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相关概念视频

CRISPR/Cas9 Genome Editing01:28

CRISPR/Cas9 Genome Editing

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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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Conservative Site-specific Recombination and Phase Variation02:53

Conservative Site-specific Recombination and Phase Variation

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Because the DNA segments are cut and reorganized in a direction-specific manner, site-specific recombination has emerged as an efficient genetic engineering technique. Flippase and Cyclization recombinases or Flp and Cre, respectively, are two members of the tyrosine recombinase family derived from bacteriophages, that are used to mediate site-specific DNA insertions, deletions, and targeted expression of proteins in mammalian cell lines.
The recognition sites for Cre recombinase called LoxP...
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CRISPR01:59

CRISPR

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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...
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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...
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Base Excision Repair01:54

Base Excision Repair

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One of the common DNA damages is the chemical alteration of single bases by alkylation, oxidation, or deamination. The altered bases cause mispairing and strand breakage during replication. This type of damage causes minimal change to the DNA double helix structure and can be repaired by the base excision repair (BER) pathways. BER corrects damaged DNA sequences by removing the damaged base and restoring the original base sequence using the complementary strand as a template.
The first step of...
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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 16, 2025

Functional Assessment of BRCA1 variants using CRISPR-Mediated Base Editors
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使用基准编辑器精确的基因组编辑.

Hongcai Liu1,2, Yao Zhu1,2, Minjie Li1,2

  • 1Institute of Systems Medicine, Chinese Academy of Medical Sciences & Peking Union Medical College, Beijing, China.

Medical review (2021)
|September 19, 2023
PubMed
概括
此摘要是机器生成的。

基因编辑和原始编辑等基因编辑技术提供了精确的方法来纠正基因突变而不会导致DNA断裂. 这些进展对于治疗遗传疾病具有显著的治疗潜力.

关键词:
氨酸基编辑器 氨酸基编辑器基础编辑 基础编辑聚类定期间隔的短时间的平行体重复 (CRISPR) / CRISPR相关蛋白质.细胞因子基编辑器

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科学领域:

  • 遗传学 遗传学 是一个
  • 分子生物学分子生物学
  • 生物技术是生物技术.

背景情况:

  • 单核酸变体是人类遗传疾病的主要原因.
  • 基因组编辑通过纠正病原性点突变提供了治疗潜力.
  • 传统的基因编辑方法可能会导致双链DNA断裂 (DSB).

研究的目的:

  • 审查基础编辑器 (BEs) 的演变.
  • 讨论当前基础编辑技术的局限性.
  • 探索治疗策略基础编辑的未来前景.

主要方法:

  • 基础编辑技术的文献综述.
  • 分析基础编辑器的效率和准确性.
  • 讨论治疗应用和挑战.

主要成果:

  • 基编辑和原始编辑可以在没有DSB的情况下实现精确的核酸转换.
  • 已经开发了各种各样的基础编辑器,用于各种各样的应用.
  • 这些技术在治疗遗传疾病方面表现有前途.

结论:

  • 基因编辑代表了治疗目的的基因组编辑的重大进步.
  • 克服当前的局限性对于实现基础编辑的全部潜力至关重要.
  • 未来的研究应该专注于改善基础编辑器的安全性,效率和临床应用的交付.