Chromatography Reagents

GST Agarose is a specialized chromatography reagent designed for the purification of GST-tagged proteins. Its unique affinity for glutathione enables selective binding, facilitating efficient protein isolation. The agarose matrix offers a robust and stable support, ensuring minimal leaching and maintaining structural integrity during elution. With its optimized pore size, GST Agarose enhances mass transfer and reaction kinetics, promoting rapid binding and recovery of target proteins while reducing background noise in complex mixtures.

HA Epitope Tag Antibody, Agarose conjugate (2-2.2.14) is a highly specialized chromatography reagent that selectively binds to HA-tagged proteins through specific antibody-antigen interactions. The agarose matrix provides a stable and durable platform, ensuring effective separation and minimal nonspecific binding. Its tailored pore structure enhances the accessibility of target proteins, optimizing binding kinetics and improving overall yield during purification processes.

Protein L Agarose is a specialized chromatography reagent designed for the affinity purification of immunoglobulins. It features a unique binding mechanism that targets the Fc region of antibodies, facilitating high specificity and efficiency in protein isolation. The agarose matrix is engineered for optimal flow characteristics, promoting rapid mass transfer and minimizing backpressure during chromatography. Its robust structure ensures consistent performance across multiple purification cycles, enhancing reproducibility in experimental setups.

Recombinant Protein G Agarose is an advanced chromatography reagent tailored for the selective capture of immunoglobulins. It utilizes a high-affinity binding site that interacts specifically with the Fc region of antibodies, ensuring precise isolation. The agarose matrix is optimized for enhanced stability and flow dynamics, allowing for efficient separation and reduced clogging. Its unique design supports high throughput and reproducibility, making it ideal for complex protein purification tasks.

Disperse Orange 11 is a vibrant dye utilized in chromatography for its unique affinity towards non-polar compounds. Its molecular structure facilitates strong π-π stacking interactions and hydrophobic interactions, enhancing separation efficiency. The dye exhibits distinct partitioning behavior in various solvents, allowing for selective retention and elution of target analytes. Its stability under varying pH conditions further contributes to its effectiveness in complex mixture analysis, ensuring reliable results.

D-Ala-D-Ala serves as a specialized chromatography reagent, characterized by its ability to form strong hydrogen bonds and ionic interactions with target molecules. This peptide's unique conformation enhances selectivity in binding, facilitating the separation of analytes based on size and charge. Its stability in diverse solvent systems allows for reproducible retention times, while its specific affinity for certain functional groups aids in the resolution of complex mixtures, optimizing analytical outcomes.

Ammonium trifluoroacetate is a versatile chromatography reagent known for its ability to enhance ionization efficiency in mass spectrometry. Its trifluoroacetate group imparts strong electronegative characteristics, promoting unique ionic interactions with analytes. This compound facilitates the formation of stable adducts, improving separation and detection of polar compounds. Additionally, its solubility in various solvents aids in optimizing mobile phase compositions, enhancing overall chromatographic performance.

1-Octanesulfonic acid sodium salt serves as an effective chromatography reagent, particularly in ion-pair chromatography. Its long hydrophobic octane chain enhances retention of non-polar analytes, while the sulfonate group provides strong ionic interactions with cationic species. This dual functionality allows for improved selectivity and resolution in complex mixtures. Additionally, its high solubility in aqueous and organic solvents makes it a versatile choice for optimizing mobile phases in various chromatographic techniques.

1,3,6-Tri-O-galloyl-β-D-glucose is a unique chromatography reagent known for its ability to form stable complexes with metal ions and polar analytes. Its multiple galloyl groups enhance hydrogen bonding and π-π stacking interactions, facilitating selective retention and separation of target compounds. The compound's solubility in various solvents allows for flexibility in method development, while its structural diversity contributes to distinct retention behaviors in chromatographic applications.

Tetrapropylammonium bisulfate serves as an effective chromatography reagent, characterized by its ability to enhance ion-pairing interactions. The quaternary ammonium structure promotes strong electrostatic interactions with negatively charged analytes, improving separation efficiency. Its unique solubility profile in polar and non-polar solvents allows for versatile application across different chromatographic techniques. Additionally, the compound's ability to modulate retention times through ionic strength adjustments makes it a valuable tool in optimizing separation processes.