利用重组疏水蛋白实现纺织品阻燃性，创新消防安全。

Innovating fire safety with recombinant hydrophobic proteins for textile fire retardancy.

作者信息

Gilmour Katie A, Arnadottir Thora H, James Paul, Scott Jane, Jiang Yunhong, Dade-Robertson Martyn, Zhang Meng

机构信息

Hub for Biotechnology in the Built Environment, Department of Applied Sciences, Northumbria University at Newcastle, Newcastle upon Tyne, UK.

Hub for Biotechnology in the Built Environment, School of Architecture, Planning and Landscape, Newcastle University, Newcastle upon Tyne, UK.

出版信息

Microb Biotechnol. 2023 Nov;16(11):2194-2199. doi: 10.1111/1751-7915.14340. Epub 2023 Sep 25.

DOI:10.1111/1751-7915.14340

PMID:37747422

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10616640/

Abstract

Fire retardancy for textiles is important to prevent the rapid spread of fire and minimize damage to property and harm to human life. To infer fire-resistance on textile materials such as cotton or nylon, chemical coatings are often used. These chemicals are usually toxic, and economically and environmentally unsustainable, however, some naturally produced protein-based fire retardants could be an alternative. A biofilm protein from Bacillus subtilis (BslA) was identified and recombinantly expressed in Escherichia coli with a double cellulose binding domain. It was then applied to a range of natural and synthetic fabric materials. A flame retardancy test found that use of BslA reduced fire damage by up to 51% and would pass fire retardancy testing according to British standards. It is therefore a viable and sustainable alternative to current industrial fire-retardant coatings.

摘要

纺织品的阻燃性对于防止火灾迅速蔓延、减少财产损失和对人类生命的伤害至关重要。为了推断棉或尼龙等纺织材料的耐火性，通常会使用化学涂层。然而，这些化学物质通常有毒，在经济和环境方面不可持续，不过，一些天然产生的基于蛋白质的阻燃剂可能是一种替代方案。一种来自枯草芽孢杆菌的生物膜蛋白（BslA）被鉴定出来，并在大肠杆菌中重组表达，带有双纤维素结合结构域。然后将其应用于一系列天然和合成织物材料。阻燃测试发现，使用BslA可将火灾损失降低多达51%，并且根据英国标准将通过阻燃测试。因此，它是当前工业阻燃涂层的一种可行且可持续的替代品。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3876/10616640/018a13565428/MBT2-16-2194-g002.jpg

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利用重组疏水蛋白实现纺织品阻燃性，创新消防安全。

Innovating fire safety with recombinant hydrophobic proteins for textile fire retardancy.

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