Enzyme- and DNAzyme-Driven Transient Assembly of DNA-Based Phase-Separated Coacervate Microdroplets

IF 14.4 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Journal of the American Chemical Society Pub Date : 2025-04-30 DOI:10.1021/jacs.5c00637

Yunlong Qin, Yang Sung Sohn, Rachel Nechushtai, Fan Xia, Fujian Huang, Itamar Willner

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Abstract

An assembly of dissipative, transient, DNA-based microdroplet (MD) coacervates in the presence of auxiliary enzymes (endonucleases and nickases) or MD-embedded DNAzyme is introduced. Two pairs of different Y-shaped DNA core frameworks modified with toehold tethers are cross-linked by complementary toehold-functionalized duplexes, engineered to be cleaved by EcoRI or HindIII endonucleases, or cross-linked by palindromic strands that include pre-engineered Nt.BbvCI or Nb.BtsI nicking sites, demonstrating transient evolution/depletion of phase-separated MD coacervates. By mixing the pairs of endonuclease- or nickase-responsive MDs, programmed or gated transient formation/depletion of MD frameworks is presented. In addition, by cross-linking a pre-engineered Y-shaped core framework with a sequence-designed fuel strand, phase separation of MD coacervates with embedded Mg²⁺-DNAzyme units is introduced. The DNAzyme-catalyzed cleavage of a ribonucleobase-modified hairpin substrate, generating the waste product of the metabolite fragments, leads to the metabolite-driven separation of the cross-linked coacervates, resulting in the temporal evolution and depletion of the DNAzyme-functionalized MDs. By employing a light-responsive caged hairpin structure, the light-modulated fueled evolution and depletion of the DNAzyme-active MDs are presented. The enzyme- or DNAzyme-catalyzed transient evolution/depletion of the MD coacervates provides protocell frameworks mimicking dynamic transient processes of native cells. The possible application of MDs as functional carriers for the temporal, dose-controlled release of loads is addressed.

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酶和dnazyme驱动的基于dna相分离凝聚微滴的瞬时组装

介绍了一种耗散的、瞬时的、基于dna的微滴（MD）在辅助酶（核酸内切酶和缺口酶）或MD嵌入的DNAzyme存在下凝聚的组装。用支点链修饰的两对不同的y形DNA核心框架通过互补的支点功能化双链交联，通过EcoRI或HindIII核酸内切酶进行工程设计，或通过包括预先设计的Nt.BbvCI或Nb的回文链交联。BtsI的缺口位置，证明了相分离的MD凝聚的瞬态演化/耗尽。通过混合对内切酶或镍酶响应的MDs，程序或门控的MD框架的瞬时形成/耗尽被提出。此外，通过预先设计的y形核心框架与序列设计的燃料链交联，引入了嵌入Mg2+-DNAzyme单元的MD凝聚物的相分离。dnazyme催化的核糖核碱基修饰发卡底物的裂解，产生代谢物片段的废物，导致代谢物驱动的交联凝聚体分离，导致dnazyme功能化MDs的时间进化和消耗。通过采用光响应的笼状发夹结构，提出了dnazyme活性MDs的光调制燃料进化和消耗。酶或dnazyme催化的MD凝聚体的瞬态进化/耗竭提供了模拟天然细胞动态瞬态过程的原始细胞框架。讨论了MDs作为功能载体在时间、剂量控制的负载释放中的可能应用。

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来源期刊

Journal of the American Chemical Society 化学-化学综合

CiteScore

24.40

自引率

6.00%

发文量

2398

审稿时长

1.6 months

期刊介绍： The flagship journal of the American Chemical Society, known as the Journal of the American Chemical Society (JACS), has been a prestigious publication since its establishment in 1879. It holds a preeminent position in the field of chemistry and related interdisciplinary sciences. JACS is committed to disseminating cutting-edge research papers, covering a wide range of topics, and encompasses approximately 19,000 pages of Articles, Communications, and Perspectives annually. With a weekly publication frequency, JACS plays a vital role in advancing the field of chemistry by providing essential research.