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相关概念视频

Viral Mutations00:36

Viral Mutations

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A mutation is a change in the sequence of bases of DNA or RNA in a genome. Some mutations occur during replication of the genome due to errors made by the polymerase enzymes that replicate DNA or RNA. Unlike DNA polymerase, RNA polymerase is prone to errors because it is not capable of “proofreading” its work. Viruses with RNA-based genomes, like HIV, therefore accrue mutations faster than viruses with DNA-based genomes. Because mutation and recombination provide the raw material...
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Viral Recombination00:57

Viral Recombination

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Cells are sometimes infected by more than one virus at once. When two viruses disassemble to expose their genomes for replication in the same cell, similar regions of their genomes can pair together and exchange sequences in a process called recombination. Alternatively, viruses with segmented genomes can swap segments in a process called reassortment.
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Retroviruses02:33

Retroviruses

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Retroviruses and retrotransposons both insert copies of their genetic elements into the genome of the host cell. Thus, the viral genes are passed on when the host genome is replicated or translated. A typical retroviral DNA sequence contains 3-4 genes that encode the different proteins required for its structural assembly and function as a molecular parasite. This DNA is transcribed into a single mRNA, which is very similar in structure to conventional mRNAs, i.e., it is capped at the 5’...
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Overview
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Retrovirus Life Cycles01:10

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Retroviruses have a single-stranded RNA genome that undergoes a special form of replication. Once the retrovirus has entered the host cell, an enzyme called reverse transcriptase synthesizes double-stranded DNA from the retroviral RNA genome. This DNA copy of the genome is then integrated into the host’s genome inside the nucleus via an enzyme called integrase. Consequently, the retroviral genome is transcribed into RNA whenever the host’s genome is transcribed, allowing the...
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Viral Structure00:56

Viral Structure

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Viruses are extraordinarily diverse in shape and size, but they all have several structural features in common. All viruses have a core that contains a DNA- or RNA-based genome. The core is surrounded by a protective coat of proteins called the capsid. The capsid is composed of subunits called capsomeres. The capsid and genome-containing core are together known as the nucleocapsid.
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[RNA病毒的致病性,进化和人群内相互作用]

Yuta Shirogane1

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此摘要是机器生成的。

麻疹病毒 (MeV) 通过其融合 (F) 基因的突变获得了入侵大脑的能力,使神经元能够扩散并导致SSPE. 病毒基因组相互作用影响了这种神经病原性进化.

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Protocols for Investigating the Host-tissue Distribution, Transmission-mode, and Effect on the Host Fitness of a Densovirus in the Cotton Bollworm
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科学领域:

  • 病毒学 病毒学
  • 神经科学是一个神经科学.
  • 病原发生和发病的过程.

背景情况:

  • 麻疹病毒 (MeV) 导致SSPE,一种致命的神经退行性疾病.
  • 野生类型的MeV不是神经向的,这表明病毒进化赋予神经病原性.
  • MeV在神经元中传播的能力是SSPE发展的关键.

研究的目的:

  • 阐明SSPE中MeV神经病原性获取的机制.
  • 为了研究融合 (F) 基因突变在MeV神经化中的作用.
  • 了解MeV如何在神经元群体中传播.

主要方法:

  • 分析了MeV F基因中超源突变的分析.
  • 研究MeV与细胞粘附分子的相互作用 (CADM1/2).
  • 通过细胞融合研究跨突触的MeV基因组传输.

主要成果:

  • 超基因F基因突变使MeV能够使用CADM1/2进行神经元传播.
  • 多个MeV基因组在神经元之间通过突触传递.
  • 同表达的F蛋白在功能上相互作用,影响病毒传播.

结论:

  • 通过进化高原性F蛋白来促进神经元传播,MeV获得神经病原性.
  • 同表达的F蛋白之间的相互作用调节病毒群体在神经元中传播的能力.
  • 了解这些机制对于打击SSPE至关重要.