UTHSCSA Center for Surface Plasmon Resonance (CSPR)

Sensor chips

CHIPS and ORDER CODE

APPLICATON AREAS

REGENERATION

AGENT

CONCENTRATION

SPECIFICATIONS

CM5
BR-1000-14 (pkg of 3)

For quantitative studies involving proteins, carbohydrates, lipids and nucleic acids

acetonitrile	20%
DMSO	8%
DTE in HBS-buffer	10 mM
EDTA	0.35 M
Ethanol	70%
Ethanolamine	100 mM
Ethylene glycol in HBS-buffer	50%
Formamide	40%
Formic acid	20%
Glycine pH 2.3	100 mM
HCl	100 mM
Imidazole	300 mM
MgCl₂	4 M
NaOH	100 mM
NaCl	1 M
SDS	0.5%
Surfactant P20	5%
Urea	8 M

None specified

SA
BR-1000-32 (pkg of 3)

Sensor chip SA is designed to bind biotinylated molecules as an alternative to other ligand coupling methods

acetonitrile	20%
DMSO	8%
DTE in HBS-buffer	10 mM
Ethanol	70 %
Ethanolamine	100 mM
Ethylene glycol in HBS-buffer	50%
Formamide	40%
Formic acid	20%
HCl	100 mM
MgCl₂	4 M
NaOH	100 mM
SDS	0.5%
Urea	8 M

Surface chemistry	streptavidin covalently immobilized on carboxymethylated dextran matrix
Binding capacity	>=1800 RU of a biotinylated oligonucleotide
Binding specificity	biotin
Binding reproducibility	CV < 10% within lot

NTA
BR-1000-34 (pkg of 3)

Sensor chip NTA is designed to bind histidine-tagged molecules for interaction analysis. Immobilization of ligands via histidine-tages provides a valuable and convenient methodological interface for BIA analysis and other laboratory techniques that rely on His-tags.

No specific regeneration solutions given

Surface chemistry	NTA covalently immobolized on a carboxymethylated dextran matrix x
Binding capacity	>=135 RU of peptide His₆ (hexa-histidine)
Binding specificity	Metal chelating compounds
Binding reproducibility	CV < 10% within lot

HPA
BR-1000-30 (pkg of 3)

The surface of sensor chip HPA is composed of long-chain alkanethiol molecules that form a flat, quasi-crystalline hydrophobic layer, It is designed to facilitate liposome mediated hydrophobic adsorption of a user-defined polar lipid monolayer. In addition to the components essential for the formation of the liposome, other membrane bound molecules can also be incorporated. These molecules remain embedded in the lipid monolayer after the liposome mediated hydrophobic adsorption process is completed and give a particular binding specficity to the surface of sensor chip HPA. A complete coverage of the surface with a polar lipid monolayer will practically eliminate non-specific hydrophobic binding of proteins and provide a surface suitable for interaction studies performed in an aqueous, detergent-free environment.

No specific regeneration solutions given

No specifications given

Department of Biochemistry | Graduate School of Biomedical Sciences | UTHSCSA

UTHSCSA | Graduate School of Biomedical Sciences | Department of Biochemistry | CTRC | Research

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UTHSCSA Center for Surface Plasmon Resonance (CSPR)

Sensor chips