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相关概念视频

Molecular Chaperones and Protein Folding03:00

Molecular Chaperones and Protein Folding

The native conformation of a protein is formed by interactions between the side chains of its constituent amino acids. When the amino acids cannot form these interactions, the protein cannot fold by itself and needs chaperones. Notably, chaperones do not relay any additional information required for the folding of polypeptides; the native conformation of a protein is determined solely by its amino acid sequence. Chaperones catalyze protein folding without being a part of the folded protein.
The...
Directing Proteins to the Rough Endoplasmic Reticulum01:34

Directing Proteins to the Rough Endoplasmic Reticulum

The organelle-specific signaling sequences direct proteins synthesized in the cytosol to their final destination like ER, mitochondria, peroxisomes, etc. Some of the proteins directed to ER are then trafficked via vesicles to other organelles within the cell or the extracellular environment through the Golgi complex. For example, the rough ER synthesizes soluble proteins for transportation to the lysosomes or secretion out of the cell. It can also synthesize transmembrane proteins that can...
Catalytically Perfect Enzymes01:07

Catalytically Perfect Enzymes

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.
Molecular Chaperones and Protein Folding03:00

Molecular Chaperones and Protein Folding

The native conformation of a protein is formed by interactions between the side chains of its constituent amino acids. When the amino acids cannot form these interactions, the protein cannot fold by itself and needs chaperones. Notably, chaperones do not relay any additional information required for the folding of polypeptides; the native conformation of a protein is determined solely by its amino acid sequence. Chaperones catalyze protein folding without being a part of the folded protein.
The...
Bacterial Protein Maturation01:26

Bacterial Protein Maturation

Bacterial protein maturation is a tightly regulated process that ensures newly synthesized polypeptides achieve correct functional conformations. This maturation involves a series of modifications, folding events, and quality control steps, often assisted by specialized chaperone proteins.N-Terminal ModificationsThe maturation of bacterial polypeptides begins cotranslationally as the polypeptide exits the ribosome. The first amino acid, N-formylmethionine (fMet), is typically modified at the...
Evolution of New Traits in Microbes01:24

Evolution of New Traits in Microbes

Microorganisms evolve rapidly due to their large population sizes and short generation times, often exhibiting measurable changes within days under laboratory conditions. Natural selection acts on standing genetic variation, enabling the retention and amplification of beneficial traits that confer fitness advantages in changing environments.Adaptive Pigment Regulation in RhodobacterIn Rhodobacter, a genus of purple non-sulfur bacteria, light-harvesting pigments such as bacteriochlorophyll and...

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Updated: Jul 8, 2026

A New Screening Method for the Directed Evolution of Thermostable Bacteriolytic Enzymes
13:30

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

Published on: November 7, 2012

基质优化的GroEL/S沙佩罗宁的定向演变.

Jue D Wang1, Christophe Herman, Kimberly A Tipton

  • 1Howard Hughes Medical Institute and Department of Cellular and Molecular Pharmacology, University of California, San Francisco 94143, USA.

Cell
|January 1, 2003
PubMed
概括

GroEL/S chaperonins可以被设计为特定的蛋白质折叠,如绿色光蛋白 (GFP). 这种专业化增强了折叠性,但降低了一般的基板能力,为陪伴进化提供了洞察力.

科学领域:

  • 生物化学 生物化学
  • 分子生物学分子生物学
  • 蛋白质折叠 蛋白质的折叠

背景情况:

  • GroEL/S chaperonins是重要的分子机器,有助于蛋白质折叠.
  • 它们的广泛基质范围对细胞功能至关重要,但限制了对特定蛋白质的优化.

研究的目的:

  • 为特定基质,绿色光蛋白 (GFP) 设计具有增强折叠能力的GroEL/S变体.
  • 调查沙佩罗宁基质特异性和可塑性的结构和功能基础.

主要方法:

  • 通过循环选择和DNA混合来引导进化.
  • 对改变折叠活性和ATPase动态的GroEL/S变体的表征.

主要成果:

  • 工程 GroEL/S 变种显示了显著增强的 GFP 的折叠.
  • 优化沙佩罗宁的结构修改增加了腔极性,并改变了ATPase循环.
  • 对GFP折叠的专业化是以折叠天然基板为代价的.

结论:

  • GroEL/S 具有显著的可塑性,允许基板特定的工程.
  • 这种工程可塑性可以用于改善重组蛋白质生产.

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In Vitro Directed Evolution of a Restriction Endonuclease with More Stringent Specificity

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A New Screening Method for the Directed Evolution of Thermostable Bacteriolytic Enzymes
13:30

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

Published on: November 7, 2012

Directed Evolution Method in Saccharomyces cerevisiae: Mutant Library Creation and Screening
10:50

Directed Evolution Method in Saccharomyces cerevisiae: Mutant Library Creation and Screening

Published on: April 1, 2016

In Vitro Directed Evolution of a Restriction Endonuclease with More Stringent Specificity
09:16

In Vitro Directed Evolution of a Restriction Endonuclease with More Stringent Specificity

Published on: March 25, 2020

  • 专业化和泛化之间的权衡为陪伴系统的发展提供了进化背景.