Key Laboratory of Optic-Electric Sensing and Analytical Chemistry for Life Science, MOE, College of Chemistry and Molecular Engineering , Qingdao University of Science and Technology , Qingdao 266042 , P. R. China.
School of Science , Beijing Technology and Business University , Beijing 100048 , P. R. China.
Anal Chem. 2019 Nov 5;91(21):13947-13952. doi: 10.1021/acs.analchem.9b03463. Epub 2019 Oct 10.
Gold nanoclusters (Au NCs) coated with various peptides have been widely used as fluorescent probes, and nowadays the most commonly used are cysteine (C) and tyrosine (Y) based ones. Herein, we report the preparation and clinical application of highly efficient and stable fluorescent Au NCs protected by screened peptides with a specific amino acid sequence Cys-Met-Met-Met-Met-Met (CMMMMM). Compared with traditional C, Y based peptide (CYYYYY) protected Au NCs, the fluorescence intensity of the CMMMMM-Au NCs increased by 230%, and the photobleaching resistance or stability of the CMMMMM-Au NCs increased by about 300% (after continuous ultraviolet irradiation for 60 min, the fluorescence of the CMMMMM-Au NCs remained more than 90% of their initial intensity, while the CYYYYY-Au NCs remained less than 30%). Assaying arrays based on CMMMMM protected Au NCs with different positive or negative charges as sensing receptors were developed through regulating different pH values, and multivariate analysis on the patterns obtained by these arrays allowed effective identification of not only ten proteins separately but also complex protein mixtures with subtly diverse compositions. The docking simulation and isothermal titration confirmed that target proteins interacted with CMMMMM-Au NCs mainly through electrostatic interactions and partly hydrophobic interactions, which affected the binding energy and fluorescence lifetime of CMMMMM-Au NCs, resulting in the unique fingerprint-like recognition patterns. Furthermore, serums from breast cancer, severe osteoarthritis, and rectal cancer patients can be effectively identified with healthy people using this CMMMMM-Au NCs based sensor array.
金纳米簇(Au NCs)被各种肽包裹,已被广泛用作荧光探针,而目前最常用的是半胱氨酸(C)和酪氨酸(Y)基肽。在此,我们报告了由具有特定氨基酸序列半胱氨酸-甲硫氨酸-甲硫氨酸-甲硫氨酸-甲硫氨酸-甲硫氨酸(CMMMMM)的筛选肽保护的高效且稳定的荧光 Au NCs 的制备和临床应用。与传统的 C、Y 基肽(CYYYYY)保护的 Au NCs 相比,CMMMMM-Au NCs 的荧光强度增加了 230%,并且 CMMMMM-Au NCs 的光漂白稳定性或稳定性增加了约 300%(在连续紫外照射 60 分钟后,CMMMMM-Au NCs 的荧光仍保持其初始强度的 90%以上,而 CYYYYY-Au NCs 的荧光保持不到 30%)。通过调节不同的 pH 值,开发了基于具有不同正电荷或负电荷的 CMMMMM 保护的 Au NCs 的测定阵列作为感应受体,通过对这些阵列获得的模式进行多元分析,可以有效地识别不仅是十种蛋白质,而且还可以有效地识别具有细微不同组成的复杂蛋白质混合物。对接模拟和等温滴定证实,靶蛋白主要通过静电相互作用和部分疏水相互作用与 CMMMMM-Au NCs 相互作用,这影响了 CMMMMM-Au NCs 的结合能和荧光寿命,从而导致独特的指纹样识别模式。此外,使用这种基于 CMMMMM-Au NCs 的传感器阵列,可以有效地识别乳腺癌、严重骨关节炎和直肠癌患者的血清与健康人的血清。
