d-葡萄糖胺与对苯二甲醛席夫碱的可控合成及其生物学应用

Controllable Synthesis and Biological Application of Schiff Bases from d-Glucosamine and Terephthalaldehyde.

作者信息

Weng Qinghua, Yi Jinquan, Chen Xiaoping, Luo Dengwang, Wang Yaduan, Sun Weiming, Kang Jie, Han Zhizhong

机构信息

School of Pharmacy, Fujian Medical University, Fuzhou 350122, P R China.

Fujian Key Laboratory of Drug Target Discovery and Structural and Functional Research, Fuzhou 350122, P R China.

出版信息

ACS Omega. 2020 Sep 16;5(38):24864-24870. doi: 10.1021/acsomega.0c03591. eCollection 2020 Sep 29.

DOI:10.1021/acsomega.0c03591

PMID:33015505

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7528290/

Abstract

Theoretically, the two aldehydes of terephthalaldehyde (TPA) are equivalent, so the single or double Schiff base from TPA and d-glucosamine (Glc) may be formed at the same time. However, it is preferred to produce separately a single Schiff base ( ) or double Schiff base ( ) for different synthesis systems of anhydrous methanol or water-methanol. We calculated the Δ of the formation of compounds and by density functional theory (DFT). In an anhydrous methanol system, the Δ values of and are both below zero and is lower, suggesting the spontaneous formation of the two Schiff bases. Though adjusting the molar ratio of Glc to TPA, and both were separately formed in anhydrous methanol. However, in the water-methanol system, was absent, which is most likely due to higher Δ (4.95 eV) and better water solubility. The results also exhibits that the positive charge of C in -CHO for TPA is smaller in a mixed solvent than that in methanol, which confirms that the nucleophilic reaction of the Schiff base is more difficult in a mixed solvent. Therefore, we could realize to control the synthesis of a pure single or double Schiff base from Glc and TPA by adjusting the molar ratio and solvent. The as-prepared two kinds of Schiff bases have strong optical properties, high bacteriostatic activity, and can be used as fluorescent probes for tumor cell imaging.

摘要

理论上，对苯二甲醛（TPA）的两个醛基是等效的，因此TPA与d - 葡萄糖胺（Glc）可能同时形成单席夫碱（）或双席夫碱（）。然而，对于无水甲醇或水 - 甲醇的不同合成体系，更倾向于分别制备单席夫碱（）或双席夫碱（）。我们通过密度泛函理论（DFT）计算了化合物和的形成焓（Δ ）。在无水甲醇体系中，和的Δ 值均低于零且更低，表明这两种席夫碱能自发形成。通过调节Glc与TPA的摩尔比，在无水甲醇中分别形成了和。然而，在水 - 甲醇体系中，不存在，这很可能是由于其更高的Δ （4.95 eV）和更好的水溶性。结果还表明，在混合溶剂中TPA的 - CHO中C的正电荷比在甲醇中更小，这证实了席夫碱的亲核反应在混合溶剂中更难进行。因此，我们可以通过调节摩尔比和溶剂来实现控制由Glc和TPA合成纯的单席夫碱或双席夫碱。所制备的两种席夫碱具有很强的光学性质、高抑菌活性，并且可作为肿瘤细胞成像的荧光探针。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/15af/7528290/d9ca86e03927/ao0c03591_0002.jpg

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d-葡萄糖胺与对苯二甲醛席夫碱的可控合成及其生物学应用

Controllable Synthesis and Biological Application of Schiff Bases from d-Glucosamine and Terephthalaldehyde.

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