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相关概念视频

Oligosaccharide Assembly01:24

Oligosaccharide Assembly

2.8K
Protein glycosylation starts in the ER lumen and continues in the Golgi apparatus. Glycosyltransferases catalyze the addition of sugar molecules or glycosylation of proteins. Usually, these enzymes add sugars to the hydroxyl groups of selected serine or threonine residues to form O-linked glycans or the amino groups of asparagine residues to form N-linked glycans. Different positions on the same polypeptide chain can contain differently linked glycans.
Multiple sugar molecules that may or may...
2.8K
Protein Glycosylation01:25

Protein Glycosylation

6.8K
Glycosylation, the most common post-translational modification for proteins, serves diverse functions. Adding sugars to proteins makes the proteins more resistant to proteolytic digestion. Glycosylated proteins can act as markers and receptors to promote cell-cell adhesion. Additionally, they have many essential quality control functions in the cell, such as correct protein folding and facilitating transport of misfolded proteins to the cytosol, which can be degraded.
Glycosylation occurs in...
6.8K
Biosynthesis of Polysaccharides01:26

Biosynthesis of Polysaccharides

Polysaccharides such as glycogen and starch are synthesized from nucleoside diphosphate sugars, primarily uridine diphosphate glucose (UDPG) and adenosine diphosphate glucose (ADPG). These activated glucose donors act as key intermediates in carbohydrate metabolism and biosynthesis. UDPG primarily involves glycogen synthesis in animals and many bacteria, while ADPG plays a fundamental role in starch synthesis in plants and certain bacteria.UDPG is formed when glucose-1-phosphate reacts with...

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相关实验视频

Updated: Jun 4, 2025

Hierarchical and Programmable One-Pot Oligosaccharide Synthesis
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自动合成C1功能化的寡糖

Georg B Niggemeyer1, José A Danglad-Flores1, Peter H Seeberger1,2

  • 1Department of Biomolecular Systems, Max-Planck-Institute of Colloids and Interfaces, Potsdam 14476, Germany.

Journal of the American Chemical Society
|December 31, 2024
PubMed
概括
此摘要是机器生成的。

自动化甘氨酸组合 (AGA) 现在允许使用新型的光连接器引入多种类型的甘氨酸. 这一突破使复杂的寡糖可用于各种应用.

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High-throughput Synthesis of Carbohydrates and Functionalization of Polyanhydride Nanoparticles
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High-throughput Synthesis of Carbohydrates and Functionalization of Polyanhydride Nanoparticles

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Chemo-enzymatic Synthesis of N-glycans for Array Development and HIV Antibody Profiling
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Chemo-enzymatic Synthesis of N-glycans for Array Development and HIV Antibody Profiling

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相关实验视频

Last Updated: Jun 4, 2025

Hierarchical and Programmable One-Pot Oligosaccharide Synthesis
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Hierarchical and Programmable One-Pot Oligosaccharide Synthesis

Published on: September 6, 2019

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High-throughput Synthesis of Carbohydrates and Functionalization of Polyanhydride Nanoparticles
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High-throughput Synthesis of Carbohydrates and Functionalization of Polyanhydride Nanoparticles

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Chemo-enzymatic Synthesis of N-glycans for Array Development and HIV Antibody Profiling
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科学领域:

  • 碳水化合物化学
  • 有机合成
  • 生物结合

背景情况:

  • 自动化甘氨酸组合 (AGA) 简化了复杂的寡糖合成.
  • 目前的AGA方法限制了在减少端引入多种aglycon.
  • 糖与蛋白质或表面的结合对于应用至关重要.

研究的目的:

  • 在AGA中开发一种新的易于和多用途的aglycon引入方法.
  • 使用无痕光标链接器实现双向AGA.
  • 为了证明各种复杂的糖结合物的合成.

主要方法:

  • 开发了一种使用无痕光效连接剂的潜活性方法.
  • 连接器允许双向自动化糖组装.
  • 在寡糖基架上引入了各种酸盐.

主要成果:

  • 成功合成寡糖类硫糖化物,糖和素.
  • 通过基于点击化学的结合物证明了多功能性.
  • 这种方法可以很快地引入多种类型的葡萄糖.

结论:

  • 开发的潜在活性AGA方法克服了以前的局限性.
  • 这种方法显著提高了寡糖合成的多功能性.
  • 该策略适用于各种用途的多种糖合物.