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Centrifugal Devices

Facilitate pure product with > 90% recoveries in just minutes

Product: Nanosep

 

Accelerate sample processing

 

Concentrate and purify samples with starting volumes of < 50 µL to 60 mL.

 

Maximize sample recovery

 

Obtain high flow rates and low non-specific protein and nucleic acid binding.

 

Add versatility

 

Available in various membrane types including low-binding Bio-Inert® (modified nylon), Supor® (polyethersulfone), and GHP (polypropylene) microfiltration membranes, as well as Omega™ (modified polyethersulfone) ultrafiltration membrane in a variety of MWCOs.

 

Prevent solution bypass

 

Membrane seals stop solution leakage, minimizing sample loss.

 

Easy visual identification

 

Devices are color-coded for a wide variety of membranes, ranging from 1 kD to 0.45 µm.

 

Applications

 

Centrifugal devices can replace traditional separation techniques, such as column chromatography, preparative electrophoresis, alcohol or salt precipitation, dialysis, and gradient centrifugation, when performing the following:

 

  1. Protein or nucleic acid concentration
  2. Desalting
  3. Buffer exchange
  4. Deproteination of biological samples
  5. Fractionation of protein mixtures
  6. Separation of primers from PCR products
  7. Separation of labeled nucleic acids or proteins from unincorporated nucleotides
  8. Virus concentration or removal
  9. Clarification of cell lysates and tissue homogenates

 

How to Choose the Best Centrifugal Ultrafiltration Device

 

Pall’s centrifugal devices simplify many common nucleic acid and protein sample preparation procedures. These devices provide efficient concentration and salt removal of samples from 50 µL to 60 mL in just minutes. Choose from membranes that have been developed to assure low non-specific biomolecule binding and typically provide > 90% recovery of target biomolecules.

 

Ultrafiltration Method

 

Ultrafiltration is a membrane separation technique used to separate extremely small particles and dissolved molecules in fluids. The primary basis for separation is molecular size, but factors such as molecule shape and charge also play a role. Molecules larger than the membrane pores will be retained, but not bound, at the surface of the membrane (not in the polymer matrix as they are retained in microporous membranes) and concentrated during the ultrafiltration process.

 

Compared to non-membrane processes (chromatography, dialysis, solvent extraction, or centrifugation), ultrafiltration:

 

  • Is gentler to the molecules being processed.
  • Does not require an organic extraction which may denature labile proteins.
  • Maintains the ionic and pH conditions.
  • Is fast and relatively inexpensive.
  • Can be performed at low temperatures (for example, in the cold room).
  • Is very efficient and can simultaneously concentrate and purify molecules.

 

The retention properties of ultrafiltration membranes are expressed as Molecular Weight Cut-off (MWCO) and measured in Kilodaltons (kD). This value refers to the approximate molecular weight of a dilute globular solute (i.e., a typical protein) which is 90% retained by the membrane. However, a molecule’s shape can have a direct effect on its retention by a membrane. For example, linear molecules like DNA may find their way through pores that will retain a globular species of the same molecular weight.

 

There are three generic applications for ultrafiltration:

 

1. Concentration. Ultrafiltration is a very convenient method for the concentration of dilute protein or DNA/RNA samples. It is gentle (does not shear DNA as large as 100 Kb or cause loss of enzymatic activity in proteins) and very efficient (typically > 90% recovery). The Nanosep and Microsep Concentration Selection Guide explains how to preselect the final concentration factor or the final elution volume. 


2. Desalting and Buffer Exchange (Diafiltration). Ultrafiltration provides a convenient and efficient way to remove or exchange salts, remove detergents, separate free from bound molecules, remove low molecular weight components, or rapidly change the ionic or pH environment.


3. Fractionation. Ultrafiltration will not accomplish a sharp separation of two molecules with similar molecular weights. The molecules to be separated should differ by at least one order of magnitude (10X) in size for effective separation. Fractionation using ultrafiltration is effective in applications, such as the preparation of protein-free filtrates, the separation of unbound or unincorporated label from DNA and protein samples, and the purification of PCR products from synthesis reactions.

 

Membrane Selection

 

Based on Application These membranes meet the challenges of a wide range of applications with superior performance and stability: Omega (modified polyethersulfone) ultrafiltration membrane for rapid concentrating and desalting. Bio-Inert (modified nylon), Supor (polyethersulfone), and GHP (hydrophilic polypropylene) microfiltration membranes for removing particulate (such as gel debris).

 

Choosing the Correct MWCO

 

Once sample volume is determined, the next step is to select the appropriate MWCO (for ultrafiltration) or pore size (for microfiltration). MWCOs are nominal ratings based on the ability to retain > 90% of a solute of a known molecular weight (in Kilodaltons). For proteins, it is recommended that an MWCO be selected that is three to six times smaller than the molecular weight of the solute being retained. If flow rate is a consideration, choose a membrane with an MWCO at the lower end of this range (3X); if the main concern is retention, choose a tighter membrane (6X). It is important to recognize that retention of a molecule by an ultrafiltration membrane is determined by a variety of factors, among which its molecular weight serves only as a general indicator.

 

Therefore, choosing the appropriate MWCO for a specific application requires the consideration of a number of factors including molecular shape, electrical charge, sample concentration, sample composition, and operating conditions.

 

Because different manufacturers use different molecules to define the MWCO of their membranes, it is important to perform pilot experiments to verify membrane performance in a particular application.

 

Common Variables that Increase Molecule Passage:

 

  • Sample concentration higher than 1 mg/mL.
  • Buffer conditions that permit molecules to aggregate.
  • Presence of other molecules that increase sample concentration.
  • Lower transmembrane pressure (in the case of centrifugal concentrators, lower g-force).
  • Adsorption to the membrane or device.
  • Low temperature (4 °C versus 24 °C).

 

 

Buy Centrifugal Devices Online

Nanosep® and Nanosep MF Centrifugal Devices

Pall’s Nanosep® and Nanosep MF Centrifugal Devices provide simple, reliable concentrating and desalting of 50 to 500 µL samples. 


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23 Part numbers available

Microsep™ Advance Centrifugal Devices

Pall’s Microsep™ Advance Centrifugal Devices provide precise, quick recovery of microliter volumes


Purchase Online

14 Part numbers available

Macrosep® Advance Centrifugal Devices

Pall’s Macrosep® Advance Centrifugal Devices quickly concentrates up to 20 mL of biological sample. 


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19 Part numbers available

Jumbosep™ Centrifugal Devices

Pall’s Jumbosep™ Centrifugal Devices provide convenient and reliable concentration, purification, and diafiltration of 20 to 60 mL biological samples


Purchase Online

14 Part numbers available

pall centrifugal devices

Literature For Centrifugal Devices

  • Fast and Efficient Elution of Proteins from Polyacrylamide Gels Using Nanosep® Centrifugal Devices

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