mLife2025,Vol.4Issue(4):P.461-464,4.DOI:10.1002/mlf2.70024
Not too rigid nor too wobbly:Defining an optimal membrane fluidity range essential for biofilm formation in Escherichia coli
Yaoqin Hong 1Jilong Qin 2Makrina Totsika3
作者信息
- 1. Centre for Immunology and Infection Control,School of Biomedical Sciences,Queensland University of Technology,Herston,Queensland,Australia Max Planck Queensland Centre,Queensland University of Technology,Herston,Queensland,Australia Biomedical Sciences and Molecular Biology,College of Medicine and Dentistry,James Cook University,Douglas,Queensland,Australia
- 2. Centre for Immunology and Infection Control,School of Biomedical Sciences,Queensland University of Technology,Herston,Queensland,Australia Max Planck Queensland Centre,Queensland University of Technology,Herston,Queensland,Australia Institute for Molecular Bioscience,University of Queensland,St Lucia,Queensland,Australia
- 3. Centre for Immunology and Infection Control,School of Biomedical Sciences,Queensland University of Technology,Herston,Queensland,Australia Max Planck Queensland Centre,Queensland University of Technology,Herston,Queensland,Australia
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摘要
关键词
Escherichia coli/salmonella entericasuggest/lipid composition/bacterial fitness/biofilm formation/klebsiella pneumoniaestudies/membrane fluidity/environmental changes分类
生物科学引用本文复制引用
Yaoqin Hong,Jilong Qin,Makrina Totsika..Not too rigid nor too wobbly:Defining an optimal membrane fluidity range essential for biofilm formation in Escherichia coli[J].mLife,2025,4(4):P.461-464,4.基金项目
funded by an Early Career Researcher Scheme Grant from the Institute of Health and Biomedical Innovations and an Early Career Researcher Scheme Grant from the Faculty of Health,Queensland University of Technology(Australia) (Australia)
The Ian Potter Foundation sponsored the CLARIOStar high-performance microplate reader(BMG,Australia)。 (BMG,Australia)
