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相关概念视频

Gram-negative Bacterial Protein Secretion Systems01:17

Gram-negative Bacterial Protein Secretion Systems

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Gram-negative bacteria utilize sophisticated protein secretion systems to transport proteins across their double-membrane envelope into the extracellular environment or host cells. Based on their mechanism of action, these systems are classified into one-step and two-step pathways.One-Step Secretion Systems (Types I, III, IV, and VI)One-step secretion systems bypass the periplasm entirely, forming a continuous channel that spans both the inner and outer membranes:Type I Secretion System (T1SS):...
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Bacterial Translocation and Protein Secretion01:26

Bacterial Translocation and Protein Secretion

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Bacterial protein secretion involves translocation systems to ensure proteins reach their designated locations, including the plasma membrane, periplasm, outer membrane, or the external environment. These translocation systems are vital for bacterial physiology, supporting processes like membrane assembly, enzymatic activity in the periplasm, and interactions with the external environment. The division of labor between Sec and Tat pathways ensures efficiency in handling proteins with diverse...
493
Overview of Secretory Vesicles01:33

Overview of Secretory Vesicles

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Secretory vesicles, also known as dense core vesicles (DCVs), are membrane-bound vesicles that transport secretory proteins, such as hormones or neurotransmitters. Regulated secretory vesicles transport proteins from the trans-Golgi network to the exterior of the cell. Proteins present in regulated secretory vesicles are required to be rapidly exocytosed in large amounts upon a specific stimulus.
Various proteins regulate the aggregation of molecules inside the secretory vesicles. Chromogranins...
9.3K
Protein Translocation Machinery on the ER Membrane01:28

Protein Translocation Machinery on the ER Membrane

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The translocon complex situated on the ER membrane is the main gateway for the protein secretory pathway. It facilitates the transport of nascent peptides into the ER lumen and their insertion into the ER membrane.
Sec61 protein conducting channel
In eukaryotes, the translocon complex comprises a core heterotrimeric translocator channel called the Sec61 complex. This channel includes three transmembrane proteins, Sec61α, Sec61β, and Sec61γ, and is the largest subunit of the...
6.5K
Mechanism of Conjugation01:19

Mechanism of Conjugation

764
Bacterial conjugation is a mechanism of horizontal gene transfer that enables the exchange of genetic material between bacterial cells through direct contact. This process is facilitated by a donor cell carrying a conjugative plasmid, which encodes genes necessary for pilus formation, DNA replication, and transfer. The conjugative plasmid plays a central role in initiating and executing the transfer of genetic material.The tra region of the conjugative plasmid encodes proteins responsible for...
764
Cotranslational Protein Translocation01:20

Cotranslational Protein Translocation

9.5K
Translocation of proteins across membranes is an ancient process that occurs even in bacteria and archaebacteria. In fact, the components of the translocation machinery are still conserved between prokaryotes and eukaryotes.
Sec61 channel partners for cotranslational translocation
During cotranslational translocation, the Sec61 channel partners with the signal recognition particle (SRP), the signal recognition particle receptor (SR), and the ribosomes to transport the nascent polypeptide chain...
9.5K

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<i>Pseudomonas aeruginosa</i> assembles H1-T6SS in response to physical and chemical damage of the outer membrane.

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A Visual Assay to Monitor T6SS-mediated Bacterial Competition
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第六类分泌系统和相关的效应蛋白.

Jan C Wohlfarth1, Danny Ward1, Joana Pereira1

  • 1Biozentrum, University of Basel, Basel, Switzerland.

Nature reviews. Microbiology
|November 14, 2025
PubMed
概括

格兰阴性细菌在冲突中使用VI型分泌系统 (T6SS) 作为武器. 它们的多样化毒素库和免疫策略通过由敌对驱动的细菌军备竞赛演变.

科学领域:

  • 微生物学 微生物学
  • 进化生物学 进化生物学
  • 细菌病原体的产生

背景情况:

  • 细菌利用多种抗菌武器进行细菌间的冲突.
  • 六型分泌系统 (T6SS) 是格兰氏阴性细菌使用的收缩性毒素输送系统.
  • 在T6SS中介接触依赖杀死竞争细菌.

研究的目的:

  • 审查目前对T6SSs在细菌战争中的理解.
  • 突出T6SS效应器谱和免疫机制的多样性.
  • 讨论推动T6SS多样化的进化压力,特别是细菌间的对抗性.

主要方法:

  • 关于T6SSs的最近研究的文献综述.
  • 对T6SS效应器多样性和进化动态的分析.
  • 讨论细菌间对抗作为一种选择性力量.

主要成果:

  • T6SS效应器武器库和免疫策略表现出显著的多样性.
  • 这种多样性是细菌之间正在进行的进化军备竞赛的产物.
  • 细菌间对抗是T6SS进化和多样化的关键驱动力.

结论:

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  • T6SS对于细菌的竞争和生存至关重要.
  • T6SSs的进化是由对抗性相互作用和对新型效应器和防御的需求所塑造的.
  • 了解T6SS多样性为细菌进化和细菌间动态提供了洞察力.