BioSystems and Micromechanics (BioSyM) IRG, Singapore-MIT Alliance for Research and Technology (SMART) Centre, 138602, Republic of Singapore; Mechanobiology Institute (MBI), National University of Singapore (NUS), 117411, Republic of Singapore.
Mechanobiology Institute (MBI), National University of Singapore (NUS), 117411, Republic of Singapore.
J Mol Biol. 2019 Jan 18;431(2):433-443. doi: 10.1016/j.jmb.2018.11.014. Epub 2018 Nov 16.
Biofilm-associated proteins (BAPs) are important for early biofilm formation (adhesion) by bacteria and are also found in mature biofilms. BapA from Salmonella is a ~386-kDa surface protein, comprising 27 tandem repeats predicted to be bacterial Ig-like (BIg) domains. Such tandem repeats are conserved for BAPs across different bacterial species, but the function of these domains is not completely understood. In this work, we report the first study of the mechanical stability of the BapA protein. Using magnetic tweezers, we show that the folding of BapA BIg domains requires calcium binding and the folded domains have differential mechanical stabilities. Importantly, we identify that >100 nM concentration of calcium is needed for folding of the BIg domains, and the stability of the folded BIg domains is regulated by calcium over a wide concentration range from sub-micromolar (μM) to millimolar (mM). Only at mM calcium concentrations, as found in the extracellular environment, do the BIg domains have the saturated mechanical stability. BapA has been suggested to be involved in Salmonella invasion, and it is likely a crucial mechanical component of biofilms. Therefore, our results provide new insights into the potential roles of BapA as a structural maintenance component of Salmonella biofilm and also Salmonella invasion.
生物膜相关蛋白(BAPs)对于细菌早期生物膜形成(黏附)非常重要,并且也存在于成熟的生物膜中。沙门氏菌的 BapA 是一种约 386kDa 的表面蛋白,由 27 个串联重复序列组成,预测其具有细菌免疫球蛋白样(BIg)结构域。这种串联重复序列在不同的细菌物种中的 BAPs 中是保守的,但是这些结构域的功能还不完全清楚。在这项工作中,我们首次研究了 BapA 蛋白的机械稳定性。使用磁镊,我们表明 BapA 的 BIg 结构域的折叠需要钙结合,并且折叠的结构域具有不同的机械稳定性。重要的是,我们确定了 >100 nM 的钙浓度对于 BIg 结构域的折叠是必需的,并且折叠的 BIg 结构域的稳定性可以通过钙在从亚微米级(μM)到毫摩尔级(mM)的广泛浓度范围内进行调节。只有在 mM 浓度的钙,即细胞外环境中存在的钙浓度下,BIg 结构域才具有饱和的机械稳定性。BapA 被认为参与沙门氏菌的入侵,并且很可能是生物膜的关键机械组成部分。因此,我们的结果为 BapA 作为沙门氏菌生物膜和沙门氏菌入侵的结构维持成分的潜在作用提供了新的见解。
