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関連する概念動画

Viral Structure00:56

Viral Structure

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.
Protein Complex Assembly02:41

Protein Complex Assembly

Proteins can form homomeric complexes with another unit of the same protein or heteromeric complexes with different types.  Most protein complexes self-assemble spontaneously via ordered pathways, while some proteins need assembly factors that guide their proper assembly. Despite the crowded intracellular environment, proteins usually interact with their correct partners and form functional complexes.
Many viruses self-assemble into a fully functional unit using the infected host cell to...
The Nucleosome Core Particle01:12

The Nucleosome Core Particle

Nucleosomes are the DNA-histone complex, where the DNA strand is wound around the histone core. The histone core is an octamer containing two copies of H2A, H2B, H3, and H4 histone proteins.
Nucleosomes, paradoxically, perform two opposite functions simultaneously. On the one hand, their primary aim is to protect the delicate DNA strands from physical damage and help achieve a higher compaction ratio. On the other hand, they must allow polymerase enzymes to access histone-bound DNA during...
Size and Structure of Viral Genomes01:26

Size and Structure of Viral Genomes

Viral genomes exhibit remarkable diversity in size, structure, and composition, influencing their replication strategies and interactions with host cells. These genomes consist of either DNA or RNA and may be linear or circular. Additionally, they can be single-stranded or double-stranded, with each configuration affecting how the virus propagates within a host. RNA viruses, for instance, generally have smaller genomes than DNA viruses, a factor that contributes to their high mutation rates and...
Subviral Agents01:29

Subviral Agents

Subviral agents are infectious entities that resemble viruses but lack one or more viral components, such as a capsid or essential replication machinery. These agents include viroids, prions, and satellites, each possessing distinct structural and functional characteristics that influence their mode of infection and replication.Viroids are the simplest subviral agents, consisting of circular, single-stranded RNA molecules without a protein coat. They exclusively infect plants, relying entirely...
Coronavirus01:29

Coronavirus

Coronaviruses, including the severe acute respiratory syndrome coronavirus (SARS-CoV), are enveloped viruses characterized by their single-stranded, positive-sense RNA genome and helical nucleocapsid structure. The hallmark of these viruses is their club-shaped spike (S) glycoproteins that protrude from the viral envelope, facilitating attachment to host cells. Typically, coronaviruses infect the upper respiratory tract, often causing mild or asymptomatic disease. However, certain strains like...

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関連する実験動画

Updated: Jul 14, 2026

Averaging of Viral Envelope Glycoprotein Spikes from Electron Cryotomography Reconstructions using Jsubtomo
08:29

Averaging of Viral Envelope Glycoprotein Spikes from Electron Cryotomography Reconstructions using Jsubtomo

Published on: October 21, 2014

ポリオマウイルスのカプシド構造は22.5Aの解像度で

I Rayment, T S Baker, D L Caspar

    Nature
    |January 14, 1982
    PubMed
    まとめ

    ポリオマカプシド結晶の構造分析により,予期せぬ発見が明らかになった:六価形態学的単位はペンタマーである. これは,タンパク質サブユニット結合特異性が,イコサヘドラルなカプシド構造に保存されないことを示唆しています.

    科学分野:

    • 構造生物学 構造生物学とは
    • ウイルス学 ウイルス学 ウイルス学
    • バイオケミストリー バイオケミストリー

    背景:

    • ポリオーマウイルスのカプシドは,ウイルス感染に不可欠なアイコアヘドラル型タンパク質殻です.
    • カプシドの構造を理解することは,抗ウイルス戦略の開発の鍵です.
    • 以前のモデルでは,キャプシドサブユニット間の保守型債券を想定していました.

    研究 の 目的:

    • ポリオマウイルスカプシドの正確な3次元構造を決定する.
    • カプシド内のタンパク質サブユニット間の結合相互作用を調査する.
    • ポリオマカプシドの対称性とサブユニットの配置を明確にするために.

    主な方法:

    • ポリオマカプシド結晶から収集されたX線 difraktionデータ.
    • 段階情報を得るため,低解像度のスタートモデルを精製した.
    • 繰り返しの精錬によって自己一貫した構造的解決策が得られた.

    主要な成果:

    • X線 difrractionデータから,高解像度の構造的な解答が得られました.
    • 重要な発見は,六価の形態学的単位をペンタマーとして識別することでした.

    さらに関連する動画

    Open-source Single-particle Analysis for Super-resolution Microscopy with VirusMapper
    07:38

    Open-source Single-particle Analysis for Super-resolution Microscopy with VirusMapper

    Published on: April 9, 2017

    Advancing High-Resolution Imaging of Virus Assemblies in Liquid and Ice
    08:31

    Advancing High-Resolution Imaging of Virus Assemblies in Liquid and Ice

    Published on: July 20, 2022

    関連する実験動画

    Last Updated: Jul 14, 2026

    Averaging of Viral Envelope Glycoprotein Spikes from Electron Cryotomography Reconstructions using Jsubtomo
    08:29

    Averaging of Viral Envelope Glycoprotein Spikes from Electron Cryotomography Reconstructions using Jsubtomo

    Published on: October 21, 2014

    Open-source Single-particle Analysis for Super-resolution Microscopy with VirusMapper
    07:38

    Open-source Single-particle Analysis for Super-resolution Microscopy with VirusMapper

    Published on: April 9, 2017

    Advancing High-Resolution Imaging of Virus Assemblies in Liquid and Ice
    08:31

    Advancing High-Resolution Imaging of Virus Assemblies in Liquid and Ice

    Published on: July 20, 2022

  • この配列は,サブユニット相互作用に関する以前の仮定に異議を唱える.
  • 結論:

    • ポリオマカプシドは,その六価形態学的単位の中で予期せぬペンタメリクな配置を示している.
    • この構造的発見は,タンパク質サブユニット間の保存された結合特異性の欠如を示しています.
    • この保存されていない結合にもかかわらず,カプシドのイコサヘドール対称性は維持されます.