Emerging optogenetics technologies in biomedical applications

Haozhen Ren, Yi Cheng, Gaolin Wen, Jinglin Wang, Min Zhou
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Abstract

Abstract Optogenetics is a cutting‐edge technology that merges light control and genetics to achieve targeted control of tissue cells. Compared to traditional methods, optogenetics offers several advantages in terms of time and space precision, accuracy, and reduced damage to the research object. Currently, optogenetics is primarily used in pathway research, drug screening, gene expression regulation, and the stimulation of molecule release to treat various diseases. The selection of light‐sensitive proteins is the most crucial aspect of optogenetic technology; structural changes occur or downstream channels are activated to achieve signal transmission or factor release, allowing efficient and controllable disease treatment. In this review, we examine the extensive research conducted in the field of biomedicine concerning optogenetics, including the selection of light‐sensitive proteins, the study of carriers and delivery devices, and the application of disease treatment. Additionally, we offer critical insights and future implications of optogenetics in the realm of clinical medicine.
新兴的光遗传学技术在生物医学中的应用
光遗传学是一种融合光控制和遗传学来实现组织细胞靶向控制的前沿技术。与传统方法相比,光遗传学在时间和空间精度、准确性以及减少对研究对象的损伤等方面具有优势。目前,光遗传学主要应用于途径研究、药物筛选、基因表达调控、刺激分子释放等方面,以治疗各种疾病。光敏蛋白的选择是光遗传技术最关键的方面;发生结构变化或激活下游通道,实现信号传递或因子释放,实现高效可控的疾病治疗。本文综述了光遗传学在生物医学领域的广泛研究进展,包括光敏蛋白的选择、载体和传递装置的研究以及在疾病治疗中的应用。此外,我们提供关键的见解和光遗传学在临床医学领域的未来意义。
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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