NTA Agarose for Phosphoproteins & Phosphopeptides (R.)

$0.00$2,264.87

NTA Agarose for Phosphoproteins & Phosphopeptides (Resins)

Also Available FastSep™ High Performance NTA Cartridges

SKU OPTIONS PriceQuantity
ALNTA-25 Al-NTA Resin, 25ml aluminum-charged NTA resin (50% suspension, 50ml total volume) $180.15
spinner
ALNTA-100 Al-NTA Resin, 100ml aluminum-charged NTA resin (50% suspension, 200ml total volume) $565.37
spinner
ALNTA-500 Al-NTA Resin, 500ml aluminum-charged NTA resin (50% suspension, 1000ml total volume) $2,264.87
spinner
FENTA-25 Fe-NTA Resin, 25ml iron-charged NTA resin (50% suspension, 50ml total volume) $180.15
spinner
FENTA-100 Fe-NTA Resin, 100ml iron-charged NTA resin (50% suspension, 200ml total volume) $565.37
spinner
FENTA-500 Fe-NTA Resin, 500ml iron-charged NTA resin (50% suspension, 1000ml total volume) $2,264.87
spinner
SKU49553 XX-NTA Resin (Any size any metal ion charged NTA resin) Please inquire
spinner

Description

Description

FastSep(TM) high performance resins and chromatography cartridges

– Numerous ligand-metal ion combinations
– High affinity & high capacity
– Minimal non-specific binding & excellent purity
– Long spacer arms & minimal steric hindrance
– Low metal ion leaching & excellent stability
– Maintain high performance after multiple repeated use

Application

– For phosphoprotein & phosphopeptide purification
– Simply replace your existing Al3+, Ga3+, or Fe3+ chelated resin or cartridge, no optimization or protocol changes necessary
– Purification under native and denaturing conditions
– Suitable for small proteins, large protein complexes, and proteins with low expression rates

Purification of Phosphoproteins & Phosphopeptides

Immobilized Al3+, Ga3+, and Fe3+ are the most widely used ions for selective enrichment of phosphopeptides from complex proteolytic digest mixtures containing both phosphorylated and nonphosphorylated components. The most commonly used ligands are NTA and IDA. Depending on identity of proteins, impurity profile and purification conditions, different ligand-metal ion combinations can achieve different purification results.

How to choose different ligands in IMAC?

NTA and IDA are the two most widely used ligands in IMAC. NTA is a tetravalent ligand with coordination number 4 and therefore stronger coordination of metal ions, while IDA is a trivalent ligand with coordination number 3. Generally, NTA gives higher binding specificity and lower metal ion leaching, while IDA shows more non-specific binding and increased metal ion leaching. IDA can have higher metal ion loading density and usually requires much lower imidazole concentration in eluent.

As many factors can affect the choice of optimal ligand-metal ion combination, the best approach is to try different combinations and let your proteins decide. FastSep(TM) high performance resins and cartridges offer numerous ligand-metal ion combinations to meet various purification needs. FastSep(TM) high performance resins and chromatography cartridges are based on highly cross-linked agarose 6% beads which have structural characteristics that result in superb physical strength, excellent flow properties, low backpressure, and an open pore structure. FastSep(TM) high performance resins and chromatography cartridges allow operation at very high flow rates, resulting in increased throughput and rapid column cleaning between chromatography runs.

Specifications

Chromatography technique Phosphoprotein & Phosphopeptide purification
Matrix Highly cross-linked 6% beaded agarose
Active group Ni2+, Co2+, Cu2+, or Zn2+ charged Nitrilotriacetic Acid (NTA)
Active group density >40 umol/ml drained medium
Binding capacity >40 mg/ml drained medium
Spacer 17 atom stable and uncharged ether hydrophilic linkage
Bead geometry & size Spherical 50 to 150 um
Bead mean diameter d50v 90 um
Linear flow velocity <75 cm/h at 25 degC, HR 16/10 column, 5 cm bed height
Recommended linear flow rate <30 cm/h
Pressure/flow specification Base matrix 100-200 cm/h, pressure drop cm H2O/bed height = 15, bed height 10 cm, 5 cm i.d.
1ml Cartridge bed dimensions 7×25 mm
1ml Cartridge bed height 25 mm
1ml Cartridge bed volume 1 ml
1ml Cartridge column I.D 7 mm
5ml Cartridge bed dimensions 16×25 mm
5ml Cartridge bed height  25 mm
5ml Cartridge bed volume 5 ml
5ml Cartridge column I.D 16 mm
Maximum cartridge flow rate 5 ml/min (1 ml cartridge) or 20 ml/min (5ml cartridge)
Recommended cartridge flow rate 1 ml/min (1 ml cartridge) or 5 ml/min (5 ml cartridge)
Maximum pressure during operation 5 bar [0.5 MPa] (70 psi)
pH Stability working range 3 to 13
pH Stability cleaning in place (cip) 2 to 14
Chemical stability Stable to commonly used aqueous solutions. Can be used with non-ionic detergents, denaturing solvents, e.g. 8 M urea and 6 M guanidine hydrochloride, Stable in organic solvents, e.g. 50% methylformamide and 50% dioxane.
Storage 20% ethanol
Storage temperature 2 to 8 degC

Additional information

OPTIONS

Al-NTA Resin, 25ml aluminum-charged NTA resin (50% suspension, 50ml total volume), Al-NTA Resin, 100ml aluminum-charged NTA resin (50% suspension, 200ml total volume), Al-NTA Resin, 500ml aluminum-charged NTA resin (50% suspension, 1000ml total volume), Fe-NTA Resin, 25ml iron-charged NTA resin (50% suspension, 50ml total volume), Fe-NTA Resin, 100ml iron-charged NTA resin (50% suspension, 200ml total volume), Fe-NTA Resin, 500ml iron-charged NTA resin (50% suspension, 1000ml total volume), XX-NTA Resin (Any size any metal ion charged NTA resin)

Reviews

There are no reviews yet.


Be the first to review “NTA Agarose for Phosphoproteins & Phosphopeptides (R.)”

MSDS & Certificates

The Q&A for this product will be available soon.