Determination of bacterial surface charge density via saturation of adsorbed ions
Autor: | T. Wu, C.M. Chang, M. Sharifian Gh., Jianqiang Ma, Hai-Lung Dai, Y. Li, Michael J. Wilhelm |
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Rok vydání: | 2021 |
Předmět: |
Materials science
Surface Properties Biophysics Gram-Positive Bacteria Article Light scattering Ion 03 medical and health sciences chemistry.chemical_compound 0302 clinical medicine Adsorption Gram-Negative Bacteria Molecular Transport Surface charge Malachite green 030304 developmental biology Ions 0303 health sciences biology Charge density biology.organism_classification Anti-Bacterial Agents chemistry Chemical physics Surface protein Saturation (chemistry) 030217 neurology & neurosurgery Bacteria |
Zdroj: | Biophys J |
ISSN: | 0006-3495 |
DOI: | 10.1016/j.bpj.2021.04.018 |
Popis: | Bacterial surface charge is a critical characteristic of the cell’s interfacial physiology that influences how the cell interacts with the local environment. A direct, sensitive, and accurate experimental technique capable of quantifying bacterial surface charge is needed to better understand molecular adaptations in interfacial physiology in response to environmental changes. We introduce here the method of second harmonic light scattering (SHS) which is capable of detecting the number of molecular ions adsorbed as counter charges on the exterior bacterial surface, thereby providing a measure of the surface charge. In this first demonstration, we detect the small molecular cation, malachite green, electrostatically adsorbed on the surface of representative strains of Gram-positive and Gram-negative bacteria. Surprisingly, the SHS deduced molecular transport rates through the different cellular ultra-structures are revealed to be nearly identical. However, the adsorption saturation densities on the exterior surfaces of the two bacteria were shown to be characteristically distinct. The negative charge density of the lipopolysaccharide coated outer surface of Gram-negative E. coli (8.7±1.7 nm−2) was deduced to be seven times larger than that of the protein surface layer of Gram-positive L. rhamnosus (1.2±0.2 nm−2). The feasibility of SHS deduced bacterial surface charge density for Gram-type differentiation is presented.STATEMENT of SIGNIFICANCEBacterial surface charge density is an important physiological characteristic which determines how the cell interacts with its local environment. Directly measuring the surface charge density, however, is experimentally non-trivial. In this work, we report an experimental method, second harmonic light scattering, that can directly and accurately quantify the surface charge density of individual living bacteria. This is achieved by measuring the number of molecular ions electrostatically adsorbed on the exterior cellular surface as counter charges. It is found that the negative charge density of a representative Gram-negative bacterium is 7 times larger than a representative Gram-positive bacterium. It is suggested that this disparity of surface charge density can be exploited as a basis for Gram-classification of bacteria. |
Databáze: | OpenAIRE |
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