Diaferia Carlo, Sibillano Teresa, Altamura Davide, Roviello Valentina, Vitagliano Luigi, Giannini Cinzia, Morelli Giancarlo, Accardo Antonella
Department of Pharmacy, Research Centre on Bioactive Peptides (CIRPeB), University of Naples "Federico II" and DFM Scarl, Via Mezzocannone 16, 80134, Naples, Italy.
Institute of Crystallography (IC), CNR, Via Amendola 122, 70126, Bari, Italy.
Chemistry. 2017 Oct 9;23(56):14039-14048. doi: 10.1002/chem.201703055. Epub 2017 Sep 12.
Peptides containing aromatic residues are known to exhibit spontaneous phenomena of supramolecular organization into ordered nanostructures (NSs). In this work we studied the structural behavior and optoelectronic properties of new biocompatible materials obtained by the self-assembly of a series of hexaphenylalanines (F6) modified at the N terminus by a PEG chain of different lengths. PEG -F6, PEG -F6, and PEG -F6 peptides were synthesized by coupling sequentially two, three, or four units of amino-carboxy-PEG blocks, each one containing six oxyethylene repetitions. Changes in the length and composition of the PEG chain were found to modulate the structural organization of the phenylalanine-based nanostructures. An increase in the self-aggregation tendency was observed with longer PEG chains, whereas, independently of the PEG length, the peptide NSs display cross-β-like secondary structures with an antiparallel β-strand arrangement. WAXS/GIWAXS diffraction patterns indicate a progressive decrease in fiber order along the series. All the PEG-F6 derivatives present blue photoluminescent (PL) emission at 460 nm, with the adduct with the longest PEG chain (PEG -F6) showing an additional green emission at 530 nm.
已知含有芳香族残基的肽会表现出超分子自组装形成有序纳米结构(NSs)的自发现象。在这项工作中,我们研究了一系列在N端通过不同长度的聚乙二醇(PEG)链修饰的六聚苯丙氨酸(F6)自组装得到的新型生物相容性材料的结构行为和光电性质。PEG -F6、PEG -F6和PEG -F6肽是通过依次偶联两个、三个或四个氨基-羧基-PEG嵌段单元合成的,每个嵌段含有六个氧化乙烯重复单元。发现PEG链长度和组成的变化会调节基于苯丙氨酸的纳米结构的结构组织。观察到随着PEG链变长,自聚集趋势增加,而无论PEG长度如何,肽NSs都呈现具有反平行β链排列的类交叉β二级结构。广角X射线散射/掠入射广角X射线散射(WAXS/GIWAXS)衍射图谱表明该系列中纤维有序度逐渐降低。所有PEG -F6衍生物在460 nm处呈现蓝色光致发光(PL)发射,其中PEG链最长的加合物(PEG -F6)在530 nm处还呈现绿色发射。
