Chunxin Xia , Hemei Cheng , Xinwei Hou , Yu Zhang , Xinchi Zhou , Qinglong Yan , Shuting Cao
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引用次数: 0
Abstract
Spherical nucleic acids (SNAs) are a 3D spherical nanostructure composed of highly oriented, dense layers of oligonucleotides conjugated to a hollow or solid core. This structure allows SNAs to show resistance to nuclease degradation, enter into nearly all cells without transfection agents and enable precise interactions with target molecules. Based on superior biological properties, SNAs can be tailored for diverse biological applications, rendering them a flexible and biosafe tool for biological applications as well as an enabling platform for therapy. In this review, we mainly discuss the structure and conjugation mode of SNAs and focus on recent advances in their applications, such as biomedical detection, imaging, and drug delivery. Finally, the remaining challenges and future directions of SNAs are also discussed and proposed.
球形核酸(SNA)是一种三维球形纳米结构,由高度定向、致密的寡核苷酸层与空心或实心核连接而成。这种结构使 SNA 能够抵抗核酸酶降解,无需转染剂即可进入几乎所有细胞,并能与目标分子发生精确的相互作用。基于优异的生物特性,SNAs 可针对不同的生物应用进行定制,使其成为一种灵活的生物安全工具和治疗平台。在这篇综述中,我们主要讨论了 SNA 的结构和共轭模式,并重点介绍了其在生物医学检测、成像和药物递送等方面的最新应用进展。最后,还讨论并提出了 SNAs 面临的挑战和未来发展方向。
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