The biofilm matrix: multitasking in a shared space

生物膜 人类多任务处理 基质(化学分析) 生物 空格(标点符号) 细菌 计算生物学 细胞生物学 计算机科学 神经科学 遗传学 材料科学 操作系统 复合材料
作者
Hans‐Curt Flemming,Eric D. van Hullebusch,Thomas R. Neu,Per Halkjær Nielsen,Thomas Seviour,Paul Stoodley,Jost Wingender,Stefan Wuertz
出处
期刊:Nature Reviews Microbiology [Nature Portfolio]
卷期号:21 (2): 70-86 被引量:847
标识
DOI:10.1038/s41579-022-00791-0
摘要

The biofilm matrix can be considered to be a shared space for the encased microbial cells, comprising a wide variety of extracellular polymeric substances (EPS), such as polysaccharides, proteins, amyloids, lipids and extracellular DNA (eDNA), as well as membrane vesicles and humic-like microbially derived refractory substances. EPS are dynamic in space and time and their components interact in complex ways, fulfilling various functions: to stabilize the matrix, acquire nutrients, retain and protect eDNA or exoenzymes, or offer sorption sites for ions and hydrophobic substances. The retention of exoenzymes effectively renders the biofilm matrix an external digestion system influencing the global turnover of biopolymers, considering the ubiquitous relevance of biofilms. Physico-chemical and biological interactions and environmental conditions enable biofilm systems to morph into films, microcolonies and macrocolonies, films, ridges, ripples, columns, pellicles, bubbles, mushrooms and suspended aggregates - in response to the very diverse conditions confronting a particular biofilm community. Assembly and dynamics of the matrix are mostly coordinated by secondary messengers, signalling molecules or small RNAs, in both medically relevant and environmental biofilms. Fully deciphering how bacteria provide structure to the matrix, and thus facilitate and benefit from extracellular reactions, remains the challenge for future biofilm research.
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