The Effect of Bacterial Adhesion on Grafted Chains Revealed by the Non-Invasive Sum Frequency Generation Spectroscopy

Spectroscopy-An International Journal Pub Date : 2012-07-11 DOI:10.1155/2012/682591

Emilie Bulard, M. Fontaine‐Aupart, H. Dubost, Wanquan Zheng, J. Herry, M. Bellon-Fontaine, R. Briandet, B. Bourguignon

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引用次数: 5

Abstract

In biomedical and food industry, surface colonization by bacteria is harmful: it leads to biofilm formation, a microbial consortia more resistant to antibiotics than planktonic bacteria. In order to design materials able to limit the biofilm formation, the effect of bacteria on materials has to be well characterized. In this work, a well-defined surface composed of a self-assembled monolayer (SAM) of octadecanethiol (ODT) onto a gold surface is probed in situ. The SAM conformation is obtained using the femtosecond vibrational sum frequency generation (SFG) spectroscopy. This technique provides selectively the molecular vibrational signature of the interface. The behaviour of the ODT SAM is studied in different environments: in air, in water, and upon exposure to hydrophilic or hydrophobic Lactococcus lactis bacteria. Modelling the experimental SFG spectra reveals a measurable change of the SAM conformation which depends on the environment, especially on the hydrophilic-hydrophobic character.

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无创和频产生光谱技术揭示细菌粘附在接枝链上的影响

在生物医学和食品工业中，细菌的表面定植是有害的:它会导致生物膜的形成，这是一种比浮游细菌更耐抗生素的微生物联合体。为了设计能够限制生物膜形成的材料，必须很好地表征细菌对材料的影响。在这项工作中，由十八烷硫醇(ODT)自组装单层(SAM)组成的明确定义的表面在金表面上进行了原位探测。利用飞秒振动和频率产生(SFG)光谱获得了SAM的构象。该技术选择性地提供了界面的分子振动特征。研究了ODT SAM在不同环境中的行为:在空气中，在水中，以及暴露于亲水性或疏水性乳酸乳球菌。模拟实验SFG谱揭示了SAM构象的可测量变化，这取决于环境，特别是亲疏水特性。

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Spectroscopy-An International Journal 物理-光谱学

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6-12 weeks