一种生物电子平台可在生物学相关条件下调节pH值。

A Bioelectronic Platform Modulates pH in Biologically Relevant Conditions.

作者信息

Strakosas Xenofon, Selberg John, Zhang Xiaolin, Christie Noah, Hsu Peng-Hao, Almutairi Adah, Rolandi Marco

机构信息

Department of Electrical Engineering University of California Santa Cruz Santa Cruz CA 95064 USA.

UCSD Center of Excellence Department of NanoEngineering Jacobs School of Engineering University of California San Diego 9500 Gilman Dr. La Jolla CA 92093 USA.

出版信息

Adv Sci (Weinh). 2019 Jan 28;6(7):1800935. doi: 10.1002/advs.201800935. eCollection 2019 Apr 3.

DOI:10.1002/advs.201800935

PMID:30989015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6446605/

Abstract

Bioelectronic devices that modulate pH can affect critical biological processes including enzymatic activity, oxidative phosphorylation, and neuronal excitability. A major challenge in controlling pH is the high buffering capacity of many biological media. To overcome this challenge, devices need to be able to store and deliver a large number of protons on demand. Here, a bioelectronic modulator that controls pH using palladium nanoparticles contacts with high surface area as a proton storage medium is developed. Reversible electronically triggered acidosis (low pH) and alkalosis (high pH) in physiologically relevant buffer conditions are achieved. As a proof of principle, this new platform is used to control the degradation and fluorescence of acid sensitive polymeric microparticles loaded with a pH sensitive fluorescent dye.

摘要

能够调节pH值的生物电子设备可以影响关键的生物过程，包括酶活性、氧化磷酸化和神经元兴奋性。控制pH值的一个主要挑战是许多生物介质的高缓冲能力。为了克服这一挑战，设备需要能够按需存储和输送大量质子。在此，开发了一种生物电子调制器，该调制器使用高表面积的钯纳米颗粒作为质子存储介质来控制pH值。在生理相关的缓冲条件下实现了可逆的电子触发酸中毒（低pH值）和碱中毒（高pH值）。作为原理验证，这个新平台被用于控制负载有pH敏感荧光染料的酸敏聚合物微粒的降解和荧光。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9db1/6446605/4caab1538662/ADVS-6-1800935-g001.jpg

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一种生物电子平台可在生物学相关条件下调节pH值。

A Bioelectronic Platform Modulates pH in Biologically Relevant Conditions.

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