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相关概念视频

Catalytically Perfect Enzymes01:07

Catalytically Perfect Enzymes

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The theory of catalytically perfect enzymes was first proposed by W.J. Albery and J. R. Knowles in 1976. These enzymes catalyze biochemical reactions at high-speed. Their catalytic efficiency values range from 108-109 M-1s-1. These enzymes are also called 'diffusion-controlled' as the only rate-limiting step in the catalysis is that of the substrate diffusion into the active site. Examples include triose phosphate isomerase, fumarase, and superoxide dismutase.
 
Most enzymes...
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Introduction to Mechanisms of Enzyme Catalysis01:13

Introduction to Mechanisms of Enzyme Catalysis

8.8K
For many years, scientists thought that enzyme-substrate binding took place in a simple "lock-and-key" fashion. This model stated that the enzyme and substrate fit together perfectly in one instantaneous step. However, current research supports a more refined view scientists call induced fit. The induced-fit model expands upon the lock-and-key model by describing a more dynamic interaction between enzyme and substrate. As the enzyme and substrate come together, their interaction causes...
8.8K
Introduction to Enzyme Kinetics01:19

Introduction to Enzyme Kinetics

20.8K
Enzyme kinetics studies the rates of biochemical reactions. Scientists monitor the reaction rates for a particular enzymatic reaction at various substrate concentrations. Additional trials with inhibitors or other molecules that affect the reaction rate may also be performed.
The experimenter can then plot the initial reaction rate or velocity (Vo) of a given trial against the substrate concentration ([S]) to obtain a graph of the reaction properties. For many enzymatic reactions involving a...
20.8K
Introduction to Enzymes01:22

Introduction to Enzymes

19.5K
The use of enzymes by humans dates to 7000 BCE. Humans first used enzymes to ferment sugars and produce alcohol without knowing that this was an enzyme-catalyzed reaction. Wilhelm Kuhne coined the term 'enzyme' in 1877 from the Greek words ‘en’ meaning ‘in’ or ‘within’ and ‘zyme’ meaning ‘yeast.’
Most enzymes are proteins that speed up biochemical reactions without being consumed. Enzymes contain one or more active sites that...
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Enzymes02:34

Enzymes

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Inside living organisms, enzymes act as catalysts for many biochemical reactions involved in cellular metabolism. The role of enzymes is to reduce the activation energies of biochemical reactions by forming complexes with its substrates. The lowering of activation energies favor an increase in the rates of biochemical reactions.
Enzyme deficiencies can often translate into life-threatening diseases. For example, a genetic abnormality resulting in the deficiency of the enzyme G6PD...
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Induced-fit Model01:13

Induced-fit Model

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Most chemical reactions in cells require enzymes—biological catalysts that speed up the reaction without being consumed or permanently changed. They reduce the activation energy needed to convert the reactants into products. Enzymes are proteins, that usually work by binding to a substrate—a reactant molecule that they act upon.
Enzymes exhibit substrate specificity, meaning that they can only bind to certain substrates. This is mainly determined by the shape and chemical...
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相关实验视频

Updated: Sep 12, 2025

A New Screening Method for the Directed Evolution of Thermostable Bacteriolytic Enzymes
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A New Screening Method for the Directed Evolution of Thermostable Bacteriolytic Enzymes

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在酶进化和设计中考虑代谢背景

Dhiraj Dokwal1, Philip M Brown1, Karolina Filipowska1,2

  • 1Green Center for Systems Biology─Lyda Hill Department of Bioinformatics, The University of Texas Southwestern Medical Center, Dallas, Texas 75230, United States.

Biochemistry
|August 5, 2025
PubMed
概括

酶在细胞环境中起作用,而不是孤立的. 了解这些相互作用是代谢进化和设计新合成生物系统的关键.

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科学领域:

  • 生物化学 生物化学
  • 系统生物学 系统生物学
  • 代谢工程是代谢工程.

背景情况:

  • 酶通常被研究为单个分子,忽略了它们在细胞内的相互作用.
  • 通过共享代谢物,物理结合和反来进行细胞协调对于代谢功能至关重要.
  • 这些相互作用对酶特性和进化产生约束.

研究的目的:

  • 审查细胞环境如何影响酶进化.
  • 探索酶变异如何影响细胞健康.
  • 为了理解进化和合成设计,定义交互介导的约束.

主要方法:

  • 文献综述侧重于细胞环境中的酶相互作用.
  • 对异质酶功能的案例研究的分析.
  • 讨论生物化学和生物物理因素影响活体中的酶行为.

主要成果:

  • 细胞环境显著影响了酶的进化和功能.
  • 酶相互作用限制了活性,特异性,丰度和序列.
  • 异质酶的失效凸显了细胞环境的重要性.

结论:

  • 酶的行为与其细胞环境密切相关.
  • 了解这些限制对于代谢进化研究至关重要.
  • 了解细胞环境对于成功的合成生物学设计至关重要.