Synthesis of chiral hollow polymer microspheres and their applications in the spectroscopic chiral discrimination of tryptophan isomers.

Nan Shi, Baozhu Yang, Junyao Li, Wenrong Cai, Laidi Xu, Yongxin Tao, Yong Kong
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Abstract

Hollow polymer microspheres (HPMs) were synthesized, which were then hydrolyzed in aqueous ammonia to produce carboxyl (-COOH) groups on their surface. L-phenylalanine (L-Phe) was grafted to the hydrolyzed HPMs (H-HPMs) through amidation reactions, endowing the H-HPMs with chirality. The resultant chiral HPMs (C-HPMs) were used for the chiral discrimination of tryptophan (Trp) isomers. Due to the same rotatorydirection of L-Phe and L-Trp, the C-HPMs showed greatly higher selectivity toward L-Trp than its isomer. After being adsorbed by the C-HPMs, the absorbance of the residual L-Trp is significantly lower than that of the residual D-Trp, and thus spectroscopic chiral discrimination of the Trp isomers was successfully achieved. The Trp isomers were also discriminated by the chiral solid polymer microspheres (C-SPMs), while the difference in the absorbance of the residual L-Trp and D-Trp is remarkably smaller than that obtained by the C-HPMs. The outstanding discrimination capability of the C-HPMs might be ascribed to their high surface permeability resulted from their unique hollow structure.

手性空心聚合物微球的合成及其在色氨酸异构体光谱手性鉴别中的应用。
合成了中空聚合物微球(HPMs),然后将其在氨水中水解,使其表面产生羧基(-COOH)。通过酰胺化反应将 L-苯丙氨酸(L-Phe)接枝到水解的 HPMs(H-HPMs)上,赋予 H-HPMs 手性。由此产生的手性 HPMs(C-HPMs)被用于色氨酸(Trp)异构体的手性鉴别。由于 L-Phe 和 L-Trp 的旋转方向相同,C-HPMs 对 L-Trp 的选择性大大高于其异构体。被 C-HPMs 吸附后,残余 L-Trp 的吸光度明显低于残余 D-Trp,因此成功实现了 Trp 异构体的光谱手性鉴别。手性固体聚合物微球(C-SPMs)也能鉴别 Trp 异构体,但残留 L-Trp 和 D-Trp 的吸光度差异明显小于 C-HPMs 所获得的差异。C-HPMs 出色的分辨能力可能归功于其独特的中空结构所产生的高表面渗透性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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