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Main Authors: Ali, Maryam, Schneider, Robin, Strecker, Anika, Krishnakumar, Nila, Unger, Sebastian, Soltaninezhad, Mohammad, Kirchhoff, Johanna, Tannert, Astrid, Dragounova, Katerina A., Heintzmann, Rainer, Müller, Anne-Dorothea, Krafft, Christoph, Neugebauer, Ute, Täuber, Daniela
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.10249
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author Ali, Maryam
Schneider, Robin
Strecker, Anika
Krishnakumar, Nila
Unger, Sebastian
Soltaninezhad, Mohammad
Kirchhoff, Johanna
Tannert, Astrid
Dragounova, Katerina A.
Heintzmann, Rainer
Müller, Anne-Dorothea
Krafft, Christoph
Neugebauer, Ute
Täuber, Daniela
author_facet Ali, Maryam
Schneider, Robin
Strecker, Anika
Krishnakumar, Nila
Unger, Sebastian
Soltaninezhad, Mohammad
Kirchhoff, Johanna
Tannert, Astrid
Dragounova, Katerina A.
Heintzmann, Rainer
Müller, Anne-Dorothea
Krafft, Christoph
Neugebauer, Ute
Täuber, Daniela
contents The power of photothermal spectroscopic imaging to visualize antimicrobial interaction on the surface of individual bacteria cells has been demonstrated on the model system Bacillus subtilis and vancomycin using mid-infrared photo-induced force microscopy (PiF-IR, also mid-IR PiFM). High-resolution PiF contrasts obtained by merging subsequent PiF-IR scans at two different illumination frequencies revealed chemical details of cell wall destruction after 30 and 60 min incubation with vancomycin with a spatial resolution of $\approx 5$ nm. This approach compensates local intensity variations induced by near-field coupling of the illuminating electric field with nanostructured surfaces, which appear in single-frequency contrasts in photothermal imaging methods, as shown by [Anindo et al., J. Phys. Chem C, 2025, 129, 4517]. Known spectral shifts associated with hydrogen bond formation between vancomycin and the N-acyl-D-Ala4-D-Ala5 termini in the peptidoglycan cell wall have been observed in chemometrics of PiF-IR spectra from treated and untreated Bacillus subtilis harvested after 30 min from the same experiment. Spectral signatures of the vancomyin interaction have been located in the piecrust of a progressing septum with $\approx 10$ nm resolution using PiF contrasts of three selected bands of a PiF-IR hyperspectral scan of an individual Bacillus subtilis cell harvested after 30 min incubation. Our results are complemented by a discussion of imaging artifacts and the influence of parameter settings supporting further development towards standardization in the application of PiF-IR for visualizing the chemical interaction of antibiotics on the surface of microbes with few nanometer resolution.
format Preprint
id arxiv_https___arxiv_org_abs_2505_10249
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nano-chemical cell-surface evaluation in photothermal spectroscopic imaging of antimicrobial interaction in model system Bacillus subtilis & vancomycin
Ali, Maryam
Schneider, Robin
Strecker, Anika
Krishnakumar, Nila
Unger, Sebastian
Soltaninezhad, Mohammad
Kirchhoff, Johanna
Tannert, Astrid
Dragounova, Katerina A.
Heintzmann, Rainer
Müller, Anne-Dorothea
Krafft, Christoph
Neugebauer, Ute
Täuber, Daniela
Biological Physics
Soft Condensed Matter
The power of photothermal spectroscopic imaging to visualize antimicrobial interaction on the surface of individual bacteria cells has been demonstrated on the model system Bacillus subtilis and vancomycin using mid-infrared photo-induced force microscopy (PiF-IR, also mid-IR PiFM). High-resolution PiF contrasts obtained by merging subsequent PiF-IR scans at two different illumination frequencies revealed chemical details of cell wall destruction after 30 and 60 min incubation with vancomycin with a spatial resolution of $\approx 5$ nm. This approach compensates local intensity variations induced by near-field coupling of the illuminating electric field with nanostructured surfaces, which appear in single-frequency contrasts in photothermal imaging methods, as shown by [Anindo et al., J. Phys. Chem C, 2025, 129, 4517]. Known spectral shifts associated with hydrogen bond formation between vancomycin and the N-acyl-D-Ala4-D-Ala5 termini in the peptidoglycan cell wall have been observed in chemometrics of PiF-IR spectra from treated and untreated Bacillus subtilis harvested after 30 min from the same experiment. Spectral signatures of the vancomyin interaction have been located in the piecrust of a progressing septum with $\approx 10$ nm resolution using PiF contrasts of three selected bands of a PiF-IR hyperspectral scan of an individual Bacillus subtilis cell harvested after 30 min incubation. Our results are complemented by a discussion of imaging artifacts and the influence of parameter settings supporting further development towards standardization in the application of PiF-IR for visualizing the chemical interaction of antibiotics on the surface of microbes with few nanometer resolution.
title Nano-chemical cell-surface evaluation in photothermal spectroscopic imaging of antimicrobial interaction in model system Bacillus subtilis & vancomycin
topic Biological Physics
Soft Condensed Matter
url https://arxiv.org/abs/2505.10249