Sample Purification

Graph illustrating the key stages of affinity chromatography separation involving bind, wash and elute steps.

Various chemical and physical purification methods can be applied to separate or concentrate a target analyte prior to analysis. Among these are absorption, adsorption, chromatography, distillation, extraction, ion exchange, filtration, complex formation, crystallization, drying, and many more. Sample preparation prior to analysis helps bring a sample to a format that is compatible with the analytical technique, reduces sample complexity, removes interfering impurities, and concentrates the analyte prior to analysis. Appropriate sample preparation will prevent clogging, may reduce the need for stringent washing procedures, and can extend the life of the chromatographic medium.

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A close-up view of an Amicon device used for filtration, featuring four transparent tubes arranged vertically within a black frame. The tubes contain different colored liquids, indicating varying concentrations or solutions. The device is positioned on a laboratory countertop, with visible tubing connected to the top and a base that appears to be designed for stability during operation.

Amicon^® Devices

Centrifugal and pressurized ultrafiltration devices for protein concentration, desalting, buffer exchange, separation, and diafiltration of biological and environmental samples in preparation for downstream applications.

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Milli-Q® IQ 7003/05/10/15 Ultrapure and Pure Water Purification System - Type 1 and Type 2 lab water purification system with production and tank units plus pure and ultrapure water dispensers.

Milli-Q^® Benchtop Lab Water Purification Systems

Milli-Q^® systems offer innovative water purification technologies engineered to...

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A clear laboratory beaker filled with colorless liquid, containing a small cylindrical container with a red liquid inside. The container is topped with a blue lid, floating on the surface of the liquid in the beaker. The beaker has measurement markings on the side, indicating its volume.

Laboratory Dialysis & Diafiltration Devices

Dialyzers, centrifugal ultrafiltration devices, and stirred cells for buffer exchange...

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A laboratory filtration device with a white base and five transparent tubes positioned vertically at the top. The tubes are filled with liquid and have green markings. At the front of the device, a pressure gauge is visible, indicating the system's pressure. The background is a bright yellow, enhancing the visibility of the equipment.

Solid Phase Extraction (SPE) and QuEChERS

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Some of the following most common purification techniques are used in the laboratory to prepare samples for downstream analysis.

Dialysis

Dialysis is a purification technique used to remove salt or other low molecular weight molecules from a sample. It is also used to exchange a sample’s buffer composition. Dialysis is a passive technique requiring large volumes of buffer.

Buffer Exchange & Desalting

Desalting is a simple method to remove salts and other low molecular weight contaminants from a sample. It is also used for buffer exchange before or after different chromatographic steps and for the rapid removal of reagents to terminate a reaction.

Fractional Precipitation

Fractional precipitation is used to remove gross impurities from small sample volumes. Precipitation techniques separate fractions by the principle of differential solubility. Because protein species differ in their degree of hydrophobicity, increased salt concentrations can enhance hydrophobic interactions between the proteins and cause precipitation.

Extraction

Sample preparation by extraction involves the isolation of target analytes from a complex sample, or much larger sample volume. The process removes interfering sample components that may block HPLC and GC columns. It also increases analyte concentration by a factor of 100 to 5,000, thereby significantly improving detection sensitivity. As part of selective and specific sample preparation, extraction helps ensure more reliable chromatographic analysis. Types of extraction are liquid-liquid extraction, solid phase extraction (SPE), and solid phase microextraction (SPME).

Affinity Chromatography

Affinity chromatography separates proteins based on reversible interactions between a protein and a speciﬁc ligand that has been coupled to a chromatography matrix. The technique is highly selective and allows for high capacity protein purification. Affinity chromatography can be used whenever a suitable ligand is available for the protein of interest.

Puriﬁcation by affinity chromatography involves capture and elution steps. In the capture phase, the target protein is speciﬁcally and reversibly bound to a complementary ligand that has been immobilized on a chromatography matrix. The objective is to isolate, concentrate, and stabilize the target product, conserving its potency and activity. After washing the matrix to remove unbound material, bound target protein is recovered by changing conditions to those favoring elution. Elution is performed speciﬁcally, using a competitive ligand, or nonspeciﬁcally, by changing the pH, ionic strength, or polarity. Elution allows the target protein to be collected in a puriﬁed and concentrated form.

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Sample Purification

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Dialysis

Buffer Exchange & Desalting

Fractional Precipitation

Extraction

Affinity Chromatography

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