Improve Research Reproducibility
A Bio-protocol resource
EN
EN - English
CN - 中文
Receive Our Alerts
Submit a Protocol
Protocols
Biochemistry
Bioinformatics and Computational Biology
Biophysics
Cancer Biology
Cell Biology
Developmental Biology
Immunology
Microbiology
Molecular Biology
Neuroscience
Plant Science
Stem Cell
Systems Biology
Articles and Issues
Current Issue
All Issues
Articles In Press
For Authors
Submission Procedure
Preparation Guidelines
Submit a Protocol
Editorial Process
Editorial Criteria
AI-Generated Material
Publishing Ethics
Competing Interests
Article Processing Charges
About
About Us
Aims & Scope
Advisors
Editors
Reviewers
Leadership and Management
Open Access Policy
Content Availability and Indexing
Journal Partners
Professional Memberships
Contact Us
Become a Reviewer
EN
EN - English
CN - 中文
Log in / Sign up
Bio Page
Edit Profile
Home
Protocols
Biochemistry
Bioinformatics and Computational Biology
Biophysics
Cancer Biology
Cell Biology
Developmental Biology
Immunology
Microbiology
Molecular Biology
Neuroscience
Plant Science
Stem Cell
Systems Biology
Articles and Issues
Current Issue
All Issues
Articles In Press
For Authors
Submission Procedure
Preparation Guidelines
Submit a Protocol
Editorial Process
Editorial Criteria
AI-Generated Material
Publishing Ethics
Competing Interests
Article Processing Charges
About
About Us
Aims & Scope
Advisors
Editors
Reviewers
Leadership and Management
Open Access Policy
Content Availability and Indexing
Journal Partners
Professional Memberships
Contact Us
Alerts
Submit a Protocol
Receive Our Alerts
Microbiology
Categories
Protocols in Current Issue
Protocols in Past Issues
Date
View
Bacterial Fluorescent-dextran Diffusion Assay
NO
Neil M. O’Brien-Simpson*
NP
Namfon Pantarat
KW
Katrina A. Walsh
ER
Eric C. Reynolds
Marc-Antoine Sani
FS
Frances Separovic
0
Q&A
9692 Views
Jul 20, 2014
Antimicrobial peptides are known to disrupt bacterial membranes allowing solutes to flow across the membrane in an unregulated manner resulting in death of the organism. Disrupting the bacterial membrane would thus perturb the cells osmotic balance resulting in an initial influx of the external aqueous buffer. We have designed an assay to investigate how antimicrobial peptide concentration affects the ability of fluorescently labelled dextran moieties of differing molecular weight and hydrodynamic radii to cross membranes of viable bacteria. This assay was used to show that diffusion of low and high molecular weight dextrans into bacteria was a function of antimicrobial peptide concentration (Sani
et al.
, 2013).
Find out more
We use cookies to improve your user experience on this site. By using our website, you agree to the storage of cookies on your computer.