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Viruses with RNA Genomes01:29

Viruses with RNA Genomes

RNA viruses are categorized into positive-strand, negative-strand, or double-stranded groups based on their genomic structure and replication mechanisms. This classification dictates how they exploit host cellular machinery for protein synthesis and replication. Some RNA viruses also utilize reverse transcription as part of their life cycle, further diversifying their replication strategies.Positive-Strand RNA VirusesPositive-strand RNA viruses have genomes that function directly as messenger...
RNA Interference01:23

RNA Interference

RNA interference (RNAi) is a process in which a small non-coding RNA molecule blocks the post-transcriptional expression of a gene by binding to its messenger RNA (mRNA) and preventing the protein from being translated.
This process occurs naturally in cells, often through the activity of genomically-encoded microRNAs. Researchers can take advantage of this mechanism by introducing synthetic RNAs to deactivate specific genes for research or therapeutic purposes. For example, RNAi could be used...
RNA Interference01:23

RNA Interference

RNA interference (RNAi) is a process in which a small non-coding RNA molecule blocks the post-transcriptional expression of a gene by binding to its messenger RNA (mRNA) and preventing the protein from being translated.
This process occurs naturally in cells, often through the activity of genomically-encoded microRNAs. Researchers can take advantage of this mechanism by introducing synthetic RNAs to deactivate specific genes for research or therapeutic purposes. For example, RNAi could be used...
Leaky Scanning02:28

Leaky Scanning

During most eukaryotic translation processes, the small 40S ribosome subunit scans an mRNA from its 5' end until it encounters the first start AUG codon. The large 60S ribosomal subunit then joins the smaller one to initiate protein synthesis. The location of the translation initiation is largely determined by the nucleotides near the start codon as there may be multiple translation initiation sites present on the mRNA.  Marilyn Kozak discovered that the sequence RCCAUGG (where R stands for...

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Updated: Jun 17, 2026

DNA Virus Detection System Based on RPA-CRISPR/Cas12a-SPM and Deep Learning
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DNA Virus Detection System Based on RPA-CRISPR/Cas12a-SPM and Deep Learning

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厳格な検出:RNAセンシングを通じてウイルスを暴露する.

Jan Rehwinkel1, Caetano Reis e Sousa

  • 1Immunobiology Laboratory, Cancer Research UK (CRUK) London Research Institute, 44 Lincoln's Inn Fields, London WC2A 3PX, UK.

Science (New York, N.Y.)
|January 16, 2010
PubMed
まとめ
この要約は機械生成です。

哺乳類は,RIG-I型受容体 (RLR) を用いてウイルス感染症と戦う. これらのセンサーは,ウイルスのRNAを検出し,健康な細胞と感染した細胞を区別して,重要な抗ウイルス防御機構を誘発します.

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Confocal Imaging of Double-Stranded RNA and Pattern Recognition Receptors in Negative-Sense RNA Virus Infection
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Confocal Imaging of Double-Stranded RNA and Pattern Recognition Receptors in Negative-Sense RNA Virus Infection

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Monitoring Activation of the Antiviral Pattern Recognition Receptors RIG-I And PKR By Limited Protease Digestion and Native PAGE
12:43

Monitoring Activation of the Antiviral Pattern Recognition Receptors RIG-I And PKR By Limited Protease Digestion and Native PAGE

Published on: July 29, 2014

関連する実験動画

Last Updated: Jun 17, 2026

DNA Virus Detection System Based on RPA-CRISPR/Cas12a-SPM and Deep Learning
04:17

DNA Virus Detection System Based on RPA-CRISPR/Cas12a-SPM and Deep Learning

Published on: May 10, 2024

Confocal Imaging of Double-Stranded RNA and Pattern Recognition Receptors in Negative-Sense RNA Virus Infection
06:44

Confocal Imaging of Double-Stranded RNA and Pattern Recognition Receptors in Negative-Sense RNA Virus Infection

Published on: January 26, 2019

Monitoring Activation of the Antiviral Pattern Recognition Receptors RIG-I And PKR By Limited Protease Digestion and Native PAGE
12:43

Monitoring Activation of the Antiviral Pattern Recognition Receptors RIG-I And PKR By Limited Protease Digestion and Native PAGE

Published on: July 29, 2014

科学分野:

  • 免疫学 免疫学とは
  • 分子生物学は分子生物学である.
  • ウイルス学 ウイルス学 ウイルス学

背景:

  • 哺乳類の細胞は,ウイルス感染症に対する防御機構を持っています.
  • ウイルス感知受容体は,病原体検出時に宿主反応を開始します.
  • RIG-I型受容体 (RLR) は,ウイルスRNAの重要な細胞内センサーである.

研究 の 目的:

  • RLR機能の理解における最近の進歩をレビューする.
  • RLRが自己とウイルスのRNAをどのように区別するか解明する.
  • ウイルスの侵入を正確に検知するセンサーとしてのRLRの役割を強調する.

主な方法:

  • このレビューは,現在の研究成果をまとめています.
  • RLRsによるRNA認識の分子機構に焦点を当てています.
  • RLRシグナル伝達によって活性化された細胞経路を調べる.

主要な成果:

  • RLRは,ウイルスRNAと宿主RNAを効果的に区別する.
  • この差別は,抗ウイルス免疫の開始に不可欠です.
  • RLRは,細胞内ウイルス病原体に対する重要な哨兵として機能する.

結論:

  • RLRは,細胞内在の抗ウイルス防御に不可欠です.
  • RLRを理解することで,宿主-病原体相互作用の洞察が得られます.
  • RLRは,哺乳類のウイルスに対する免疫システムの重要な構成要素です.