测量与分析细菌在黏液中的运动

Measuring and Analyzing Bacterial Movement in Mucus.

作者信息

Viets Chris, Stevens Corey A

机构信息

Department of Biological Engineering, Massachusetts Institute of Technology, Cambridge, MA, USA.

出版信息

Methods Mol Biol. 2025;2942:187-197. doi: 10.1007/978-1-0716-4627-4_16.

DOI:10.1007/978-1-0716-4627-4_16

PMID:40498317

Abstract

Humans are colonized by trillions of microbes that compose the human microbiome. Much of the microbiome inhabits the mucus layers. Mucus layers, covering digestive, reproductive, ocular, and respiratory tracts, are viscous networks consisting mainly of water and mucin glycoproteins. Mucins assemble into a dense, cross-linked network that can affect bacterial swimming patterns, and studying this behavior provides valuable insights into how the body regulates interactions with both harmful and beneficial microbes. Here we present the use of time-lapse imaging to track individual bacterial cells within mucin and discuss techniques for accurately extracting cell trajectory data from these images. By integrating theoretical and experimental approaches, we also describe how to quantify bacterial movement in terms of speed, persistence, and randomness.

摘要

人体被数万亿构成人类微生物组的微生物所定植。大部分微生物组栖息于黏液层。覆盖消化道、生殖道、眼和呼吸道的黏液层是主要由水和黏蛋白糖蛋白组成的黏性网络。黏蛋白组装成一个致密的交联网络，可影响细菌的游动模式，研究这种行为能为身体如何调节与有害和有益微生物的相互作用提供有价值的见解。在此，我们展示了使用延时成像来追踪黏蛋白内的单个细菌细胞，并讨论了从这些图像中准确提取细胞轨迹数据的技术。通过整合理论和实验方法，我们还描述了如何根据速度、持续性和随机性来量化细菌的运动。

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测量与分析细菌在黏液中的运动

Measuring and Analyzing Bacterial Movement in Mucus.

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