Physical and Life Sciences Directorate, and Center for Accelerator Mass Spectrometry, Lawrence Livermore National Laboratory, Livermore, California 94551, USA.
Bioconjug Chem. 2010 Jul 21;21(7):1321-30. doi: 10.1021/bc100129s.
Nanolipoprotein particles (NLPs) are discoidal self-assembling membrane mimetics that have been primarily used as a platform for the solubilization and stabilization of membrane proteins. Nickel-chelating nanolipoprotein particles (NiNLPs) containing nickel-chelating lipids (Ni-lipid) for the targeted immobilization of His-tagged proteins hold promise as carriers of hydrophilic biological molecules for a range of applications. The effect of protein loading (i.e., the number of proteins bound per NiNLP) and Ni-lipid content on the time scales and kinetics of binding are important to various applications such as vaccine development, diagnostic imaging, and drug delivery. We have immobilized hexa-His-tagged LsrB, a Yersinia pestis transport protein, onto NiNLPs to examine the effect of protein binding stoichiometry and Ni-lipid content on the time scales and kinetics of protein binding by surface plasmon resonance (SPR). Data indicate that the dissociation half-time increases with Ni-lipid content up to a molar concentration of 35% and decreases as the number of bound protein per NiNLP increases. These findings indicate that the kinetics of protein binding are highly dependent on both the number of bound protein per NiNLP and Ni-lipid content.
纳米脂蛋白颗粒(Nanolipoprotein particles,NLPs)是一种圆盘状的自组装膜模拟物,主要用作膜蛋白的溶解和稳定化平台。含有镍螯合脂质(Ni-lipid)的镍螯合纳米脂蛋白颗粒(Nickel-chelating nanolipoprotein particles,NiNLPs)可用于固定 His 标签蛋白,有望成为一系列应用中亲水性生物分子的载体。蛋白负载(即每个 NiNLP 结合的蛋白数量)和 Ni-lipid 含量对结合的时间尺度和动力学的影响对于疫苗开发、诊断成像和药物输送等各种应用都很重要。我们将六组氨酸标记的 LsrB(鼠疫耶尔森氏菌的一种转运蛋白)固定在 NiNLPs 上,通过表面等离子体共振(SPR)研究蛋白结合化学计量和 Ni-lipid 含量对蛋白结合时间尺度和动力学的影响。数据表明,随着 Ni-lipid 含量的增加(摩尔浓度最高可达 35%),解离半衰期增加,而随着每个 NiNLP 结合的蛋白数量的增加,解离半衰期减小。这些发现表明,蛋白结合的动力学高度依赖于每个 NiNLP 结合的蛋白数量和 Ni-lipid 含量。