Aqueous Size Exclusion Chromatography GFC/SEC

Aqueous gel filtration chromatography or size exclusion chromatography (GFC or SEC) is an analytical separation method for characterising macromolecular substances in aqueous media. SEC is based on the principle of molecular sieving, whereby the separation of the analytes is based exclusively on physical size differences and not on chemical interactions with the stationary phase. This characteristic predestines SEC for use in biochemistry, polymer chemistry and other research fields that require precise analysis of molecular sizes, molecular mass distributions and conformations.

 

Read the theoretical basics of aqueous gel filtration chromatography on our website and find a selection of SEC products from renowned manufacturers. You will also find brochures, catalogues and applications for proteins, polysaccharides, nucleic acids and synthetic polymers using SEC chromatography columns.

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Technical Data

Basics

Stationary phases in GFC/SEC

The stationary phases in gel filtration chromatography are either porous silica or polymer-based materials such as polyhydroxymethacrylate or polyvinyl alcohol. In order to reduce adsorption or other undesirable interactions of the analytes with the silica materials, these are usually functionalised with diol groups or undergo special treatment during the manufacturing process. Silica phases are used as stationary phases, especially for proteins, antibodies and enzymes, as they have a high resolution and recovery rate. Polymer-based materials are increasingly being used for other polar polymers such as polyethylene glycol.

Mobile phases of the GFC/SEC

Water is mainly used as the mobile phase for gel filtration chromatography (GFC). GFC is used as a bioseparation technique for the separation of proteins and other large biomolecules and therefore the use of buffers or salts can be helpful. In addition to aqueous eluents, mixtures of water and organic solvents such as acetonitrile and methanol can also be used in some cases.

Detectors of the GFC/SEC

Basically, the same detectors can be used for gel filtration chromatography as in HPLC. UV and RI detectors are used particularly frequently. In addition, light scattering and viscosity detectors are also used for polymer analysis in order to obtain specific molecular and structural information about the analyte. When SEC is combined with light scattering, viscometers and concentration detectors (known as triple detection), it can calculate absolute molecular weight, molecular size and intrinsic viscosity, as well as provide information on macromolecular structure, conformation, aggregation and branching. To obtain absolute molecular weights of a sample, the Multi Angle Light Scattering Detector (MALS) can be used. This detector works in a similar way to the simple light scattering detector.

Reference materials for GFC/SEC

By using reference materials with known molecular size and molecular mass distribution, the GFC system can be calibrated to allow precise analysis of molecular weights and molecular size distribution in a sample. Calibration standards are essential to regularly check the performance of the GFC system and ensure that results are consistent and reliable over time. These standards also help to optimise separation conditions and improve analytical accuracy, making them a critical component of high quality GFC analysis. MZ-Analysentechnhik GmbH offers you a wide range of different SEC reference materials from manufacturers such as Sigma Aldrich, Tosoh, Shodex or Waters.

Columns for the SEC/GPC

To select a suitable column, a few basic questions should be clarified first.

 

1. What is the polarity of the analyte and which solvents are suitable?

For polar biopolymers such as proteins, antibodies or enzymes, purely aqueous buffers are often used as eluents. Silica gel has proven to be a suitable base material for this. For polar to medium-polar polymers, aqueous or polar organic eluents or mixtures of both are used. The base material is often polymethacrylate or polyvinyl alcohol. For non-polar polymers in purely organic eluents, gel permeation chromatography is usually used with styrene-divinylbenzene copolymers (PS/DVB) as stationary phases.

 

2. What is the molecular weight of my analyte?

The molecular weight of the analyte or its size in the solvent determines the pore size of the stationary phase. The absolute pore sizes range from about 25 to 30,000 Å, which covers a molecular weight range of about 100 to > 20,000,000 Daltons. For samples with very different molecular weights, either several columns with different pore sizes can be connected in series or columns containing particles with different pore sizes can be used. These are often labelled "linear", "mixed gel" or "multipore gel".

In many cases, suitable pore sizes can be easily determined with the help of the usually very extensive calibration data provided by the manufacturers.

Columns for aqueous mobile phases (GFC) and aqueous/organic mobile phases

Manufacturer

Column lines

Characteristics

Tosoh Bioscienace

TSKgel SW Series

Base material: silica gel
Particle sizes: 2 - 17 µm
Pore sizes: 125 - 450 Å & "mixed-gel"
Other features: Industry standard for protein analysis

Tosoh Bioscience

TSKgel PW Series

Base material: polymethacrylate
Particle sizes: 3 - 17 µm
Pore sizes: 125 - >1,000 Å & "multi-pore"
Other features: Wide application range for polar polymers

Shodex™

K-800 Series
KD-803 Series
KF-400 Series

Base material: Silica gel
Particle sizes: 3 - 7 µm
Pore sizes: 400 - 2,000 Å
Other features: For protein analyses

Shodex™

SB-800HQ Series

Base material: Polyhydroxymethacrylate
Particle sizes: 8 - 35 µm
Pore sizes: 100 - 30,000 Å & "mixed-gel"
Further features: For the analysis of polar polymers

Shodex™

LB-800 Series

Base material: Polyhydroxymethacrylate
Particle sizes: 6 - 13 µm
Pore sizes: 800 - 15,000 Å
Other features: For light scattering detection

Shodex™

GF-HQ

Base material: Polyvinyl alcohol
Particle sizes: 5 & 9 µm
Pore sizes: 180 - 10,000 Å
Further features: For aqueous as well as organic eluents

Sepax™

Unix
Zenix
SRT
SRT-10

Base material: silica gel
Particle sizes: 1.8 - 10 µm
Pore sizes: 80 - 2,000 Å
Other features: For proteins, mAb's, nucleic acids, virus, etc.

Sepax™

Unix-C
Zenix-C
SRT-C
SRT-10C

Base material: silica gel
Particle sizes: 1.8 - 10 µm
Pore sizes: 80 - 2,000 Å
Other features: For membrane proteins, derivatised mAb's, etc.

Mitsubishi Chem. Corp.™

MCI GEL™ CQP-Series

Base material: Hydrophilic polymer
Particle sizes: 10 µm
Pore sizes: 120 - 600 Å
Other features: For polar polymers, such as oligosaccharides or PEG

Supelco

Discovery® BIO GFC

Base material: silica gel
Particle sizes: 5 µm
Pore sizes: 100 - 2,000 Å
Other features: For the analysis of biomolecules

Waters™

Ultrahydrogel™

Base material: Polyhydroxymethacrylate
Particle sizes: 6 - 12 µm
Pore sizes: 120 - >2,000 Å & linear
Other features: For polar polymers

 

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