Your search keyword '"Keepers, Kyle"' showing total 10 results

1. Mitochondrial genomes in the iconic reindeer lichens: Architecture, variation, and synteny across multiple evolutionary scales.

Author

Hoffman, Jordan R., Karol, Kenneth G., Ohmura, Yoshihito, Pogoda, Cloe S., Keepers, Kyle G., McMullin, Richard T., and Lendemer, James C.

Subjects

MITOCHONDRIAL DNA, GENOME size, REINDEER, MITOCHONDRIA, LICHENS, GENOMES

Abstract

Variation in mitochondrial genome composition across intraspecific, interspecific, and higher taxonomic scales has been little studied in lichen obligate symbioses. Cladonia is one of the most diverse and ecologically important lichen genera, with over 500 species representing an array of unique morphologies and chemical profiles. Here, we assess mitochondrial genome diversity and variation in this flagship genus, with focused sampling of two clades of the "true" reindeer lichens, Cladonia subgenus Cladina, and additional genomes from nine outgroup taxa. We describe composition and architecture at the gene and the genome scale, examining patterns in organellar genome size in larger taxonomic groups in Ascomycota. Mitochondrial genomes of Cladonia, Pilophorus, and Stereocaulon were consistently larger than those of Lepraria and contained more introns, suggesting a selective pressure in asexual morphology in Lepraria driving it toward genomic simplification. Collectively, lichen mitochondrial genomes were larger than most other fungal life strategies, reaffirming the notion that coevolutionary streamlining does not correlate to genome size reductions. Genomes from Cladonia ravenelii and Stereocaulon pileatum exhibited ATP9 duplication, bearing paralogs that may still be functional. Homing endonuclease genes (HEGs), though scarce in Lepraria, were diverse and abundant in Cladonia, exhibiting variable evolutionary histories that were sometimes independent of the mitochondrial evolutionary history. Intraspecific HEG diversity was also high, with C. rangiferina especially bearing a range of HEGs with one unique to the species. This study reveals a rich history of events that have transformed mitochondrial genomes of Cladonia and related genera, allowing future study alongside a wealth of assembled genomes. [ABSTRACT FROM AUTHOR]

Published

2023

2. 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

3. Genomic insights into the mitochondria of 11 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., Pogoda, Cloe S., Lendemer, James C., Tripp, Erin A., and Kane, Nolan C.

Subjects

CLADONIA, GENOMES, PLANT species, PHYLOGEOGRAPHY, MITOCHONDRIAL DNA

Abstract

Cladonia is among the most species-rich genera of lichens globally. Species in this lineage, commonly referred to as reindeer lichens, are ecologically important in numerous regions worldwide. In some locations, species of Cladonia can comprise the dominant groundcover, and are a major food source for caribou and other mammals. Additionally, many species are known to produce substances with antimicrobial properties or other characteristics with potentially important medical applications. This exceptional morphological and ecological variation contrasts sharply with the limited molecular divergence often observed among species. As a new resource to facilitate ongoing and future studies of these important species, we analyse here the sequences of 11 Cladonia mitochondrial genomes, including new mitochondrial genome assemblies and annotations representing nine species: C. apodocarpa, C. caroliniana, C. furcata, C. leporina, C. petrophila, C. peziziformis, C. robbinsii, C. stipitata, and C. subtenuis. These 11 genomes varied in size, intron content, and complement of tRNAs. Genes annotated within these mitochondrial genomes include 15 protein-coding genes, the large and small ribosomal subunits (mtLSU and mtSSU), and 23-26 tRNAs. All Cladonia mitochondrial genomes contained atp9, an important energy transport gene that has been lost evolutionarily in some lichen mycobiont mitochondria. Using a concatenated alignment of five mitochondrial genes (nad2, nad4, cox1, cox2, and cox3), a Bayesian phylogeny of relationships among species was inferred and was consistent with previously published phylogenetic relationships, highlighting the utility of these regions in reconstructing phylogenetic history. [ABSTRACT FROM AUTHOR]

Published

2018

4. 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

5. 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

6. The complete mitochondrial genome of Gunnison's prairie dog subspecies (Cynomys gunnisoni gunnisoni) and phylogenetic relationship within the genus Cynomys.

Author

Streich, Sean P., Keepers, Kyle G., Griffin, Karen A., Kane, Nolan C., and Martin, Andrew P.

Subjects

PRAIRIE dogs, PHYLOGENY, MITOCHONDRIAL DNA abnormalities, SUBSPECIES, GENOMES, GROUND squirrels

Abstract

The mitochondrial genome of the Gunnison's prairie dog, Cynomys gunnisoni gunnisoni, is described and incorporated into a phylogenetic inference of the genus Cynomys based on seven new mitochondrial genomes and published genomes from Cynomys leucurus and Cynomys ludovicianus. The mitochondrial genome from Ictidomys tridecemlineatus, the sister genus, was included as an outgroup. Our results lend further support to published phylogenetic hypotheses. [ABSTRACT FROM AUTHOR]

Published

2019

7. The complete mitochondrial genome for Cannabis sativa.

Author

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

Subjects

CANNABIS (Genus), MITOCHONDRIAL DNA, PLANT phylogeny, TRANSFER RNA, RIBOSOMAL RNA, CANNABACEAE, PLANTS

Abstract

The following report details the first annotated mitochondrial genome for the Carmagnola variety ofCannabis sativa, the first reference genome for the Cannabaceae family. The total length is 415,499 bp and contains 54 genes, which sub-divide into 38 protein-coding genes, 15 tRNA genes, and 3 rRNA genes. [ABSTRACT FROM PUBLISHER]

Published

2016

8. Current and Future Needs and Applications for Cannabis.

Author

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

Subjects

SMOKABLE plants, MEDICAL marijuana, HEMP, INDUSTRIAL applications, CULTIVARS

Published

2016

9. 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

10. 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