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Lindsay R Triplett

Showing results (1-10 of 28) with videos related to

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Toxins|April 10, 2019
Survey of Toxin⁻Antitoxin Systems in <i>Erwinia amylovora</i> Reveals Insights into Diversity and Functional SpecificityTeja Shidore, Quan Zeng, Lindsay R Triplett
BMC Genomics|January 23, 2021
Activation of metabolic and stress responses during subtoxic expression of the type I toxin hok in Erwinia amylovoraJingyu Peng, Lindsay R Triplett, George W Sundin
Applied and Environmental Microbiology|September 12, 2006
Genetic differences between blight-causing Erwinia species with differing host specificities, identified by suppression subtractive hybridizationLindsay R Triplett, Youfu Zhao, George W Sundin
Molecular Plant-Microbe Interactions : MPMI|September 10, 2009
Functional analysis of the N terminus of the Erwinia amylovora secreted effector DspA/E reveals features required for secretion, translocation, and binding to the chaperone DspB/FLindsay R Triplett, Maeli Melotto, George W Sundin
Mbio|May 30, 2025
<i>Neuromorpha vorax</i>: a previously unculturable cosmopolitan protist with an unexpectedly complex life cycle belonging to Glissomonadida Clade-U/Group-TEGabrielle Corso, Lindsay R Triplett, Daniel J Gage
Research in Microbiology|July 6, 2010
Homology-based modeling of the Erwinia amylovora type III secretion chaperone DspF used to identify amino acids required for virulence and interaction with the effector DspELindsay R Triplett, William J Wedemeyer, George W Sundin
Frontiers in Microbiology|February 24, 2018
Regulation of Effector Delivery by Type III Secretion Chaperone Proteins in <i>Erwinia amylovora</i>Luisa F Castiblanco, Lindsay R Triplett, George W Sundin
Applied and Environmental Microbiology|May 19, 2019
Chromosomally Encoded <i>hok-sok</i> Toxin-Antitoxin System in the Fire Blight Pathogen Erwinia amylovora: Identification and Functional CharacterizationJingyu Peng, Lindsay R Triplett, Jeffrey K Schachterle, et al.
Cell|May 6, 2017
Communication in the PhytobiomeJan E Leach, Lindsay R Triplett, Cristiana T Argueso, et al.
Mbio|April 14, 2021
Pseudomonas syringae pv. <i>phaseolicola</i> Uses Distinct Modes of Stationary-Phase Persistence To Survive Bacteriocin and Streptomycin TreatmentsRavikumar R Patel, Prem P Kandel, Eboni Traverso, et al.
Pageof 3

Showing results (1-10 of 28) with videos related to

Sort By:
Pageof 3
Toxins|April 10, 2019
Survey of Toxin⁻Antitoxin Systems in <i>Erwinia amylovora</i> Reveals Insights into Diversity and Functional SpecificityTeja Shidore, Quan Zeng, Lindsay R Triplett
BMC Genomics|January 23, 2021
Activation of metabolic and stress responses during subtoxic expression of the type I toxin hok in Erwinia amylovoraJingyu Peng, Lindsay R Triplett, George W Sundin
Applied and Environmental Microbiology|September 12, 2006
Genetic differences between blight-causing Erwinia species with differing host specificities, identified by suppression subtractive hybridizationLindsay R Triplett, Youfu Zhao, George W Sundin
Molecular Plant-Microbe Interactions : MPMI|September 10, 2009
Functional analysis of the N terminus of the Erwinia amylovora secreted effector DspA/E reveals features required for secretion, translocation, and binding to the chaperone DspB/FLindsay R Triplett, Maeli Melotto, George W Sundin
Mbio|May 30, 2025
<i>Neuromorpha vorax</i>: a previously unculturable cosmopolitan protist with an unexpectedly complex life cycle belonging to Glissomonadida Clade-U/Group-TEGabrielle Corso, Lindsay R Triplett, Daniel J Gage
Research in Microbiology|July 6, 2010
Homology-based modeling of the Erwinia amylovora type III secretion chaperone DspF used to identify amino acids required for virulence and interaction with the effector DspELindsay R Triplett, William J Wedemeyer, George W Sundin
Frontiers in Microbiology|February 24, 2018
Regulation of Effector Delivery by Type III Secretion Chaperone Proteins in <i>Erwinia amylovora</i>Luisa F Castiblanco, Lindsay R Triplett, George W Sundin
Applied and Environmental Microbiology|May 19, 2019
Chromosomally Encoded <i>hok-sok</i> Toxin-Antitoxin System in the Fire Blight Pathogen Erwinia amylovora: Identification and Functional CharacterizationJingyu Peng, Lindsay R Triplett, Jeffrey K Schachterle, et al.
Cell|May 6, 2017
Communication in the PhytobiomeJan E Leach, Lindsay R Triplett, Cristiana T Argueso, et al.
Mbio|April 14, 2021
Pseudomonas syringae pv. <i>phaseolicola</i> Uses Distinct Modes of Stationary-Phase Persistence To Survive Bacteriocin and Streptomycin TreatmentsRavikumar R Patel, Prem P Kandel, Eboni Traverso, et al.
Pageof 3