, Cullen, Daniel, Martin, Francis, Rosso, Marie-Noëlle, Henrissat, Bernard, Hibbett, David, and Martínez, Angel T
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Biological Sciences ,Ecology ,Genetics ,Agaricales ,Ecosystem ,Genome ,Fungal ,Lignin ,Multigene Family ,Peroxidases ,Phylogeny ,lifestyle evolution ,lignocellulose decay ,plant cell-wall degrading enzymes ,ligninolytic peroxidases ,ancestral-sequence reconstruction ,Biochemistry and Cell Biology ,Evolutionary Biology ,Biochemistry and cell biology ,Evolutionary biology - Abstract
As actors of global carbon cycle, Agaricomycetes (Basidiomycota) have developed complex enzymatic machineries that allow them to decompose all plant polymers, including lignin. Among them, saprotrophic Agaricales are characterized by an unparalleled diversity of habitats and lifestyles. Comparative analysis of 52 Agaricomycetes genomes (14 of them sequenced de novo) reveals that Agaricales possess a large diversity of hydrolytic and oxidative enzymes for lignocellulose decay. Based on the gene families with the predicted highest evolutionary rates-namely cellulose-binding CBM1, glycoside hydrolase GH43, lytic polysaccharide monooxygenase AA9, class-II peroxidases, glucose-methanol-choline oxidase/dehydrogenases, laccases, and unspecific peroxygenases-we reconstructed the lifestyles of the ancestors that led to the extant lignocellulose-decomposing Agaricomycetes. The changes in the enzymatic toolkit of ancestral Agaricales are correlated with the evolution of their ability to grow not only on wood but also on leaf litter and decayed wood, with grass-litter decomposers as the most recent eco-physiological group. In this context, the above families were analyzed in detail in connection with lifestyle diversity. Peroxidases appear as a central component of the enzymatic toolkit of saprotrophic Agaricomycetes, consistent with their essential role in lignin degradation and high evolutionary rates. This includes not only expansions/losses in peroxidase genes common to other basidiomycetes but also the widespread presence in Agaricales (and Russulales) of new peroxidases types not found in wood-rotting Polyporales, and other Agaricomycetes orders. Therefore, we analyzed the peroxidase evolution in Agaricomycetes by ancestral-sequence reconstruction revealing several major evolutionary pathways and mapped the appearance of the different enzyme types in a time-calibrated species tree.
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- 2021
32. Comparative genomics reveals dynamic genome evolution in host specialist ectomycorrhizal fungi
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Lofgren, Lotus A, Nguyen, Nhu H, Vilgalys, Rytas, Ruytinx, Joske, Liao, Hui‐Ling, Branco, Sara, Kuo, Alan, LaButti, Kurt, Lipzen, Anna, Andreopoulos, William, Pangilinan, Jasmyn, Riley, Robert, Hundley, Hope, Na, Hyunsoo, Barry, Kerrie, Grigoriev, Igor V, Stajich, Jason E, and Kennedy, Peter G
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Microbiology ,Biological Sciences ,Genetics ,Biotechnology ,Human Genome ,Evolution ,Molecular ,Fungi ,Genome ,Fungal ,Genomics ,Mycorrhizae ,Pinus ,Specialization ,genomics ,G‐ ,protein coupled receptors ,host specificity ,secondary metabolites ,small secreted proteins ,Suillus ,G-protein coupled receptors ,Agricultural and Veterinary Sciences ,Plant Biology & Botany ,Plant biology ,Climate change impacts and adaptation ,Ecological applications - Abstract
While there has been significant progress characterizing the 'symbiotic toolkit' of ectomycorrhizal (ECM) fungi, how host specificity may be encoded into ECM fungal genomes remains poorly understood. We conducted a comparative genomic analysis of ECM fungal host specialists and generalists, focusing on the specialist genus Suillus. Global analyses of genome dynamics across 46 species were assessed, along with targeted analyses of three classes of molecules previously identified as important determinants of host specificity: small secreted proteins (SSPs), secondary metabolites (SMs) and G-protein coupled receptors (GPCRs). Relative to other ECM fungi, including other host specialists, Suillus had highly dynamic genomes including numerous rapidly evolving gene families and many domain expansions and contractions. Targeted analyses supported a role for SMs but not SSPs or GPCRs in Suillus host specificity. Phylogenomic-based ancestral state reconstruction identified Larix as the ancestral host of Suillus, with multiple independent switches between white and red pine hosts. These results suggest that like other defining characteristics of the ECM lifestyle, host specificity is a dynamic process at the genome level. In the case of Suillus, both SMs and pathways involved in the deactivation of reactive oxygen species appear to be strongly associated with enhanced host specificity.
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- 2021
33. Long-read metagenomics of soil communities reveals phylum-specific secondary metabolite dynamics
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Van Goethem, Marc, Osborn, Andrew, Bowen, Benjamin, Andeer, Peter, Swenson, Tami, Clum, Alicia, Riley, Robert, He, Guifen, Koriabine, Maxim, Sandor, Laura, Yan, Mi, Daum, Chris, Yoshinaga, Yuko, Makhalanyane, Thulani, Garcia-Pichel, Ferran, Visel, Axel, Pennacchio, Len, O’Malley, Ronan, and Northen, Trent
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Genetics - Abstract
Microbial biosynthetic gene clusters (BGCs) encoding secondary metabolites are thought to impact a plethora of biologically mediated environmental processes, yet their discovery and functional characterization in natural microbiomes remains challenging. Here we describe deep long-read sequencing and assembly of metagenomes from biological soil crusts, a group of soil communities that are rich in BGCs. Taking advantage of the unusually long assemblies produced by this approach, we recovered nearly 3,000 BGCs for analysis, including 695 novel, full-length BGCs. Functional exploration through metatranscriptome analysis of a 3-day wetting experiment uncovered phylum-specific BGC expression upon activation from dormancy, elucidating distinct roles and complex phylogenetic and temporal dynamics in wetting processes. For example, a pronounced increase in BGC transcription occurs at night in cyanobacteria but not in other phyla, implicating BGCs in nutrient scavenging roles and niche competition. Taken together, our results demonstrate that long-read metagenomic sequencing combined with metatranscriptomic analysis provides a direct view into the functional dynamics of BGCs in environmental processes and suggests a central role of secondary metabolites in maintaining phylogenetically conserved niches within biocrusts.
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- 2021
34. Genetic determinants of endophytism in the Arabidopsis root mycobiome
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Mesny, Fantin, Miyauchi, Shingo, Thiergart, Thorsten, Pickel, Brigitte, Atanasova, Lea, Karlsson, Magnus, Hüttel, Bruno, Barry, Kerrie W, Haridas, Sajeet, Chen, Cindy, Bauer, Diane, Andreopoulos, William, Pangilinan, Jasmyn, LaButti, Kurt, Riley, Robert, Lipzen, Anna, Clum, Alicia, Drula, Elodie, Henrissat, Bernard, Kohler, Annegret, Grigoriev, Igor V, Martin, Francis M, and Hacquard, Stéphane
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Microbiology ,Plant Biology ,Biological Sciences ,Genetics ,Arabidopsis ,Cell Wall ,Cellulose ,Endophytes ,Fungi ,Genome ,Genome ,Fungal ,Genomics ,Mycobiome ,Phylogeny ,Plant Roots ,Symbiosis ,Xylans - Abstract
The roots of Arabidopsis thaliana host diverse fungal communities that affect plant health and disease states. Here, we sequence the genomes of 41 fungal isolates representative of the A. thaliana root mycobiota for comparative analysis with other 79 plant-associated fungi. Our analyses indicate that root mycobiota members evolved from ancestors with diverse lifestyles and retain large repertoires of plant cell wall-degrading enzymes (PCWDEs) and effector-like small secreted proteins. We identify a set of 84 gene families associated with endophytism, including genes encoding PCWDEs acting on xylan (family GH10) and cellulose (family AA9). Transcripts encoding these enzymes are also part of a conserved transcriptional program activated by phylogenetically-distant mycobiota members upon host contact. Recolonization experiments with individual fungi indicate that strains with detrimental effects in mono-association with the host colonize roots more aggressively than those with beneficial activities, and dominate in natural root samples. Furthermore, we show that the pectin-degrading enzyme family PL1_7 links aggressiveness of endophytic colonization to plant health.
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- 2021
35. Long-read metagenomics of soil communities reveals phylum-specific secondary metabolite dynamics
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Van Goethem, Marc W, Osborn, Andrew R, Bowen, Benjamin P, Andeer, Peter F, Swenson, Tami L, Clum, Alicia, Riley, Robert, He, Guifen, Koriabine, Maxim, Sandor, Laura, Yan, Mi, Daum, Chris G, Yoshinaga, Yuko, Makhalanyane, Thulani P, Garcia-Pichel, Ferran, Visel, Axel, Pennacchio, Len A, O’Malley, Ronan C, and Northen, Trent R
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Microbiology ,Biological Sciences ,Genetics ,Bacteria ,Metagenome ,Metagenomics ,Microbiota ,Multigene Family ,Secondary Metabolism ,Soil Microbiology ,Utah ,Biological sciences ,Biomedical and clinical sciences - Abstract
Microbial biosynthetic gene clusters (BGCs) encoding secondary metabolites are thought to impact a plethora of biologically mediated environmental processes, yet their discovery and functional characterization in natural microbiomes remains challenging. Here we describe deep long-read sequencing and assembly of metagenomes from biological soil crusts, a group of soil communities that are rich in BGCs. Taking advantage of the unusually long assemblies produced by this approach, we recovered nearly 3,000 BGCs for analysis, including 712 full-length BGCs. Functional exploration through metatranscriptome analysis of a 3-day wetting experiment uncovered phylum-specific BGC expression upon activation from dormancy, elucidating distinct roles and complex phylogenetic and temporal dynamics in wetting processes. For example, a pronounced increase in BGC transcription occurs at night primarily in cyanobacteria, implicating BGCs in nutrient scavenging roles and niche competition. Taken together, our results demonstrate that long-read metagenomic sequencing combined with metatranscriptomic analysis provides a direct view into the functional dynamics of BGCs in environmental processes and suggests a central role of secondary metabolites in maintaining phylogenetically conserved niches within biocrusts.
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- 2021
36. Comprehensive Radiation Shield Minimizes Operator Radiation Exposure and Obviates Need for Lead Aprons
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Rizik, David G., Riley, Robert D., Burke, Robert F., Klassen, Sabrina R., Nigoghosian, Ariana M., Gosselin, Kevin P., and Goldstein, James A.
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- 2023
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37. Comparative Efficacy of Obstructive Sleep Apnea Patients Undergoing Multilevel Surgery Followed by Upper Airway Stimulation Versus Isolated Upper Airway Stimulation
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Chang, Corissa P., Poomkonsarn, Sasikarn, Giannakopoulos, Helen, Ma, Yifei, Riley, Robert, and Liu, Stanley Yung
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- 2023
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38. Author Correction: Genome sequencing of Rigidoporus microporus provides insights on genes important for wood decay, latex tolerance and interspecific fungal interactions.
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Oghenekaro, Abbot O, Kovalchuk, Andriy, Raffaello, Tommaso, Camarero, Susana, Gressler, Markus, Henrissat, Bernard, Lee, Juna, Liu, Mengxia, Martínez, Angel T, Miettinen, Otto, Mihaltcheva, Sirma, Pangilinan, Jasmyn, Ren, Fei, Riley, Robert, Ruiz-Dueñas, Francisco Javier, Serrano, Ana, Thon, Michael R, Wen, Zilan, Zeng, Zhen, Barry, Kerrie, Grigoriev, Igor V, Martin, Francis, and Asiegbu, Fred O
- Abstract
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
- Published
- 2020
39. Large-scale genome sequencing of mycorrhizal fungi provides insights into the early evolution of symbiotic traits.
- Author
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Miyauchi, Shingo, Kiss, Enikő, Kuo, Alan, Drula, Elodie, Kohler, Annegret, Sánchez-García, Marisol, Morin, Emmanuelle, Andreopoulos, Bill, Barry, Kerrie W, Bonito, Gregory, Buée, Marc, Carver, Akiko, Chen, Cindy, Cichocki, Nicolas, Clum, Alicia, Culley, David, Crous, Pedro W, Fauchery, Laure, Girlanda, Mariangela, Hayes, Richard D, Kéri, Zsófia, LaButti, Kurt, Lipzen, Anna, Lombard, Vincent, Magnuson, Jon, Maillard, François, Murat, Claude, Nolan, Matt, Ohm, Robin A, Pangilinan, Jasmyn, Pereira, Maíra de Freitas, Perotto, Silvia, Peter, Martina, Pfister, Stephanie, Riley, Robert, Sitrit, Yaron, Stielow, J Benjamin, Szöllősi, Gergely, Žifčáková, Lucia, Štursová, Martina, Spatafora, Joseph W, Tedersoo, Leho, Vaario, Lu-Min, Yamada, Akiyoshi, Yan, Mi, Wang, Pengfei, Xu, Jianping, Bruns, Tom, Baldrian, Petr, Vilgalys, Rytas, Dunand, Christophe, Henrissat, Bernard, Grigoriev, Igor V, Hibbett, David, Nagy, László G, and Martin, Francis M
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Fungi ,Mycorrhizae ,Plants ,Fungal Proteins ,Ecosystem ,Evolution ,Molecular ,Phylogeny ,Symbiosis ,Genome ,Fungal ,Plant Physiological Phenomena ,Genetics ,Biotechnology - Abstract
Mycorrhizal fungi are mutualists that play crucial roles in nutrient acquisition in terrestrial ecosystems. Mycorrhizal symbioses arose repeatedly across multiple lineages of Mucoromycotina, Ascomycota, and Basidiomycota. Considerable variation exists in the capacity of mycorrhizal fungi to acquire carbon from soil organic matter. Here, we present a combined analysis of 135 fungal genomes from 73 saprotrophic, endophytic and pathogenic species, and 62 mycorrhizal species, including 29 new mycorrhizal genomes. This study samples ecologically dominant fungal guilds for which there were previously no symbiotic genomes available, including ectomycorrhizal Russulales, Thelephorales and Cantharellales. Our analyses show that transitions from saprotrophy to symbiosis involve (1) widespread losses of degrading enzymes acting on lignin and cellulose, (2) co-option of genes present in saprotrophic ancestors to fulfill new symbiotic functions, (3) diversification of novel, lineage-specific symbiosis-induced genes, (4) proliferation of transposable elements and (5) divergent genetic innovations underlying the convergent origins of the ectomycorrhizal guild.
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- 2020
40. Terabase-scale metagenome coassembly with MetaHipMer.
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Hofmeyr, Steven, Egan, Rob, Georganas, Evangelos, Copeland, Alex C, Riley, Robert, Clum, Alicia, Eloe-Fadrosh, Emiley, Roux, Simon, Goltsman, Eugene, Buluç, Aydın, Rokhsar, Daniel, Oliker, Leonid, and Yelick, Katherine
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Pseudoalteromonas ,Sequence Analysis ,DNA ,Computational Biology ,Genome ,Bacterial ,Algorithms ,Computers ,Metagenome ,Metagenomics ,Microbiota ,Sequence Analysis ,DNA ,Genome ,Bacterial - Abstract
Metagenome sequence datasets can contain terabytes of reads, too many to be coassembled together on a single shared-memory computer; consequently, they have only been assembled sample by sample (multiassembly) and combining the results is challenging. We can now perform coassembly of the largest datasets using MetaHipMer, a metagenome assembler designed to run on supercomputers and large clusters of compute nodes. We have reported on the implementation of MetaHipMer previously; in this paper we focus on analyzing the impact of very large coassembly. In particular, we show that coassembly recovers a larger genome fraction than multiassembly and enables the discovery of more complete genomes, with lower error rates, whereas multiassembly recovers more dominant strain variation. Being able to coassemble a large dataset does not preclude one from multiassembly; rather, having a fast, scalable metagenome assembler enables a user to more easily perform coassembly and multiassembly, and assemble both abundant, high strain variation genomes, and low-abundance, rare genomes. We present several assemblies of terabyte datasets that could never be coassembled before, demonstrating MetaHipMer's scaling power. MetaHipMer is available for public use under an open source license and all datasets used in the paper are available for public download.
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- 2020
41. Conserved white-rot enzymatic mechanism for wood decay in the Basidiomycota genus Pycnoporus.
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Miyauchi, Shingo, Hage, Hayat, Drula, Elodie, Lesage-Meessen, Laurence, Berrin, Jean-Guy, Navarro, David, Favel, Anne, Chaduli, Delphine, Grisel, Sacha, Haon, Mireille, Piumi, François, Levasseur, Anthony, Lomascolo, Anne, Ahrendt, Steven, Barry, Kerrie, LaButti, Kurt, Chevret, Didier, Daum, Chris, Mariette, Jérôme, Klopp, Christophe, Cullen, Daniel, de Vries, Ronald, Gathman, Allen, Hainaut, Matthieu, Henrissat, Bernard, Hildén, Kristiina, Kües, Ursula, Lilly, Walt, Mäkelä, Miia, Martinez, Angel, Morel-Rouhier, Mélanie, Morin, Emmanuelle, Pangilinan, Jasmyn, Ram, Arthur, Wösten, Han, Ruiz-Dueñas, Francisco, Record, Eric, Rosso, Marie-Noëlle, Grigoriev, Igor, Lipzen, Anna, and Riley, Robert
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CAZyme ,Class II Peroxidase ,lignocellulose ,lytic polysaccharide monooxygenase ,wood decay ,Carbohydrate Dehydrogenases ,Cellulose ,Fungal Proteins ,Genome ,Fungal ,Lignin ,Phylogeny ,Pycnoporus ,Wood - Abstract
White-rot (WR) fungi are pivotal decomposers of dead organic matter in forest ecosystems and typically use a large array of hydrolytic and oxidative enzymes to deconstruct lignocellulose. However, the extent of lignin and cellulose degradation may vary between species and wood type. Here, we combined comparative genomics, transcriptomics and secretome proteomics to identify conserved enzymatic signatures at the onset of wood-decaying activity within the Basidiomycota genus Pycnoporus. We observed a strong conservation in the genome structures and the repertoires of protein-coding genes across the four Pycnoporus species described to date, despite the species having distinct geographic distributions. We further analysed the early response of P. cinnabarinus, P. coccineus and P. sanguineus to diverse (ligno)-cellulosic substrates. We identified a conserved set of enzymes mobilized by the three species for breaking down cellulose, hemicellulose and pectin. The co-occurrence in the exo-proteomes of H2O2-producing enzymes with H2O2-consuming enzymes was a common feature of the three species, although each enzymatic partner displayed independent transcriptional regulation. Finally, cellobiose dehydrogenase-coding genes were systematically co-regulated with at least one AA9 lytic polysaccharide monooxygenase gene, indicative of enzymatic synergy in vivo. This study highlights a conserved core white-rot fungal enzymatic mechanism behind the wood-decaying process.
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- 2020
42. Genome sequencing of Rigidoporus microporus provides insights on genes important for wood decay, latex tolerance and interspecific fungal interactions.
- Author
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Oghenekaro, Abbot O, Kovalchuk, Andriy, Raffaello, Tommaso, Camarero, Susana, Gressler, Markus, Henrissat, Bernard, Lee, Juna, Liu, Mengxia, Martínez, Angel T, Miettinen, Otto, Mihaltcheva, Sirma, Pangilinan, Jasmyn, Ren, Fei, Riley, Robert, Ruiz-Dueñas, Francisco Javier, Serrano, Ana, Thon, Michael R, Wen, Zilan, Zeng, Zhen, Barry, Kerrie, Grigoriev, Igor V, Martin, Francis, and Asiegbu, Fred O
- Abstract
Fungal plant pathogens remain a serious threat to the sustainable agriculture and forestry, despite the extensive efforts undertaken to control their spread. White root rot disease is threatening rubber tree (Hevea brasiliensis) plantations throughout South and Southeast Asia and Western Africa, causing tree mortality and severe yield losses. Here, we report the complete genome sequence of the basidiomycete fungus Rigidoporus microporus, a causative agent of the disease. Our phylogenetic analysis confirmed the position of R. microporus among the members of Hymenochaetales, an understudied group of basidiomycetes. Our analysis further identified pathogen's genes with a predicted role in the decay of plant cell wall polymers, in the utilization of latex components and in interspecific interactions between the pathogen and other fungi. We also detected putative horizontal gene transfer events in the genome of R. microporus. The reported first genome sequence of a tropical rubber tree pathogen R. microporus should contribute to the better understanding of how the fungus is able to facilitate wood decay and nutrient cycling as well as tolerate latex and utilize resinous extractives.
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- 2020
43. A comparative genomics study of 23 Aspergillus species from section Flavi.
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Kjærbølling, Inge, Vesth, Tammi, Frisvad, Jens C, Nybo, Jane L, Theobald, Sebastian, Kildgaard, Sara, Petersen, Thomas Isbrandt, Kuo, Alan, Sato, Atsushi, Lyhne, Ellen K, Kogle, Martin E, Wiebenga, Ad, Kun, Roland S, Lubbers, Ronnie JM, Mäkelä, Miia R, Barry, Kerrie, Chovatia, Mansi, Clum, Alicia, Daum, Chris, Haridas, Sajeet, He, Guifen, LaButti, Kurt, Lipzen, Anna, Mondo, Stephen, Pangilinan, Jasmyn, Riley, Robert, Salamov, Asaf, Simmons, Blake A, Magnuson, Jon K, Henrissat, Bernard, Mortensen, Uffe H, Larsen, Thomas O, de Vries, Ronald P, Grigoriev, Igor V, Machida, Masayuki, Baker, Scott E, and Andersen, Mikael R
- Subjects
Aspergillus flavus ,Aspergillus oryzae ,Crops ,Agricultural ,Fungal Proteins ,DNA ,Fungal ,Bioreactors ,Genomics ,Phylogeny ,Plant Diseases ,Fermentation ,Phenotype ,Genome ,Fungal ,Multigene Family ,Carbohydrate Metabolism ,Metabolic Networks and Pathways ,Secondary Metabolism ,Fermented Foods and Beverages - Abstract
Section Flavi encompasses both harmful and beneficial Aspergillus species, such as Aspergillus oryzae, used in food fermentation and enzyme production, and Aspergillus flavus, food spoiler and mycotoxin producer. Here, we sequence 19 genomes spanning section Flavi and compare 31 fungal genomes including 23 Flavi species. We reassess their phylogenetic relationships and show that the closest relative of A. oryzae is not A. flavus, but A. minisclerotigenes or A. aflatoxiformans and identify high genome diversity, especially in sub-telomeric regions. We predict abundant CAZymes (598 per species) and prolific secondary metabolite gene clusters (73 per species) in section Flavi. However, the observed phenotypes (growth characteristics, polysaccharide degradation) do not necessarily correlate with inferences made from the predicted CAZyme content. Our work, including genomic analyses, phenotypic assays, and identification of secondary metabolites, highlights the genetic and metabolic diversity within section Flavi.
- Published
- 2020
44. Reaction of bis(dialkylphosphino)amines [R.sub.2]PNHP[R.sub.2] (R = i-Pr, t-Bu, Ph) with halogens [X.sub.2] (X = Cl, Br, I): different solvents - different stories
- Author
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Riley, Robert D., Robertson, Katherine N., and Clyburne, Jason A.C.
- Subjects
X-rays -- Diffraction ,Crystals -- Structure ,Halogens -- Identification and classification -- Properties -- Structure ,Chemical reactions -- Methods -- Analysis ,Amines -- Identification and classification -- Structure -- Properties ,Chemistry - Abstract
The bis(dialkylphosphino)amines R2PNHPR2 react with elemental halogens X2 in dichloromethane to produce cationic products of the general form [(R)2P(X)-N-(R)2P(X)]+ (R = i-Pr, Ph, and t-Bu; X = Cl, Br, and I). All of the nine possible products have been isolated and characterized using X-ray difraction. The dichloro compounds crystallize as [HCl2]- salts, while the dibromo and diiodo products have been isolated as trihalides, [X3]-. A number of these compounds have been shown to react further with methanol to produce salts containing [(R)2P(OC[H.sub.3])N(R)2P(OC[H.sub.3])]+ cations, some of which have also been characterized using X-ray crystallography. The conversion of [(Ph)2P(I)-N-(Ph)2P(I)][I3] to [(Ph)2P(OC[H.sub.3])-N-(Ph)2P(OC[H.sub.3])][I3] was monitored using [.sup.31]P NMR spectroscopy that revealed a stepwise reaction of the former compound with methanol. The results are discussed within the context of coupled reactions; this is then used to rationalize a mechanism for the formation of a rare catenated bismuth compound we reported previously. We suggest that the formation of the weak Bi-Bi bonds is ofset by a coupled or a connected reaction mechanism, involving an irreversible reaction forming strong P-OR bonds in another of the isolated products. Key words: bis(dialkylphosphino)amines, halogenation, coupled reaction, crystal structure, bismuth Les bis(dialkylphosphino)amines R2PNHPR2 reagissent avec les halogenes elementaires X2 dans le dichloromethane pour former des produits cationiques de forme generale [(R)2P(X)-N-(R)2P(X)]+ (R = i-Pr, Ph, t-Bu; X = Cl, Br, I). Les neuf produits possibles ont ete isoles et caracterises par difraction des rayons X. Les composes dichloro cristallisent sous forme de sels [HCl2]-, tandis que les produits dibromo et diiodo ont ete isoles sous forme de trihalogenures [X3]-. Un certain nombre de ces composes subissent une autre reaction avec le methanol pour produire des sels contenant des cations [(R)2P(OC[H.sub.3])N(R)2P(OC[H.sub.3])]+, dont certains ont egalement ete caracterises par radiocristallographie. Nous avons suivi la conversion du [(Ph)2P(I)-N-(Ph)2P(I)][I3] en [(Ph)2P(OC[H.sub.3])-N-(Ph)2P(OC[H.sub.3])][I3] par RMN [.sup.31]P, qui a revele une reaction par etapes du premier compose avec le methanol. Nous discutons des resultats dans le contexte des reactions couplees; que nous utilisons par la suite pour expliquer le mecanisme de formation hypothetique d'un rare compose de bismuth concatene que nous avons publie anterieurement. Nous posons l'hypothese selon laquelle la formation des liaisons Bi-Bi faibles est compensee par un mecanisme de reaction couplee ou connectee, qui comporte une reaction irreversible formant des liaisons P-OR fortes dans un autre des produits isoles. [Traduit par la Redaction.] Mots-cles : bis(dialkylphosphino)amines, halogenation, reaction couplee, structure cristalline, bismuth, Introduction Ambidentate bis(dialkylphosphino)amines 1(H)-3(H) (Fig. 1) are a class of electron-rich phosphorus ligands with a P-N-P backbone. (1,2) These compounds, here abbreviated by PNP, have been used in a variety [...]
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- 2022
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45. List of contributors
- Author
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Abi Rafeh, Nidal, primary, Agostoni, Pierfrancesco, additional, Akyuz, Sukru, additional, Alaswad, Khaldoon, additional, Ali, Ziad A., additional, Allana, Salman S., additional, Alraies, Chadi, additional, Araya, Mario, additional, Avran, Alexandre, additional, Azzalini, Lorenzo, additional, Babunashvili, Avtandil, additional, Banerjee, Subhash, additional, Bangalore, Sripal, additional, Bayani, Baktash, additional, Behnes, Michael, additional, Bhindi, Ravinay, additional, Boudou, Nicolas, additional, Božinović, Nenad Ž., additional, Bryniarski, Leszek, additional, Bufe, Alexander, additional, Buller, Christopher E., additional, Burke, M. Nicholas, additional, Cardoso, Pedro Pinto, additional, Carlino, Mauro, additional, Cavalcante, Joao L., additional, Chami, Tarek, additional, Chandwaney, Raj H., additional, Charitakis, Konstantinos, additional, Cheng, Victor Y., additional, Choi, James W., additional, Christiansen, Evald Høj, additional, Chugh, Yashasvi, additional, Colombo, Antonio, additional, Cosgrove, Claudia, additional, Croce, Kevin, additional, Daggubati, Ramesh, additional, Damas de los Santos, Félix, additional, Dautov, Rustem, additional, Davies, Rhian E., additional, de Martini, Tony, additional, Denktas, Ali E., additional, Dens, Joseph, additional, di Mario, Carlo, additional, Diletti, Roberto, additional, Dimitriadis, Zisis, additional, Doshi, Darshan, additional, Doshi, Parag, additional, Dou, Kefei, additional, Egred, Mohaned, additional, Elbarouni, Basem, additional, ElGuindy, Ahmed M., additional, Elhadidy, Amr, additional, Ellis, Stephen, additional, Escaned, Javier, additional, Fasseas, Panayotis, additional, Forouzandeh, Farshad, additional, Furkalo, Sergey, additional, Gagnor, Andrea, additional, Galassi, Alfredo R., additional, Gallino, Robert, additional, Garbo, Roberto, additional, Garcia, Santiago, additional, Gasparini, Gabriele, additional, Ge, Junbo, additional, Ge, Lei, additional, Goel, Pravin Kumar, additional, Goktekin, Omer, additional, Gonzalo, Nieves, additional, Gorgulu, Sevket, additional, Grancini, Luca, additional, Grantham, J. Aaron, additional, Guddeti, Raviteja, additional, Haddad, Elias V., additional, Hall, Allison B., additional, Hall, Jack J., additional, Halligan, Sean, additional, Hanna Quesada, Franklin Leonardo, additional, Hanratty, Colm, additional, Harb, Stefan, additional, Harding, Scott A., additional, Hatem, Raja, additional, Hildick-Smith, David, additional, Hill, Jonathan M., additional, Hirai, Taishi, additional, Iannaccone, Mario, additional, Jaber, Wissam, additional, Jaffer, Farouc A., additional, Jang, Yangsoo, additional, Jefferson, Brian K., additional, Jeremias, Allen, additional, Jussila, Risto, additional, Kakouros, Nikolaos, additional, Kalnins, Artis, additional, Kalra, Sanjog, additional, Kalyanasundaram, Arun, additional, Kandzari, David E., additional, Kao, Hsien-Li, additional, Karacsonyi, Judit, additional, Karmpaliotis, Dimitri, additional, Kassem, Hussien Heshmat, additional, Kearney, Kathleen, additional, Kerrigan, Jimmy, additional, Khatri, Jaikirshan, additional, Khelimskii, Dmitrii, additional, Kirtane, Ajay J., additional, Knaapen, Paul, additional, Kostantinis, Spyridon, additional, Koutouzis, Michalis, additional, Kovacic, Mihajlo, additional, Krestyaninov, Oleg, additional, Kumar, A.V. Ganesh, additional, Kumar N., Prathap, additional, Kunkel, Katherine J., additional, Lamelas, Pablo Manuel, additional, Lee, Seung-Whan, additional, Lefevre, Thierry, additional, Leibundgut, Gregor, additional, Lembo, Nicholas J., additional, Leon, Martin, additional, Lesser, John R., additional, Leung, Raymond, additional, Lim, Soo-Teik, additional, Lo, Sidney Tsz Ho, additional, Lombardi, William, additional, Luna, Michael, additional, Mahmud, Ehtisham, additional, Mahowald, Madeline K., additional, Maran, Anbukarasi, additional, Marmagkiolis, Konstantinos, additional, Martins Filho, Evandro, additional, Mashayekhi, Kambis, additional, McEntegart, Margaret B., additional, Megaly, Michael, additional, Meraj, Perwaiz, additional, Michalis, Lampros, additional, Milkas, Anastasios N., additional, Mogabgab, Owen, additional, Moses, Jeffrey, additional, Munawar, Muhammad, additional, Murad, Bilal, additional, Nap, Alexander, additional, Navarro, Andres, additional, Nicholson, William J., additional, Øksnes, Anja, additional, Olivecrona, Göran, additional, Omer, Mohamed A., additional, Oreglia, Jacopo Andrea, additional, Padilla, Lucio, additional, Patel, Mitul P., additional, Patel, Rajan A.G., additional, Patel, Taral, additional, Pershad, Ashish, additional, Pinto, Duane, additional, Poommipanit, Paul, additional, Postu, Marin, additional, Potluri, Srini, additional, Pyxaras, Stylianos, additional, Quadros, Alexandre Schaan de, additional, Ragosta, Michael, additional, Rao, Sunil V., additional, Rao, Vithala Surya Prakasa, additional, Rathore, Sudhir, additional, Reifart, Joerg, additional, Rempakos, Athanasios, additional, Rier, Jeremy, additional, Riley, Robert, additional, Rinfret, Stéphane, additional, Russo, Juan J., additional, Saghatelyan, Meruzhan, additional, Sandhu, Gurpreet S., additional, Sandoval, Yader, additional, Santiago, Ricardo, additional, Sapontis, James, additional, Shah, Alpesh, additional, Shlofmitz, Evan, additional, Shunk, Kendrick A., additional, Sianos, George, additional, Simsek, Bahadir, additional, Smith, Elliot J., additional, Spaedy, Anthony, additional, Spratt, James, additional, Strange, Julian W., additional, Strauss, Bradley, additional, Tajti, Péter, additional, Tamez, Hector, additional, Tammam, Khalid O., additional, Thompson, Craig A., additional, Toma, Aurel, additional, Toma, Catalin, additional, Tsiafoutis, Ioannis, additional, Tsuchikane, Etsuo, additional, Ungi, Imre, additional, Uretsky, Barry F., additional, Vlachojannis, Georgios J., additional, Vo, Minh Nhat, additional, Vu, Hoang Vu, additional, Walsh, Simon, additional, Weilenmann, Daniel, additional, Werner, Gerald, additional, Wójcik, Jarosław, additional, Wollmuth, Jason, additional, Wu, Eugene B., additional, Wyman, R. Michael, additional, Xenogiannis, Iosif, additional, Xu, Bo, additional, Yamane, Masahisa, additional, Ybarra, Luiz F., additional, and Yeh, Robert W., additional
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- 2023
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46. In Vitro ADME Assays and In Vivo Extrapolations
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Butler, Philip, Riley, Robert J., Talevi, Alan, Section editor, and Talevi, Alan, editor
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- 2022
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47. Drug-Drug and Food-Drug Interactions
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Butler, Philip, Riley, Robert J., Talevi, Alan, Section editor, and Talevi, Alan, editor
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- 2022
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48. Transporter Drug Interactions
- Author
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Elsby, Robert, Butler, Philip, Riley, Robert J., Talevi, Alan, Section editor, and Talevi, Alan, editor
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- 2022
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49. Metabolism Drug Interactions
- Author
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Ward, L., Butler, Philip, Riley, Robert J., Talevi, Alan, Section editor, and Talevi, Alan, editor
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- 2022
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50. When, Why, and How to Fix Common Problems Encountered in Chronic Total Occlusion Percutaneous Coronary Intervention: The Expanded Hybrid Approach
- Author
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Riley, Robert F., Sapontis, James, Marso, Steven P., Lombardi, William L., Grantham, J. Aaron, and Rinfret, Stéphane, editor
- Published
- 2022
- Full Text
- View/download PDF
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