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相关概念视频

Overview of Cell Death01:30

Overview of Cell Death

Cell death is an essential process where the body gets rid of old or damaged cells. Cell proliferation and death need to be balanced, as an imbalance between the two may lead to cancer or autoimmune diseases.
Cell death was observed in the early 19th century, but there was no experimental evidence to prove it. In 1842, Carl Vogt first discovered cell death in a metamorphic toad; however, it was not termed ‘cell death.’ Scientists discovered different cell death pathways only in the 20th century...
Autophagic Cell Death01:18

Autophagic Cell Death

Christian de Duve discovered “autophagy,” a process in which cellular components are engulfed by membrane-bound organelles called autophagosomes. The autophagosomes then fuse with lysosomes to digest the enclosed contents. Autophagy is generally activated in cells to prevent cell death. However, cell death is triggered when the damage is beyond repair.
Autophagy and Apoptosis
Autophagy can activate apoptosis. In normal conditions, the autophagy activating protein Beclin-1 and pro-apoptotic...
Necrosis01:16

Necrosis

Necrosis is considered as an “accidental” or unexpected form of cell death that ends in cell lysis. The first noticeable mention of “necrosis” was in 1859 when Rudolf Virchow used this term to describe advanced tissue breakdown in his compilation titled “Cell Pathology”.
Morphological Manifestations of Necrosis
Necrotic cells show different types of morphological appearance depending on the type of tissue and infection. In coagulative necrosis, cells become anucleated and die, but their...
Deleterious Substances in Aggregate01:25

Deleterious Substances in Aggregate

Deleterious substances in aggregates can be detrimental to the quality and durability of concrete. These substances include organic impurities like loam, which interfere with cement hydration and are usually present in the sand. These prevent a good bond between aggregate and cement paste. Organic impurities can be detected using the colorimetric test, where the darkness of a solution after agitation indicates the level of organic content.
Another type of impurity is clay and fine material that...
Curing Methods01:26

Curing Methods

Concrete members with a small surface-to-volume ratio are cured by oiling and moistening the forms before casting the concrete member. These forms can be left in place for a prolonged period to prevent moisture loss, and can be wetted if made of a material suitable for wetting. If the forms are removed early, the concrete member is moistened and covered with polythene sheets to maintain moisture. For large horizontal concrete surfaces exposed to dry weather, a temporary covering is suspended...
Biodeterioration01:28

Biodeterioration

Biodeterioration refers to the unwanted alteration of materials caused by microorganisms—especially fungi—which damage both organic substrates (paper, wood, textiles) and inorganic ones (stone, plaster, glass). Unlike abiotic decay, biodeterioration results from biological activity that produces physical disruption and chemical degradation.Physical deterioration occurs as fungal hyphae penetrate pores, cracks, and surface irregularities. Hyphal turgor pressure, thigmotropic growth along...

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相关实验视频

Updated: Jul 13, 2026

Fabrication and Design of Wood-Based High-Performance Composites
08:08

Fabrication and Design of Wood-Based High-Performance Composites

Published on: November 9, 2019

毁灭之路是用质子铺平的

Rachel Green1, Jon R Lorsch

  • 1Howard Hughes Medical Institute, Department of Molecular Biology and Genetics, Johns Hopkins University, 725 N. Wolfe Street, Baltimore, MD 21205, USA. ragreen@jhmi.edu

Cell
|September 26, 2002
PubMed
概括

研究人员正在发现核糖体是如何形成键的. 这种基本的生物过程对于蛋白质合成和了解细胞机械至关重要.

科学领域:

  • 生物化学 生化学
  • 分子生物学分子生物学
  • 结构生物学 结构生物学

背景情况:

  • 键形成是生物学中的一个基本反应.
  • 核糖体是负责蛋白质合成的分子机器.
  • 了解键形成的机制是理解基因表达的关键.

研究的目的:

  • 阐明核糖体催化键形成的详细机制.
  • 为了确定关键的分子相互作用和合成所涉及的催化步骤.
  • 提供关于催化过程中的核糖体结构动态的见解.

主要方法:

  • 使用先进的结构生物学技术,如冷电子显微镜.
  • 采用生物化学分析来探测催化活性和基质结合.
  • 计算建模模拟反应路径和过渡状态.

主要成果:

  • 最近的研究已经开始揭示涉及键形成的复杂步骤.
  • 已经确定了核糖体活性部位内的关键残留物和结构元素.
  • 在催化过程中,核糖体的动态性变得越来越明显.

结论:

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Advanced Self-Healing Asphalt Reinforced by Graphene Structures: An Atomistic Insight

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Assessing Disaster Resilience of Concrete with Titanium Dioxide Nanoparticles

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  • 核糖体采用了一种复杂的机制,以高保真度催化键的形成.
  • 进一步的研究将继续完善我们对这一重要生物过程的理解.
  • 这些发现对针对蛋白质合成的药物开发有影响.