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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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DNA Helicases00:55

DNA Helicases

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DNA unwinding helicase enzymes are a type of motor protein. Motor proteins can translocate along filaments or polymers using energy generated from ATP hydrolysis. Helicases are involved in all the important cellular processes where DNA unwinding is required, such as DNA replication, repair, recombination, and transcription. They are present in all living organisms, but vary in their structure, function, and mechanism of action. For example, in prokaryotes, DnaB helicase binds and translocates...
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Lytic Cycle of Bacteriophages01:30

Lytic Cycle of Bacteriophages

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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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Translesion DNA Polymerases02:10

Translesion DNA Polymerases

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Translesion (TLS) polymerases rescue stalled DNA polymerases at sites of damaged bases by replacing the replicative polymerase and installing a nucleotide across the damaged site. Doing so, TLS allows additional time for the cell to repair the damage before resuming regular DNA replication.
TLS polymerases are found in all three domains of life - archaea, bacteria, and eukaryotes. Of the different classes of TLS polymerases, members of the Y family are fitted with specialized structures that...
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Retrovirus Life Cycles01:10

Retrovirus Life Cycles

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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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Preparation of Viral DNA from Nucleocapsids
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温度依赖的喷射进化源于DNA病毒中的主动和被动效应.

Cheng-Yin Zhang1, Neng-Hui Zhang2

  • 1Shanghai Institute of Applied Mathematics and Mechanics, Shanghai Key Laboratory of Mechanics in Energy Engineering, School of Mechanics and Engineering Science, Shanghai University, Shanghai, China; Department of Engineering Mechanics, Faculty of Civil Engineering and Mechanics, Kunming University of Science and Technology, Kunming, China.

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概括
此摘要是机器生成的。

病毒喷射速度随着温度的增加而增加,这是由于DNA机制的改变和病毒门户的大小. 这项研究模拟了温度对DNA病毒喷射动态的影响,揭示了关键机制.

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Alternative In Vitro Methods for the Determination of Viral Capsid Structural Integrity
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科学领域:

  • 生物物理学的生物物理.
  • 分子生物学分子生物学
  • 计算生物学 计算生物学

背景情况:

  • DNA病毒的射出速度取决于温度,影响感染.
  • 量化多尺度病毒系统具有挑战性,限制了理论研究.
  • 缺乏对温度依赖的喷射动态的系统研究.

研究的目的:

  • 开发一种多尺度模型,用于探索病毒喷射过程中温度依赖的机械性质.
  • 量化分析温度影响的喷射动态的基本机制.
  • 研究温度对DNA病毒感染过程的影响.

主要方法:

  • 开发了一种包含温度依赖参数的多尺度模型.
  • 利用两个DNA结构模型 (双域和单域) 进行不同的喷射阶段.
  • 通过德拜长度,DNA持久长度和动能引入了温度效应.

主要成果:

  • 温度变化会改变DNA结构的能量格局.
  • DNA结构的变化会影响喷射力和摩擦,在更高的温度下增加速度.
  • 该模型支持这样一个假设:温度诱导的病毒门的大小变化增强了DNA喷射.

结论:

  • 温度通过机械性质调制显著影响DNA病毒喷射速度.
  • 多尺度模型为温度依赖的病毒喷射机制提供了定量洞察力.
  • 这些发现有助于理解病毒与宿主之间的相互作用,并开发抗病毒策略.