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- Bacteriophages (2)
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- Bacteriophage (1)
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Articles 1 - 5 of 5
Full-Text Articles in Organisms
Genomic Diversity Of Bacteriophages Infecting Microbacterium Spp, Deborah Jacobs-Sera, Nathan S. Reyna, Lawrence A. Abad, Richard M. Alvey, Kirk R. Anders, Haley G. Aull, Suparna S. Bhalla, Lawrence S. Blumer, David W. Bollivar, J. Alfred Bonilla, Kristen A. Butela, Roy J. Coomans, Steven G. Cresawn, Tom D'Elia, Arturo Diaz, Ashley M. Divens, Nicholas P. Edgington, Gregory D. Frederick, Maria D. Gainey, Rebecca A. Garlena, Kenneth W. Grant, Susan M.R. Gurney, Heather L. Hendrickson, Lee E. Hughes, Margaret A. Kenna, Karen K. Klyczek, Hari Kotturi, Travis N. Mavrich, Angela L. Mckinney, Evan C. Merkhofer, Jordan Moberg Parker, Sally D. Molloy, Denise L. Monti, Dana A. Pape-Zambito
Genomic Diversity Of Bacteriophages Infecting Microbacterium Spp, Deborah Jacobs-Sera, Nathan S. Reyna, Lawrence A. Abad, Richard M. Alvey, Kirk R. Anders, Haley G. Aull, Suparna S. Bhalla, Lawrence S. Blumer, David W. Bollivar, J. Alfred Bonilla, Kristen A. Butela, Roy J. Coomans, Steven G. Cresawn, Tom D'Elia, Arturo Diaz, Ashley M. Divens, Nicholas P. Edgington, Gregory D. Frederick, Maria D. Gainey, Rebecca A. Garlena, Kenneth W. Grant, Susan M.R. Gurney, Heather L. Hendrickson, Lee E. Hughes, Margaret A. Kenna, Karen K. Klyczek, Hari Kotturi, Travis N. Mavrich, Angela L. Mckinney, Evan C. Merkhofer, Jordan Moberg Parker, Sally D. Molloy, Denise L. Monti, Dana A. Pape-Zambito
Articles
The bacteriophage population is vast, dynamic, old, and genetically diverse. The genomics of phages that infect bacterial hosts in the phylum Actinobacteria show them to not only be diverse but also pervasively mosaic, and replete with genes of unknown function. To further explore this broad group of bacteriophages, we describe here the isolation and genomic characterization of 116 phages that infect Microbacterium spp. Most of the phages are lytic, and can be grouped into twelve clusters according to their overall relatedness; seven of the phages are singletons with no close relatives. Genome sizes vary from 17.3 kbp to 97.7 kbp, …
Genome Sequences Of Four Cluster P Mycobacteriophages, Erin L. Doyle, Christy L. Fillman, Nathan S. Reyna, Ruth C. Plymale, Deborah M. Tobiason, Daniel E. Westholm, Jonathan L. Askins, Brittany P. Backus, Ashlynn C. Baker, Harrison S. Ballard, Paul J. Bisesi, Logan Bond, Deanna Byrnes, Hannah Carlstedt, Kinnon S. Dodson, Megan J. Fallert, Kyla J. Foster, Daniel N. Games, Tristan R. Grams, Nancy A. Guild, Autumn Hurd, Nicholas Iwata, Cassidy R. Kepler, Lucinda R. Krenzke, Kelly Luekens, Jackie Lewis, Cali Mcentee, Justin C. Mcgee, Noah Nalley, Jade Prochaska, Reid G. Rogers, Jessica B. Schipper, Kelsey Snyder
Genome Sequences Of Four Cluster P Mycobacteriophages, Erin L. Doyle, Christy L. Fillman, Nathan S. Reyna, Ruth C. Plymale, Deborah M. Tobiason, Daniel E. Westholm, Jonathan L. Askins, Brittany P. Backus, Ashlynn C. Baker, Harrison S. Ballard, Paul J. Bisesi, Logan Bond, Deanna Byrnes, Hannah Carlstedt, Kinnon S. Dodson, Megan J. Fallert, Kyla J. Foster, Daniel N. Games, Tristan R. Grams, Nancy A. Guild, Autumn Hurd, Nicholas Iwata, Cassidy R. Kepler, Lucinda R. Krenzke, Kelly Luekens, Jackie Lewis, Cali Mcentee, Justin C. Mcgee, Noah Nalley, Jade Prochaska, Reid G. Rogers, Jessica B. Schipper, Kelsey Snyder
Articles
Four bacteriophages infecting Mycobacterium smegmatis mc2155 (three belonging to subcluster P1 and one belonging to subcluster P2) were isolated from soil and sequenced. All four phages are similar in the left arm of their genomes, but the P2 phage differs in the right arm. All four genomes contain features of temperate phages.
Comparative Genomics Of Cluster O Mycobacteriophages, Steven G. Cresawn, Nathan S. Reyna, Ruth Plymale, Welkin H. Pope, Deborah Jacobs-Sera, Charles A. Bowman, Daniel A. Russell, Rebekah M. Dedrick, Tamarah Adair, Kirk R. Anders, Sarah Ball, David Bollivar, Caroline Breitenberger, Sandra H. Burnett, Kristen Butela, Deanna Byrnes, Sarah Carzo, Kathleen A. Cornely, Trevor Cross, Richard L. Daniels, David Dunbar, Ann M. Findley, Chris R. Gissendanner, Urszula P. Golebiewska, Grant A. Hartzog, J. Robert Hatherill, Lee E. Hughes, Chernoh S. Jalloh, Carla De Los Santos, Kevin Ekanem, Sphindile L. Khambule, Rodney A. King, Christina King-Smith, Karen Klyczek, Greg P. Krukonis
Comparative Genomics Of Cluster O Mycobacteriophages, Steven G. Cresawn, Nathan S. Reyna, Ruth Plymale, Welkin H. Pope, Deborah Jacobs-Sera, Charles A. Bowman, Daniel A. Russell, Rebekah M. Dedrick, Tamarah Adair, Kirk R. Anders, Sarah Ball, David Bollivar, Caroline Breitenberger, Sandra H. Burnett, Kristen Butela, Deanna Byrnes, Sarah Carzo, Kathleen A. Cornely, Trevor Cross, Richard L. Daniels, David Dunbar, Ann M. Findley, Chris R. Gissendanner, Urszula P. Golebiewska, Grant A. Hartzog, J. Robert Hatherill, Lee E. Hughes, Chernoh S. Jalloh, Carla De Los Santos, Kevin Ekanem, Sphindile L. Khambule, Rodney A. King, Christina King-Smith, Karen Klyczek, Greg P. Krukonis
Articles
Mycobacteriophages - viruses of mycobacterial hosts - are genetically diverse but morphologically are all classified in the Caudovirales with double-stranded DNA and tails. We describe here a group of five closely related mycobacteriophages - Corndog, Catdawg, Dylan, Firecracker, and YungJamal - designated as Cluster O with long flexible tails but with unusual prolate capsids. Proteomic analysis of phage Corndog particles, Catdawg particles, and Corndog-infected cells confirms expression of half of the predicted gene products and indicates a non-canonical mechanism for translation of the Corndog tape measure protein. Bioinformatic analysis identifies 8-9 strongly predicted SigA promoters and all five Cluster O …
Emergent Fungal Entomopathogen Does Not Alter Density Dependence In A Viral Competitor, Andrew M. Liebhold, Ruth Plymale, Joseph S. Elkinton, Ann E. Hajek
Emergent Fungal Entomopathogen Does Not Alter Density Dependence In A Viral Competitor, Andrew M. Liebhold, Ruth Plymale, Joseph S. Elkinton, Ann E. Hajek
Articles
Population cycles in forest Lepidoptera often result from recurring density-dependent epizootics of entomopathogens. While these systems are typically dominated by a single pathogen species, insects are often infected by multiple pathogens, yet little is known how pathogens interact to affect host dynamics. The apparent invasion of northeastern North America by the fungal entomopathogen Entomophaga maimaiga some time prior to 1989 provides a unique opportunity to evaluate such interactions. Prior to the arrival of E. maimaga, the oscillatory dynamics of host gypsy moth, Lymantria dispar, populations were apparently driven by epizootics of a nucleopolyhedrovirus. Subsequent to its emergence, E. …
Variability In Azygospore Production Among Entomophaga Maimaiga Isolates, Ann E. Hajek, Ruth C. Plymale
Variability In Azygospore Production Among Entomophaga Maimaiga Isolates, Ann E. Hajek, Ruth C. Plymale
Articles
This study describes in vitro and in vivo azygospore production by nine isolates of Entomophaga maimaiga, a fungal pathogen of the gypsy moth, Lymantria dispar. The three E. maimaiga isolates that consistently produced azygospores in vitro were also strong producers of azygospores in vivo. However, two additional isolates that were strong azygospore producers in vivo did not produce azygospores in vitro. Isolates that produced azygospores in vitro produced both conidia and azygospores more frequently in vivo than isolates not producing azygospores in vitro. In vitro azygospore production varied over time as well as by isolate. After >2 years of cold …