Terahertz Imaging Detects Oral Cariogenic Microbial Domains Characteristics.

A Zhang, L Lei, L Cheng, H Yin, C Zhang, J Luo, F Wu, M Hu, R Cheng, T Hu
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Abstract

Dental caries, associated with plaque biofilm, is highly prevalent and significantly burdens public health. Streptococcus mutans is the main cariogenic bacteria that adheres to the tooth surface and forms an abundant extracellular polysaccharide matrix (EPS) as a cariogenic biofilm scaffold. S. mutans RNase III-encoding gene (rnc) and a putative chromosome segregation protein-encoding gene (smc) are potentially associated with EPS production. In addition, complex interactions between S. mutans and other oral microorganisms synergistically or antagonistically affect the cariogenicity. Commensal streptococci suppress the growth of cariogenic pathogens, whereas Candida albicans mediates the formation of cariogenic biofilm through aggregation and dual-species biofilm formation with S. mutans. However, label-free detection of cariogenic microbial interactions with the EPS matrix is still challenging during laboratory investigations. Herein, we hypothesized that the S. mutans rnc-smc operon affects EPS production and aimed to observe streptococci, S. mutans, and S. mutans-C. albicans using terahertz scanning near-field optical microscopy (THz s-SNOM). The light in the 0.1- to 0.3-THz frequency range interacted with the sample through a nano-probe tip by a point-by-point scanning process. Additional noise reduction of the original image was achieved by a dual kernel Gaussian filter. The monospecies of streptococci, S. mutans smc/rnc mutants, and the dual-species of S. mutans-C. albicans were scanned by THz s-SNOM. This technique provided terahertz near-field scanning images of S. mutans smc/rnc mutants, streptococci, and dual-species of S. mutans-C. albicans. Additional analysis of the original images potentially revealed the structures of the strains, such as cell diameters and cell wall thickness. In conclusion, the results suggested that the S. mutans rnc-smc operon regulates EPS production. Furthermore, this novel label-free detection of a THz near-field scanning technique had the potential to observe the morphologies of bacterial cells and EPS matrix.

太赫兹成像检测口腔致龋微生物域特征。
龋齿与牙菌斑生物膜有关,发病率很高,给公共卫生造成了巨大负担。变异链球菌是主要的致龋细菌,它粘附在牙齿表面并形成丰富的胞外多糖基质(EPS)作为致龋生物膜支架。S. mutans 的 RNase III 编码基因(rnc)和推测的染色体分离蛋白编码基因(smc)可能与 EPS 的产生有关。此外,变异链球菌与其他口腔微生物之间复杂的相互作用会协同或拮抗地影响致龋性。共生链球菌抑制致龋病原体的生长,而白色念珠菌则通过与变异棒状杆菌聚集和形成双种生物膜来介导致龋生物膜的形成。然而,在实验室研究中,无标记检测致龋微生物与 EPS 基质之间的相互作用仍具有挑战性。在此,我们假设变异棒状杆菌的 rnc-smc 操作子会影响 EPS 的产生,并利用太赫兹扫描近场光学显微镜(THz s-SNOM)观察链球菌、变异棒状杆菌和变异棒状杆菌-白喉杆菌。通过逐点扫描过程,0.1-0.3 太赫兹频率范围内的光通过纳米探针尖端与样品相互作用。双核高斯滤波器对原始图像进行了额外的降噪处理。太赫兹 s-SNOM 扫描了单种链球菌、变异链球菌 smc/rnc 突变体和变异链球菌-白喉杆菌双种。该技术提供了变异棒状杆菌 smc/rnc 突变体、链球菌和变异棒状杆菌-白种人双种的太赫兹近场扫描图像。对原始图像的其他分析可能会揭示菌株的结构,如细胞直径和细胞壁厚度。总之,研究结果表明,变异杆菌 rnc-smc 操作子调控 EPS 的产生。此外,这种新型无标记检测太赫兹近场扫描技术还具有观察细菌细胞和 EPS 基质形态的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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