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相关概念视频

Lytic Cycle of Bacteriophages01:30

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Bacteriophages, also known as phages, are specialized viruses that infect bacteria. A key characteristic of phages is their distinctive “head-tail” morphology. A phage begins the infection process (i.e., lytic cycle) by attaching to the outside of a bacterial cell. Attachment is accomplished via proteins in the phage tail that bind to specific receptor proteins on the outer surface of the bacterium. The tail injects the phage’s DNA genome into the bacterial cytoplasm. In the...
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Lysogenic Cycle of Bacteriophages00:43

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In contrast to the lytic cycle, phages infecting bacteria via the lysogenic cycle do not immediately kill their host cell. Instead, they combine their genome with the host genome, allowing the bacteria to replicate the phage DNA along with the bacterial genome. The incorporated copy of the phage genome is called the prophage. Some prophages can re-activate and enter the lytic cycle. This often occurs in response to a perturbation, such as DNA damage, but can also transpire in the absence of...
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Conservative Site-specific Recombination and Phase Variation02:53

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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.
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Phage-Mediated Genetic Manipulation of the Lyme Disease Spirochete Borrelia burgdorferi
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比较基因工程细菌和增加宿主范围的方法.

Christopher J Kovacs1,2, Alessia Antonacci1, Abigail Graham1

  • 1Department of Chemistry and Life Science, United States Military Academy, West Point, NY 10996, USA.

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概括
此摘要是机器生成的。

新型菌体 (菌体) 工程方法对于打击军事医学中的抗生素耐药性至关重要. 克里斯普尔-卡斯系统为修改菌体基因组提供了一种高效和快速的方法,因此非常适合军事应用.

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科学领域:

  • 微生物学 微生物学
  • 生物工程是生物工程.
  • 军事医学 军事医学

背景情况:

  • 抗生素耐药性在军事环境中构成重大威胁,冲突相关的医疗保健中断加剧了这一威胁.
  • 菌体 (菌体) 为传统抗生素提供了一种特定的,可能在现场部署的替代品.
  • 开发有效的菌体疗法需要高效的基因组工程技术.

研究的目的:

  • 系统地审查和比较四种菌体基因组工程方法.
  • 评估这些方法在军事医疗用途中的有效性和适用性.
  • 确定最适合的菌体工程技术,以解决军方抗菌素耐药性的问题.

主要方法:

  • 按照PRISMA指南进行了一次系统的文献审查.
  • 搜索了包括PubMed,谷歌学者和SciFinder在内的数据库.
  • 分析了四种菌体基因组工程技术:同源重组,体内重组,细菌体重组的电孔DNA,以及CRISPR-Cas.

主要成果:

  • 52项研究符合纳入标准.
  • 在分析的技术中,成功率和忠诚度各不相同.
  • 与其他方法相比,CRISPR-Cas证明了高效率和简化过程.

结论:

  • 菌体工程技术在努力和成功率上有所不同.
  • 通过CRISPR-Cas促进的菌体基因组修饰是非常高效的.
  • 由于其速度和效率,CRISPR-Cas系统是军事医疗应用中最有前途的方法.