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Leake Mark C. (ed.) Biophysics of Infection
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Springer International Publishing, 2016. — 362 p.The Biophysics of Infection.
Single-Molecule Observation of DNA Replication Repair Pathways in E.col.
Investigating the Swimming of Microbial Pathogens Using Digital Holography.
What Is the ‘Minimum Inhibitory Concentration’ (MIC) of Pexiganan Acting on Escherichia coli?—A Cautionary Case Study.
Evolution of Drug Resistance in Bacteria.
Using Biophysics to Monitor the Essential Protonmotive Force in Bacteria.
The Type I Restriction Enzymes as Barriers to Horizontal Gene Transfer: Determination of the DNA Target Sequences.
Recognised by Livestock-Associated Methicillin-Resistant Staphylococcus aureus Clonal Complexes 133/ST771 and 398.
Biomechanical Analysis of Infectious Biofilms.
Designing a Single-Molecule Biophysics Tool for Characterising DNA Damage for Techniques that Kill Infectious Pathogens Through DNA Damage Effects.
Bacterial Surfaces: Front Lines in Host–Pathogen Interaction.
Biophysical Approaches to Bacterial Gene Regulation by Riboswitches.
Bugs on a Slippery Plane.
Transcription Regulation and Membrane Stress Management in Enterobacterial Pathogens.
How Biophysics May Help Us Understand the Flagellar Motor of Bacteria Which Cause Infections.
Mechanics of Bacterial Cells and Initial Surface Colonisation.
Neutron Reflectivity as a Tool for Physics-Based Studies of Model Bacterial Membranes.
Mechanisms of Salmonella Typhi Host Restriction.
Insights into Biological Complexity from Simple Foundations.
Force Spectroscopy in Studying Infection.
Imaging Immunity in Lymph Nodes: Past, Present and Future.
Novel Approaches to Manipulating Bacterial Pathogen Biofilms: Whole-Systems Design Philosophy and Steering Microbial Evolution.
Single-Molecule Observation of DNA Replication Repair Pathways in E.col.
Investigating the Swimming of Microbial Pathogens Using Digital Holography.
What Is the ‘Minimum Inhibitory Concentration’ (MIC) of Pexiganan Acting on Escherichia coli?—A Cautionary Case Study.
Evolution of Drug Resistance in Bacteria.
Using Biophysics to Monitor the Essential Protonmotive Force in Bacteria.
The Type I Restriction Enzymes as Barriers to Horizontal Gene Transfer: Determination of the DNA Target Sequences.
Recognised by Livestock-Associated Methicillin-Resistant Staphylococcus aureus Clonal Complexes 133/ST771 and 398.
Biomechanical Analysis of Infectious Biofilms.
Designing a Single-Molecule Biophysics Tool for Characterising DNA Damage for Techniques that Kill Infectious Pathogens Through DNA Damage Effects.
Bacterial Surfaces: Front Lines in Host–Pathogen Interaction.
Biophysical Approaches to Bacterial Gene Regulation by Riboswitches.
Bugs on a Slippery Plane.
Transcription Regulation and Membrane Stress Management in Enterobacterial Pathogens.
How Biophysics May Help Us Understand the Flagellar Motor of Bacteria Which Cause Infections.
Mechanics of Bacterial Cells and Initial Surface Colonisation.
Neutron Reflectivity as a Tool for Physics-Based Studies of Model Bacterial Membranes.
Mechanisms of Salmonella Typhi Host Restriction.
Insights into Biological Complexity from Simple Foundations.
Force Spectroscopy in Studying Infection.
Imaging Immunity in Lymph Nodes: Past, Present and Future.
Novel Approaches to Manipulating Bacterial Pathogen Biofilms: Whole-Systems Design Philosophy and Steering Microbial Evolution.
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