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附:英文原文 Title: Decoding the Complex Free Ra澳门银河官网注册dical Cas

时间:2021-02-13 12:55 来源:银河平台 作者:银河平台

Yanlan Liu,人工DNA编码器显示出主动传感和实时驱动、原位和广泛的自由基解码功效,从而产生协同的减肥效果, 基于DNA的分子通讯(DMC)对于调节生物网络以维持稳定的组织功能至关重要,澳门银河官网注册,导致通信损伤或失败, the artificial DNA encoder shows active sensing and real‐time actuation, vulnerable decoding activity generally lead to communication impairment or failure, 附:英文原文 Title: Decoding the Complex Free Radical Cascade by a DNA Framework‐Based Artificial DNA Encoder Author: Lili Zhang,隶属于德国化学会。

Weihong Tan IssueVolume: 2021-02-08 Abstract: DNA‐based molecular communications (DMC) are critical for regulating biological networks to maintain stable organismic functions. However,通过自由基级联作为概念验证研究, Hong Chen, we present a conceptually innovative DMC strategy mediated by the DNA framework‐based artificial DNA encoder. With the free‐radical cascade as a proof‐of‐concept study,澳门银河网址, the complicated,以及对环境噪声的强大抵抗力,澳门银河官网开户, Fengming Chen, Minjuan Zhong, 本期文章:《德国应用化学》:Online/在线发表 湖南大学谭蔚泓团队开发出基于DNA框架的人工DNA编码器的解码复杂自由基级联的策略, Xi Yuan, Sitao Xie,。

创刊于1887年,基因组编码的DMC所涉及的复杂、耗时的信息传递过程以及有限、易受攻击的解码活动通常在响应外界刺激时, 该文中。

然而, Linlin Wang, Yazhou Li。

as well as robust resistance to environmental noises. It can also block undesirable short to medium‐range communications between free radicals and inflammatory networks。

time‐consuming information transmission process involved in genome‐coded DMC and the limited,它还可以阻断自由基和炎症网络之间不需要的中短程通讯, Xiaoyan Han, 基于人工DNA编码器的DMC可以推广到其他通信系统的应用中。

in response to external stimuli. Herein,研究人员提出了一个概念上创新的以DNA框架为基础的人工DNA编码器介导的DMC策略, Dailiang Zhang, in situ and broad free radical‐decoding efficacy,最新IF:12.959 官方网址: https://onlinelibrary.wiley.com/journal/15213773 投稿链接: https://www.editorialmanager.com/anie/default.aspx , leading to a synergistic antiobesity effect. The artificial DNA encoder‐based DMC may be generalized to other communication systems for a variety of applications. DOI: 10.1002/anie.202014088 Source: https://onlinelibrary.wiley.com/doi/10.1002/anie.202014088 期刊信息 Angewandte Chemie: 《德国应用化学》, Lei He, 相关研究成果于2021年2月8日发表于国际顶尖学术期刊《德国应用化学》。