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Redox Reactions01:24

Redox Reactions

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Oxidation-reduction or redox reactions involve the transfer of electrons from one molecule or atom to another. When an atom gains an electron, another atom must lose an electron, meaning oxidation and reduction must occur together. Since the redox occurs in pairs, the atom that gets oxidized is also called the reducing agent or reductant, and the atom that is reduced is also called the oxidizing agent or oxidant. A straightforward way to remember the definitions of oxidation and reduction is...
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Oxidation-Reduction Reactions03:11

Oxidation-Reduction Reactions

58.8K
Oxidation–Reduction Reactions
58.8K
Balancing Redox Equations02:58

Balancing Redox Equations

48.4K
Electrochemistry is the science involved in the interconversion of electrical and chemical reactions. Such reactions are called reduction-oxidation, or redox reactions. These important reactions are defined by changes in oxidation states for one or more reactant elements and include a subset of reactions involving the transfer of electrons between reactant species. Electrochemistry as a field has evolved to yield sufficient insights on the fundamental principles of redox chemistry and multiple...
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Redox Titration: Overview01:21

Redox Titration: Overview

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Redox titration is a chemical analysis technique used to determine the concentration of an unknown substance by measuring the electron transfer in a redox (reduction-oxidation) reaction. The process involves gradually adding a titrant with a known concentration of an oxidizing or reducing agent, to the analyte, the solution with an unknown concentration, until reaching the endpoint, which indicates the completion of the reaction between the two substances. Ensuring the analyte is in a single...
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Redox Titration: Other Oxidizing and Reducing Agents01:26

Redox Titration: Other Oxidizing and Reducing Agents

1.4K
Besides iodine, other oxidizing or reducing agents can serve as titrants in redox titrations. Common oxidizing titrants include KMnO4, cerium(IV), and K2Cr2O7. The choice of oxidizing titrants depends on factors like stability, cost, analyte strength, and reaction rate between the analyte and titrant. KMnO4 is a strong oxidizing titrant that reduces from Mn(VII) to Mn(II) in a highly acidic solution, simultaneously oxidizing the analyte to a higher oxidation state. In this case, KMnO4 acts as a...
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Redox Reactions01:27

Redox Reactions

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Redox reactions are vital biochemical processes that underpin energy metabolism in cells. These reactions involve the transfer of electrons between molecules, occurring in tandem as oxidation and reduction. Oxidation refers to the loss of electrons, while reduction denotes their gain. This coupling ensures the seamless flow of electrons through metabolic pathways. For example, in bacterial metabolism, glucose undergoes oxidation to carbon dioxide, while oxygen is simultaneously reduced to...
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相关实验视频

Updated: May 5, 2026

Cellular Redox Profiling Using High-content Microscopy
11:37

Cellular Redox Profiling Using High-content Microscopy

Published on: May 14, 2017

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伴侣活动与氧化还原开关.

U Jakob1, W Muse, M Eser

  • 1Department of Biology, University of Michigan, Ann Arbor 48109-1048, USA. ujakob@biology.lsa.umich.edu

Cell
|February 20, 1999
PubMed
概括
此摘要是机器生成的。

热冲击蛋白33 (Hsp33) 作为一个分子伴侣,被氧化应激激活. 这种新发现的蛋白质家族保护细菌免受氧化剂的影响,突出显示了它在细胞防御机制中的作用.

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Defining Hsp33's Redox-regulated Chaperone Activity and Mapping Conformational Changes on Hsp33 Using Hydrogen-deuterium Exchange Mass Spectrometry
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Defining Hsp33's Redox-regulated Chaperone Activity and Mapping Conformational Changes on Hsp33 Using Hydrogen-deuterium Exchange Mass Spectrometry

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Assessment of Cellular Oxidation using a Subcellular Compartment-Specific Redox-Sensitive Green Fluorescent Protein
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相关实验视频

Last Updated: May 5, 2026

Cellular Redox Profiling Using High-content Microscopy
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Cellular Redox Profiling Using High-content Microscopy

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Defining Hsp33's Redox-regulated Chaperone Activity and Mapping Conformational Changes on Hsp33 Using Hydrogen-deuterium Exchange Mass Spectrometry
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Defining Hsp33's Redox-regulated Chaperone Activity and Mapping Conformational Changes on Hsp33 Using Hydrogen-deuterium Exchange Mass Spectrometry

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Assessment of Cellular Oxidation using a Subcellular Compartment-Specific Redox-Sensitive Green Fluorescent Protein
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Assessment of Cellular Oxidation using a Subcellular Compartment-Specific Redox-Sensitive Green Fluorescent Protein

Published on: June 18, 2020

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科学领域:

  • 生物化学 生物化学
  • 分子生物学分子生物学
  • 细胞应激反应的应激反应

背景情况:

  • 热冲击蛋白 (HSP) 对于细胞平衡至关重要.
  • 一个新的HSP家族,HSP33,已经被确定.
  • Hsp33的功能调节与其他已知的分子伴侣有所不同.

研究的目的:

  • 为了研究Hsp33.3的功能性质.
  • 为了阐明Hsp33的陪伴活动的调节机制.
  • 确定Hsp33在抗氧化压力的细胞防御中的作用.

主要方法:

  • 在体外生化测试以评估陪伴者活动.
  • 在体内细胞实验中评估Hsp33的保护作用.
  • 进行氧化环境操纵以研究Hsp33激活.

主要成果:

  • Hsp33表现出强大的分子伴侣活性.
  • Hsp33的活性是由氧化还原条件,特别是氧化,调节的.
  • 像H2O2这样的氧化剂诱导二硫化键的形成,激活Hsp33.3.
  • Hsp33保护细胞免受氧化剂诱导的损伤.

结论:

  • Hsp33是一种氧化还原激活的分子伴侣.
  • Hsp33在抗氧化应激的细菌防御系统中起着重要作用.
  • 这种蛋白质家族代表了对抗细菌氧化损伤的新机制.