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In situ probing the interior of single bacterial cells at nanometer scale.

Authors :
Boyin Liu
Tuck Wah Ng
Jing Fu
Md Hemayet Uddin
David L Paterson
Tony Velkov
Jian Li
Source :
Nanotechnology. 10/17/2014, Vol. 25 Issue 41, p1-1. 1p.
Publication Year :
2014

Abstract

We report a novel approach to probe the interior of single bacterial cells at nanometre resolution by combining focused ion beam (FIB) and atomic force microscopy (AFM). After removing layers of pre-defined thickness in the order of 100 nm on the target bacterial cells with FIB milling, AFM of different modes can be employed to probe the cellular interior under both ambient and aqueous environments. Our initial investigations focused on the surface topology induced by FIB milling and the hydration effects on AFM measurements, followed by assessment of the sample protocols. With fine-tuning of the process parameters, in situ AFM probing beneath the bacterial cell wall was achieved for the first time. We further demonstrate the proposed method by performing a spatial mapping of intracellular elasticity and chemistry of the multi-drug resistant strain Klebsiella pneumoniae cells prior to and after it was exposed to the ‘last-line’ antibiotic polymyxin B. Our results revealed increased stiffness occurring in both surface and interior regions of the treated cells, suggesting loss of integrity of the outer membrane from polymyxin treatments. In addition, the hydrophobicity measurement using a functionalized AFM tip was able to highlight the evident hydrophobic portion of the cell such as the regions containing cell membrane. We expect that the proposed FIB–AFM platform will help in gaining deeper insights of bacteria–drug interactions to develop potential strategies for combating multi-drug resistance. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09574484
Volume :
25
Issue :
41
Database :
Academic Search Index
Journal :
Nanotechnology
Publication Type :
Academic Journal
Accession number :
98555213
Full Text :
https://doi.org/10.1088/0957-4484/25/41/415101