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相关概念视频

CRISPR01:59

CRISPR

52.1K
Genome editing technologies allow scientists to modify an organism’s DNA via the addition, removal, or rearrangement of genetic material at specific genomic locations. These types of techniques could potentially be used to cure genetic disorders such as hemophilia and sickle cell anemia. One popular and widely used DNA-editing research tool that could lead to safe and effective cures for genetic disorders is the CRISPR-Cas9 system. CRISPR-Cas9 stands for Clustered Regularly Interspaced...
52.1K
CRISPR/Cas9 Genome Editing01:28

CRISPR/Cas9 Genome Editing

24
The CRISPR-Cas system serves as a bacterial defense mechanism against invading genetic elements such as viruses and plasmids, forming the foundation for its adaptation as a powerful genome-editing tool. Originally discovered in prokaryotes, this system has been repurposed to revolutionize genetic engineering across a wide range of organisms, including plants, animals, and humans. The core component, Cas9, is an endonuclease derived from Streptococcus pyogenes, capable of introducing...
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CRISPR and crRNAs02:53

CRISPR and crRNAs

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Bacteria and archaea are susceptible to viral infections just like eukaryotes; therefore, they have developed a unique adaptive immune system to protect themselves. Clustered regularly interspaced short palindromic repeats and CRISPR-associated proteins (CRISPR-Cas) are present in more than 45% of known bacteria and 90% of known archaea.
The CRISPR-Cas system stores a copy of foreign DNA in the host genome and uses it to identify the foreign DNA upon reinfection. CRISPR-Cas has three different...
17.0K
DNA as a Genetic Template02:05

DNA as a Genetic Template

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Homologous Recombination02:31

Homologous Recombination

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The basic reaction of homologous recombination (HR) involves two chromatids that contain DNA sequences sharing a significant stretch of identity. One of these sequences uses a strand from another as a template to synthesize DNA in an enzyme-catalyzed reaction. The final product is a novel amalgamation of the two substrates. To ensure an accurate recombination of sequences, HR is restricted to the S and G2 phases of the cell cycle. At these stages, the DNA has been replicated already and the...
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相关实验视频

Updated: Jul 13, 2025

CRISPR Epigenome Editing in Human Cells using Plasmid DNA Transfection and mRNA Nucleofection Delivery
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CRISPR Epigenome Editing in Human Cells using Plasmid DNA Transfection and mRNA Nucleofection Delivery

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数字数据存储在DNA磁带上,使用CRISPR基础编辑器.

Afsaneh Sadremomtaz1, Robert F Glass2, Jorge Eduardo Guerrero1

  • 1Department of Nanoengineering, Joint School of Nanoscience and Nanoengineering, NC A&T State University, Greensboro, NC, USA.

Nature communications
|October 13, 2023
PubMed
概括

研究人员开发了DNA突变重写存储 (DMOS),这是一种用于数字数据存储的新方法. 这种环保方法使用CRISPR基编辑来将信息写入DNA磁带上,克服了当前数字记忆技术的局限性.

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科学领域:

  • 生物技术是生物技术.
  • 分子工程分子工程分子工程
  • 数据存储数据存储数据存储

背景情况:

  • 档案数字内存面临着随着数据需求的增加而面临的物理限制.
  • 对于数据存储,DNA提供了卓越的耐用性,容量和能源效率.
  • 现有的DNA数据存储方法通常依赖于非可扩展的,产生废物的合成技术.

研究的目的:

  • 开发一种基于DNA的数字数据存储系统,具有工业可扩展性和环保性.
  • 为了利用CRISPR基础编辑,在DNA上写出高效和有针对性的信息.
  • 为了证明DNA突变重写存储 (DMOS) 系统的概念证明.

主要方法:

  • 利用组合,可定位,正交和独立的 in vitro CRISPR 基编辑反应.
  • 由半导体内存架构和基因编辑进步所启发的系统.
  • 将数据写入一池绿色合成的DNA磁带中.

主要成果:

  • 成功演示了DNA磁带上的数字数据的写作和准确阅读.
  • 存储了学校标志和研究标题的位图图像作为概念证明.
  • 验证了DMOS系统用于分子数字数据存储的可行性.

结论:

  • 该DMOS系统为数字数据存储提供了一个可行的,环保的替代方案.
  • 克里斯普尔基编辑使得DNA上能够高效地编写可定位的数据.
  • 这项技术解决了当前数字记忆和不可持续的DNA合成方法的局限性.