Bio-inspired Dynamic Gradients Regulated by Supramolecular Bindings in Receptor-Embedded Hydrogel Matrices

Overview

Journal ChemistryOpen

Specialty Chemistry

Date 2016 Aug 23

PMID 27547643

Citations 2

Authors

Xinglong Luan

Yihe Zhang

Jing Wu

Pascal Jonkheijm

Guangtao Li

Lei Jiang

Jurriaan Huskens

Qi An

Affiliations

Soon will be listed here.

Abstract

The kinetics of supramolecular bindings are fundamentally important for molecular motions and spatial-temporal distributions in biological systems, but have rarely been employed in preparing artificial materials. This report proposes a bio-inspired concept to regulate dynamic gradients through the coupled supramolecular binding and diffusion process in receptor-embedded hydrogel matrices. A new type of hydrogel that uses cyclodextrin (CD) as both the gelling moiety and the receptors is prepared as the diffusion matrices. The diffusible guest, 4-aminoazobenzene, quickly and reversibly binds to matrices-bound CD during diffusion and generates steeper gradients than regular diffusion. Weakened bindings induced through UV irradiation extend the gradients. Combined with numerical simulation, these results indicate that the coupled binding-diffusion could be viewed as slowed diffusion, regulated jointly by the binding constant and the equilibrium receptor concentrations, and gradients within a bio-relevant extent of 4 mm are preserved up to 90 h. This report should inspire design strategies of biomedical or cell-culturing materials.

Citing Articles

Control of the asymmetric growth of nanowire arrays with gradient profiles.

Patino Cardenas J, Encinas A, Ramirez Villegas R, de la Torre Medina J RSC Adv. 2022; 11(42):25892-25900.

PMID: 35479484 PMC: 9037112. DOI: 10.1039/d1ra04198c.

Bio-inspired Dynamic Gradients Regulated by Supramolecular Bindings in Receptor-Embedded Hydrogel Matrices.

Luan X, Zhang Y, Wu J, Jonkheijm P, Li G, Jiang L ChemistryOpen. 2016; 5(4):331-8.

PMID: 27547643 PMC: 4981054. DOI: 10.1002/open.201600030.

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