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Marina Harper

Showing results (41-50 of 55) with videos related to

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Journal of Bacteriology|March 24, 2022
The Role and Targets of the RNA-Binding Protein ProQ in the Gram-Negative Bacterial Pathogen Pasteurella multocidaEmily L Gulliver, Brandon M Sy, Julia L Wong, et al.
Glycobiology|April 18, 2014
Structural analysis of lipopolysaccharide produced by Heddleston serovars 10, 11, 12 and 15 and the identification of a new Pasteurella multocida lipopolysaccharide outer core biosynthesis locus, L6Marina Harper, Frank St Michael, Marietta John, et al.
Antimicrobial Agents and Chemotherapy|October 26, 2011
Colistin-resistant, lipopolysaccharide-deficient Acinetobacter baumannii responds to lipopolysaccharide loss through increased expression of genes involved in the synthesis and transport of lipoproteins, phospholipids, and poly-β-1,6-N-acetylglucosamineRebekah Henry, Nuwan Vithanage, Paul Harrison, et al.
Glycobiology|October 10, 2014
Characterization of the lipopolysaccharide produced by Pasteurella multocida serovars 6, 7 and 16: identification of lipopolysaccharide genotypes L4 and L8Marina Harper, Frank St Michael, Jason A Steen, et al.
The Journal of Antimicrobial Chemotherapy|January 15, 2015
The transcriptomic response of Acinetobacter baumannii to colistin and doripenem alone and in combination in an in vitro pharmacokinetics/pharmacodynamics modelRebekah Henry, Bethany Crane, David Powell, et al.
Infection and Immunity|January 27, 2009
Identification of novel glycosyltransferases required for assembly of the Pasteurella multocida A:1 lipopolysaccharide and their involvement in virulenceJohn D Boyce, Marina Harper, Frank St Michael, et al.
RNA (New York, N.Y.)|February 15, 2018
Determination of the small RNA GcvB regulon in the Gram-negative bacterial pathogen <i>Pasteurella multocida</i> and identification of the GcvB seed binding regionEmily L Gulliver, Amy Wright, Deanna Deveson Lucas, et al.
Nature Communications|October 8, 2024
Structure of a Rhs effector clade domain provides mechanistic insights into type VI secretion system toxin deliveryBrooke K Hayes, Marina Harper, Hariprasad Venugopal, et al.
Journal of Bacteriology|August 27, 2013
Pasteurella multocida Heddleston serovar 3 and 4 strains share a common lipopolysaccharide biosynthesis locus but display both inter- and intrastrain lipopolysaccharide heterogeneityMarina Harper, Frank St Michael, Marietta John, et al.
BMC Genomics|May 6, 2016
Perturbation of the two-component signal transduction system, BprRS, results in attenuated virulence and motility defects in Burkholderia pseudomalleiNatalie R Lazar Adler, Elizabeth M Allwood, Deanna Deveson Lucas, et al.
Pageof 6

Showing results (41-50 of 55) with videos related to

Sort By:
Pageof 6
Journal of Bacteriology|March 24, 2022
The Role and Targets of the RNA-Binding Protein ProQ in the Gram-Negative Bacterial Pathogen Pasteurella multocidaEmily L Gulliver, Brandon M Sy, Julia L Wong, et al.
Glycobiology|April 18, 2014
Structural analysis of lipopolysaccharide produced by Heddleston serovars 10, 11, 12 and 15 and the identification of a new Pasteurella multocida lipopolysaccharide outer core biosynthesis locus, L6Marina Harper, Frank St Michael, Marietta John, et al.
Antimicrobial Agents and Chemotherapy|October 26, 2011
Colistin-resistant, lipopolysaccharide-deficient Acinetobacter baumannii responds to lipopolysaccharide loss through increased expression of genes involved in the synthesis and transport of lipoproteins, phospholipids, and poly-β-1,6-N-acetylglucosamineRebekah Henry, Nuwan Vithanage, Paul Harrison, et al.
Glycobiology|October 10, 2014
Characterization of the lipopolysaccharide produced by Pasteurella multocida serovars 6, 7 and 16: identification of lipopolysaccharide genotypes L4 and L8Marina Harper, Frank St Michael, Jason A Steen, et al.
The Journal of Antimicrobial Chemotherapy|January 15, 2015
The transcriptomic response of Acinetobacter baumannii to colistin and doripenem alone and in combination in an in vitro pharmacokinetics/pharmacodynamics modelRebekah Henry, Bethany Crane, David Powell, et al.
Infection and Immunity|January 27, 2009
Identification of novel glycosyltransferases required for assembly of the Pasteurella multocida A:1 lipopolysaccharide and their involvement in virulenceJohn D Boyce, Marina Harper, Frank St Michael, et al.
RNA (New York, N.Y.)|February 15, 2018
Determination of the small RNA GcvB regulon in the Gram-negative bacterial pathogen <i>Pasteurella multocida</i> and identification of the GcvB seed binding regionEmily L Gulliver, Amy Wright, Deanna Deveson Lucas, et al.
Nature Communications|October 8, 2024
Structure of a Rhs effector clade domain provides mechanistic insights into type VI secretion system toxin deliveryBrooke K Hayes, Marina Harper, Hariprasad Venugopal, et al.
Journal of Bacteriology|August 27, 2013
Pasteurella multocida Heddleston serovar 3 and 4 strains share a common lipopolysaccharide biosynthesis locus but display both inter- and intrastrain lipopolysaccharide heterogeneityMarina Harper, Frank St Michael, Marietta John, et al.
BMC Genomics|May 6, 2016
Perturbation of the two-component signal transduction system, BprRS, results in attenuated virulence and motility defects in Burkholderia pseudomalleiNatalie R Lazar Adler, Elizabeth M Allwood, Deanna Deveson Lucas, et al.
Pageof 6