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1. Disease resistance gene count increases with rainfall in Silphium integrifolium.

Author

Keepers, Kyle, Peterson, Kelsey, Raduski, Andrew, Turner, Kathryn M., Van Tassel, David, Smith, Kevin, Harkess, Alex, Bever, James D., and Brandvain, Yaniv

Subjects
*GENE libraries, *COMMON sunflower, *PLANT genes, *PHYTOPATHOGENIC microorganisms, *NATURAL immunity
Abstract

Intracellular plant defense against pathogens is mediated by a class of disease resistance genes known as NB‐LRRs or NLRs (R genes). Many of the diseases these genes protect against are more prevalent in regions of higher rainfall, which provide better growth conditions for the pathogens. As such, we expect a higher selective pressure for the maintenance and proliferation of R genes in plants adapted to wetter conditions. In this study, we enriched libraries for R genes using RenSeq from baits primarily developed from the common sunflower (Helianthus annuus) reference genome. We sequenced the R gene libraries of Silphium integrifolium Michx, a perennial relative of sunflower, from 12 prairie remnants across a rainfall gradient in the Central Plains of the United States, with both Illumina short‐read (n = 99) and PacBio long‐read (n = 10) approaches. We found a positive relationship between the mean effective annual precipitation of a plant's source prairie remnant and the number of R genes in its genome, consistent with intensity of plant pathogen coevolution increasing with precipitation. We show that RenSeq can be applied to the study of ecological hypotheses in non‐model relatives of model organisms. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Vertebrate Decomposition Is Accelerated by Soil Microbes

Author

Lauber, Christian L, Metcalf, Jessica L, Keepers, Kyle, Ackermann, Gail, Carter, David O, and Knight, Rob

Subjects
Microbiology, Biological Sciences, Ecology, Animals, Archaea, Bacteria, Biodegradation, Environmental, Biodiversity, Fungi, Mice, Soil Microbiology, Vertebrates, Medical microbiology
Abstract

Carrion decomposition is an ecologically important natural phenomenon influenced by a complex set of factors, including temperature, moisture, and the activity of microorganisms, invertebrates, and scavengers. The role of soil microbes as decomposers in this process is essential but not well understood and represents a knowledge gap in carrion ecology. To better define the role and sources of microbes in carrion decomposition, lab-reared mice were decomposed on either (i) soil with an intact microbial community or (ii) soil that was sterilized. We characterized the microbial community (16S rRNA gene for bacteria and archaea, and the 18S rRNA gene for fungi and microbial eukaryotes) for three body sites along with the underlying soil (i.e., gravesoils) at time intervals coinciding with visible changes in carrion morphology. Our results indicate that mice placed on soil with intact microbial communities reach advanced stages of decomposition 2 to 3 times faster than those placed on sterile soil. Microbial communities associated with skin and gravesoils of carrion in stages of active and advanced decay were significantly different between soil types (sterile versus untreated), suggesting that substrates on which carrion decompose may partially determine the microbial decomposer community. However, the source of the decomposer community (soil- versus carcass-associated microbes) was not clear in our data set, suggesting that greater sequencing depth needs to be employed to identify the origin of the decomposer communities in carrion decomposition. Overall, our data show that soil microbial communities have a significant impact on the rate at which carrion decomposes and have important implications for understanding carrion ecology.

Published
2014

8. A microbial clock provides an accurate estimate of the postmortem interval in a mouse model system.

Author

Metcalf, Jessica L, Wegener Parfrey, Laura, Gonzalez, Antonio, Lauber, Christian L, Knights, Dan, Ackermann, Gail, Humphrey, Gregory C, Gebert, Matthew J, Van Treuren, Will, Berg-Lyons, Donna, Keepers, Kyle, Guo, Yan, Bullard, James, Fierer, Noah, Carter, David O, and Knight, Rob

Subjects
Animals, Mice, Postmortem Changes, Models, Animal, Forensic Sciences, Microbiota, Mouse, decomposition, forensics, microbial ecology, microbial succession, postmortem interval, time since death, Biochemistry and Cell Biology
Abstract

Establishing the time since death is critical in every death investigation, yet existing techniques are susceptible to a range of errors and biases. For example, forensic entomology is widely used to assess the postmortem interval (PMI), but errors can range from days to months. Microbes may provide a novel method for estimating PMI that avoids many of these limitations. Here we show that postmortem microbial community changes are dramatic, measurable, and repeatable in a mouse model system, allowing PMI to be estimated within approximately 3 days over 48 days. Our results provide a detailed understanding of bacterial and microbial eukaryotic ecology within a decomposing corpse system and suggest that microbial community data can be developed into a forensic tool for estimating PMI. DOI:http://dx.doi.org/10.7554/eLife.01104.001.

Published
2013

9. Heritable differences in abundance of bacterial rhizosphere taxa are correlated with fungal necrotrophic pathogen resistance.

Author

Pogoda, Cloe S., Keepers, Kyle G., Reinert, Stephan, Talukder, Zahirul I., Smart, Brian C., Attia, Ziv, Corwin, Jason A., Money, Kennedy L., Collier‐zans, Erin C. E., Underwood, William, Gulya, Thomas J., Quandt, C. Alisha, Kane, Nolan C., and Hulke, Brent S.

Subjects
*SCLEROTINIA sclerotiorum, *COMMON sunflower, *RHIZOSPHERE, *PLANT breeding, *MICROBIAL communities, *GENETIC variation
Abstract

Host–microbe interactions are increasingly recognized as important drivers of organismal health, growth, longevity and community‐scale ecological processes. However, less is known about how genetic variation affects hosts' associated microbiomes and downstream phenotypes. We demonstrate that sunflower (Helianthus annuus) harbours substantial, heritable variation in microbial communities under field conditions. We show that microbial communities co‐vary with heritable variation in resistance to root infection caused by the necrotrophic pathogen Sclerotinia sclerotiorum and that plants grown in autoclaved soil showed almost complete elimination of pathogen resistance. Association mapping suggests at least 59 genetic locations with effects on both microbial relative abundance and Sclerotinia resistance. Although the genetic architecture appears quantitative, we have elucidated previously unexplained genetic variation for resistance to this pathogen. We identify new targets for plant breeding and demonstrate the potential for heritable microbial associations to play important roles in defence in natural and human‐altered environments. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Genomic insights into the mitochondria of eleven eastern North American species of Cladonia

Author

Brigham, Laurel M, Allende, Luis M, Shipley, Benjamin R, Boyd, Kayla C, Higgins, Tanya J, Kelly, Nicholas, Anderson-Stewart, Carly R, Keepers, Kyle G, Cloe S Pogoda, Lendemer, James C, Tripp, Erin A, and Kane, Nolan C

Subjects
stomatognathic diseases, integumentary system, stomatognathic system, Cladonia, genome, lichen, mitochondrion, symbiosis, macromolecular substances
Abstract

Concatenation of 5 individual protein-coding CDS alignments -- cox3, nad2, nad4, cox1, cox2, in that order. These genes are encoded in the mitochondrial genomes of the mycobiont (lichenized fungi) of the lichen symbiosis. There are 32 species in this alignment, including eleven species in the focal clade,the genus Cladonia.

Published
2018
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27. Genomic insights into the mitochondria of 11 eastern North American species of Cladonia

Author

Brigham, Laurel M., primary, Allende, Luis M., additional, Shipley, Benjamin R., additional, Boyd, Kayla C., additional, Higgins, Tanya J., additional, Kelly, Nicholas, additional, Anderson Stewart, Carly R., additional, Keepers, Kyle G., additional, Pogoda, Cloe S., additional, Lendemer, James C., additional, Tripp, Erin A., additional, and Kane, Nolan C., additional

Published
2018
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31. Comparative analysis of the mitochondrial genomes of six newly sequenced diatoms reveals group II introns in the barcoding region of cox1.

Author

Pogoda, Cloe S., Keepers, Kyle G., Hamsher, Sarah E., Stepanek, Joshua G., Kane, Nolan C., and Kociolek, J. Patrick

Subjects
*GENETIC barcoding, *MITOCHONDRIA, *INTRONS, *GENOMES, *DIATOMS
Abstract

Diatoms are the most diverse lineage of algae and at the base of most aquatic food webs, but only 11 of their mitochondrial genomes have been described. Herein, we present the mitochondrial genomes of six diatom species, including: Melosira undulata, Nitzschia alba, Surirella sp., Entomoneis sp., Halamphora coffeaeformis, and Halamphora calidilacuna. Comparison of these six genomes to the 11 currently published diatom mitochondrial genomes revealed a novel ubiquitous feature block consisting of tatC-orf157-rps11. The presence of intronic retrotransposable elements in the barcoding region of cox1 in the Halamphora genomes may explain historic difficulty (especially PCR) with cox1 as a universal barcode for diatoms. Our analysis suggests that high rates of variability in number and position of introns, in many commonly used coding sequences, prevent these from being universally viable as barcodes for diatoms. Therefore, we suggest researchers examine the chloroplast and/or nuclear genomes for universal barcoding markers. [ABSTRACT FROM AUTHOR]

Published
2019
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32. Current and Future Needs and Applications for Cannabis

Author

Gray, Dennis J., primary, Baker, Halie, additional, Clancy, Kayla, additional, Clarke, Robert C., additional, deCesare, Kymron, additional, Fike, John, additional, Gibbs, Matthew J., additional, Grotenhermen, Franjo, additional, Kane, Nolan C., additional, Keepers, Kyle G., additional, Land, Donald P., additional, Lynch, Ryan C., additional, Mendieta, J. Paul, additional, Merlin, Mark, additional, Müller-Vahl, Kirsten, additional, Pauli, Christopher S., additional, Pearson, Brian J., additional, Rhan, Bailey, additional, Ruthenberg, Travis C., additional, Schwartz, C. J., additional, Tittes, Silas B., additional, Vergara, Daniela, additional, White, Kristin H., additional, and Trigiano, Robert N., additional

Published
2016
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33. Genetic and Genomic Tools forCannabis sativa

Author

Vergara, Daniela, primary, Baker, Halie, additional, Clancy, Kayla, additional, Keepers, Kyle G., additional, Mendieta, J. Paul, additional, Pauli, Christopher S., additional, Tittes, Silas B., additional, White, Kristin H., additional, and Kane, Nolan C., additional

Published
2016
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35. The complete mitochondrial genomes of five lichenized fungi in the genus <italic>Usnea</italic> (Ascomycota: Parmeliaceae).

Author

Funk, Erik R., Adams, Alexander N., Spotten, Sarah M., Van Hove, Roxanne A., Whittington, Kristina T., Keepers, Kyle G., Pogoda, Cloe S., Lendemer, James C., Tripp, Erin A., and Kane, Nolan C.

Subjects
ASCOMYCETES, FUNGI, MITOCHONDRIAL DNA, FUNGAL growth, NUCLEOTIDE sequence, OPEN reading frames (Genetics)
Abstract

Known colloquially as ‘Old Man’s Beard’, Usnea is a genus of lichenized Ascomycete fungi characterized by having a fruticose growth form and cartilaginous central axis. The complete mitochondrial genomes of Usnea halei, U. mutabilis, U. subfusca, U. subgracilis, and U. subscabrosa were sequenced using Illumina data and then assembled de novo. These mitogenomes ranged in size from 52,486 bp (U. subfusca) to 94,464 bp (U. subgracilis). All were characterized by having high levels of intronic and intergenic variation, such as ORFs that encode proteins with homology to two homing endonuclease types, LAGLIDADG and GIY-YIG. Genes annotated within these mitogenomes include 14 protein-coding genes, the large and small ribosomal subunits (LSU and SSU), and 23-26 tRNAs. Notably, the atp9 gene was absent from each genome. Genomic synteny was highly conserved across the five species. Five conserved mitochondrial genes (nad2, nad4, cox1, cox2, and cox3) were used to infer a best estimate maximum likelihood phylogeny among these five Usnea and other relatives, which yielded relationships consistent with prior published phylogenies. [ABSTRACT FROM AUTHOR]

Published
2018
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40. Author response: A microbial clock provides an accurate estimate of the postmortem interval in a mouse model system

Author

Metcalf, Jessica L, primary, Wegener Parfrey, Laura, additional, Gonzalez, Antonio, additional, Lauber, Christian L, additional, Knights, Dan, additional, Ackermann, Gail, additional, Humphrey, Gregory C, additional, Gebert, Matthew J, additional, Van Treuren, Will, additional, Berg-Lyons, Donna, additional, Keepers, Kyle, additional, Guo, Yan, additional, Bullard, James, additional, Fierer, Noah, additional, Carter, David O, additional, and Knight, Rob, additional

Published
2013
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41. Genetic and Genomic Tools for Cannabis sativa.

Author

Vergara, Daniela, Baker, Halie, Clancy, Kayla, Keepers, Kyle G., Mendieta, J. Paul, Pauli, Christopher S., Tittes, Silas B., White, Kristin H., and Kane, Nolan C.

Subjects
HEMP growing, HEMP industry, PLANT fibers, MEDICAL marijuana, INDUSTRIAL applications
Abstract

TheCannabisindustry is currently one of the fastest growing industries in the United States. Given the changing legal status of the plant, and the rapidly advancing research, updated information on the advancement ofCannabisgenomics is needed. This versatile plant is used as medicine and for food, fiber, and bioremediation. Insights from modern, high-throughput genomic technology are revolutionizing our understanding of the plant and are providing new tools to further improve our knowledge and utilization of this unique species. This review quantifies and evaluates the currently available genomic resources forCannabisresearch, including six whole-genome assemblies, two transcriptomes, and 393 other substantial genomic resources, as well as other smaller publicly available genetic and genomic resources. The open-source approaches followed by many leading scientists in the field promote collaboration and facilitate these rapid advances. [ABSTRACT FROM AUTHOR]

Published
2016
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42. A taxonomically broad metagenomic survey of 339 species spanning 57 families suggests Cystobasidiomycete yeasts are not ubiquitous across all lichens

Author

Lendmer, James C, Keepers, Kyle G, Tripp, Erin A, Cloe S Pogoda, McCain, Christy M, and Kane, Nolan C

Subjects
15. Life on land
Abstract

Supplemental Material S5. The file "S5_Blast_to_KU587705_Contigs.fasta" contains the top 100 contigs in a BLAST search of NCBI accession KU587705 against a database of 339 lichen metagenomes. The other, "S5_Blast_Other_Cystobasidiomycete_Accessions_Contigs", contains the top 100 contigs in a BLAST search of accessions KU948882, KU948747, KU948755, KU948887, KU948863, and KU948865 against the database of 339 lichen metagenomes.

43. Further Evidence of Edaphic Endemism of Lichens on Fox Hills Sandstone: Discovery and Description of Lecanora lendemerii as New to Science

Author

Tripp, Erin A, Morse, Caleb A, Keepers, Kyle G, Stewart, Carly R Anderson, White, Kristin H, Hoffman, Jordan R, Kane, Nolan C, and McCain, Christy M

Subjects
Colorado, edaphic, endemism, Fox Hills, Lecanora dispersa group, lichen, new species, sandstone, 14. Life underwater, 15. Life on land
Abstract

Recent lichenological investigations of Fox Hills Formation sandstone outcrops in Colorado yielded discovery of three populations that represent an undescribed member of the Lecanora dispersa group. This new species is different from all others in the group in its production of usnic acid, which yields apothecia that are brilliant lime green in color in fresh, field material. The new species, here formally described as Lecanora lendemerii, is further characterized by its relatively large spores, endolithic thallus, presence of POL+ granules, and apparent geographical restriction to this type of sandstone formation. We conducted molecular phylogenetic analyses to place the new species into the context of other members of Lecanora using new shotgun sequence data generated for this study in tandem with previously published rDNA data and found that the new species is resolved as nested within L. dispersa clade, which was a strongly supported clade in our analysis. Using IUCN criteria including a known occurrence of only three populations, the largest of which is under conservation threat, we herein formally rank this new species as Endangered. This discovery comes on the heels of several other recent lichen discoveries on Fox Hills sandstone, all species of which are so far as known restricted to this rock type, suggesting edaphic endemism may be a common element of the biotic communities of the Fox Hills Formation. From the results of this and prior studies, it is clear that sandstone outcrops serve as important, yet still incompletely documented, habitats for cryptogamic diversity. This discovery further highlights the significance of conservation areas, even tiny units (e.g., 100 acres or less) that represent mere islands in a sea of urban development, such as in the Front Range of Colorado.

44. Whole genome shotgun sequencing detects greater lichen fungal diversity than amplicon-based methods in environmental samples

Author

Keepers, Kyle G, Cloe S Pogoda, White, Kristin H, Stewart, Carly R Anderson, Hoffman, Jordan M, Ruiz, Ana Maria, McCain, Christy M, Lendemer, James C, Kane, Nolan C, and Tripp, Erin A

Subjects
Taxonomic Diversity, Ribosomal RNA, Potential of Diversity, Sequence Database, Biological Soil Crusts, Lichen, Metagenomics, 15. Life on land, human activities
Abstract

Microbial communities have increasingly been broadly investigated using sequence-based methods, leading to improved understanding of these important contributors to ecological and evolutionary processes. In this study we demonstrate the utility of whole genome shotgun (WGS) metagenomics in study organisms with small genomes to improve upon amplicon-based estimates of biodiversity and microbial diversity in environmental samples. We generated a database of full-length and near-full-length ribosomal DNA sequence complexes from 273 lichenized fungal species and used this database to compare WGS versus amplicon-based approaches to detect diversity in environmental samples collected in two, one-hectare plots in the southern Appalachian Mountains. This database was established to facilitate fungal species identification using low coverage WGS at higher resolution and without the biases of amplicon-based approaches. Using this new database and methods herein developed, we detected between 2.8 and 11 times as many species from lichen fungal propagules by aligning reads from WGS-sequenced environmental samples compared to a traditional amplicon-based approach applied to the same samples. We then conducted complete taxonomic diversity inventories of the lichens in each one-hectare plot to assess overlap between standing taxonomic diversity (TD) and diversity detected based on propagules present in environmental samples (i.e., the "potential" of diversity, or PoD). From the environmental samples, we detected 94 species not observed in organism-level sampling in these ecosystems with high confidence using both WGS and amplicon-based methods. To our knowledge, no studies to date have applied this method to macro-eukaryotes. This study highlights the utility of WGS sequence-based approaches in detecting hidden species diversity and demonstrates that amplicon-based methods likely miss important components of fungal diversity. We suggest that the adoption of this method, which relies on quantification of TD vs. PoD, will not only improve understanding of biotic constraints on the distributions of biodiversity but will also help to inform important environmental policy.

45. The complete chloroplast genomes of Cannabis sativa and Humulus lupulus.

Author

Vergara, Daniela, White, Kristin H., Keepers, Kyle G., and Kane, Nolan C.

Subjects
CANNABIS (Genus), CHLOROPLAST DNA, HOPS, GENOMES, GENOTYPES
Abstract

CannabisandHumulusare sister genera comprising the entirety of the Cannabaceaesensu stricto, includingC. sativaL. (marijuana, hemp), andH. lupulusL. (hops) as two economically important crops. These two plants have been used by humans for many purposes including as a fiber, food, medicine, or inebriant in the case ofC. sativa, and as a flavoring component in beer brewing in the case ofH. lupulus.In this study, we report the complete chloroplast genomes for two distinct hemp varieties ofC. sativa, Italian “Carmagnola” and Russian “Dagestani”, and one Czech variety ofH. lupulus“Saazer”. BothC. sativagenomes are 153 871 bp in length, while theH. lupulusgenome is 153 751 bp. The genomes from the twoC. sativavarieties differ in 16 single nucleotide polymorphisms (SNPs), while theH. lupulusgenome differs in 1722 SNPs from bothC. sativacultivars. [ABSTRACT FROM AUTHOR]

Published
2016
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46. The complete mitochondrial genome of the Warm Springs pupfish , Cyprinodon nevadensis pectoralis.

Author

Keepers, Kyle, Martin, Andrew P., and Kane, Nolan C.

Subjects
*CYPRINODON, *FISHES, *MITOCHONDRIAL DNA, *NUCLEOTIDE sequencing, *FISH genetics, *TRANSFER RNA, *RIBOSOMAL RNA, *FISH phylogeny
Abstract

In this article we report the complete mitochondrial genome of the Warm Springs pupfish,Cyprinodon nevadensis pectoralis. The genomic DNA of a single female individual was extracted and sequenced on the Illumina HiSeq2000 platform. It contains 16,499 bp and a total of 37 genes, divided into 22 tRNA genes, 2 rRNA genes and 13 protein-coding genes. It exhibits 94% sequence similarity with the other published mitochondrion in its genus,C. rubrofluviatilis. A Tamura–Nei maximum-likelihood tree constructed from mitochondrial sequences shows expected phylogenetic relationships betweenC. nevadensisand sister taxa. [ABSTRACT FROM AUTHOR]

Published
2016
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