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相关概念视频

Chromatography: Introduction01:10

Chromatography: Introduction

6.1K
Chromatography is a technique used to separate compounds based on differences of partitioning between two phases, the stationary phase and the mobile phase.
The phase in which the compounds linger or on which the compounds adsorb is called the stationary phase, whereas the mobile phase is the solvent that carries the solutes to be analyzed. In traditional column chromatography, the mixture flows through the stationary phase, and the compounds partition between the stationary and mobile phases...
6.1K
Types Of Column Chromatography01:29

Types Of Column Chromatography

10.8K
The stability and compatibility of column material with samples are crucial for efficient purification in chromatographic techniques. Various operating parameters such as pH, temperature, or solvent affect the packing of the column material, thereby determining the purification efficiency. The choice of column material also plays an essential role in deciding the operating parameters and can be modified based on the proteins that need to be purified.
Gel Filtration Chromatography
When the...
10.8K
Diffusion on Chromatography Columns01:07

Diffusion on Chromatography Columns

1.6K
In column chromatography, when an analyte is introduced as a narrow band at the top of the column, the solutes begin to separate and broaden, developing a Gaussian profile. This broadening occurs due to various factors, such as longitudinal diffusion.
Longitudinal diffusion occurs when the solute molecules in the mobile phase diffuse from the more concentrated center of the chromatographic band to the more dilute regions on either side, both towards and against the flow direction. This...
1.6K
Optimizing Chromatographic Separations01:15

Optimizing Chromatographic Separations

1.3K
Optimizing chromatographic separations is crucial for obtaining clean separations in a minimum amount of time. Optimization is required for several factors, including kinetic effects related to band broadening, plate height, capacity factor, and separation factor.
Band broadening refers to spreading solute bands as they travel through the column. This broadening can impact resolution. Plate height (H) represents the length required for one theoretical plate. A lower plate height corresponds to...
1.3K
Ion-Exchange Chromatography01:09

Ion-Exchange Chromatography

3.0K
Ion-exchange chromatography, or IEC, is a technique for separating ions based on their affinity for the stationary phase. The stationary phase is a cross-linked polymer resin with covalently attached ionic functional groups. The functional groups can be either positively charged (cation exchangers) or negatively charged (anion exchangers). A cation exchanger consists of a polymeric anion and active cations, while an anion exchanger is a polymeric cation with active anions. The choice of...
3.0K
Affinity Chromatography01:03

Affinity Chromatography

3.1K
Affinity chromatography is a powerful technique extensively utilized for separating and purifying specific biomolecules from complex mixtures. It capitalizes on the highly selective binding between an analyte and its counterpart, such as antibody-antigen interactions. The counterpart is immobilized on the stationary phase, forming an affinity column. The stationary phase typically consists of solid support, such as agarose or porous glass beads, immobilizing the affinity ligand. The mobile...
3.1K

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Activated Cross-linked Agarose for the Rapid Development of Affinity Chromatography Resins - Antibody Capture as a Case Study
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染色学的进化,解锁亲和力的新解决方案:潜在控制的亲和膜染色学.

Tobias Steegmüller1, Maeliss Nzokam1, Christian Sieg2

  • 1School of Engineering and Design, Technical University of Munich Boltzmannstraße 15 85748 Garching bei München Germany s.berensmeier@tum.de.

RSC advances
|January 30, 2026
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概括

一种新的潜在控制方法有效地从血和细胞培养物中净化抗体. 这一亲和染色体的突破为抗体疗法提供了成本效益和可持续的替代方案.

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科学领域:

  • 生物技术是生物技术.
  • 生物化学 生物化学
  • 化学工程是化学工程的重要组成部分.

背景情况:

  • 传统的抗体净化方法,如亲和色谱,通常是昂贵和低效的.
  • 高成本是推动基于抗体的免疫疗法和治疗方法的重大障碍.

研究的目的:

  • 引入一种新型的潜在控制的亲和膜染色学 (PCAMC) 用于抗体净化.
  • 证明PCAMC在净化人血和细胞培养超剂中的抗体方面的效率和有效性.

主要方法:

  • 开发和应用一种使用蛋白A亲和膜的潜在控制化方法.
  • 优化用于抗体化的电潜力 (目标范围:+2.5到3V).
  • 使用动态光散射 (DLS),大小排除色谱与多角度光散射 (SEC-MALS) 和表面等离子共振 (SPR) 分析抗体完整性.

主要成果:

  • 达到高达95%的结合抗体的高效化.
  • 证明抗体完整性的优越保留,通过DLS,SEC-MALS和SPR分析得到证实.
  • 消除了在净化过程中需要进行缓冲区交换的需要.

结论:

  • 潜在控制的亲和膜染色学 (PCAMC) 是一种可行的和革命性的替代传统抗体净化技术.
  • PCAMC为抗体净化提供了更高的效率,更好的可持续性和成本效益.
  • 这项技术为更容易获得,更环保的抗体疗法铺平了道路.