Chromatography Reagents

Hexatriacontane is a long-chain alkane that serves as a unique chromatography reagent, notable for its hydrophobic characteristics and ability to interact with non-polar analytes. Its extended carbon chain enhances van der Waals forces, promoting effective retention in non-polar stationary phases. This compound's high molecular weight contributes to its stability, allowing for consistent performance in separation processes. Additionally, its low volatility aids in minimizing sample loss during analysis, ensuring reliable results.

Octanal 2,4-dinitrophenylhydrazone is a specialized chromatography reagent characterized by its ability to form stable hydrazone derivatives with carbonyl compounds. This compound exhibits strong hydrogen bonding and π-π stacking interactions, enhancing selectivity during separation. Its distinct chromophoric properties allow for effective UV detection, while its moderate polarity facilitates interactions with various stationary phases, optimizing resolution in complex mixtures. The reagent's unique reactivity and stability make it a valuable tool in analytical chemistry.

Cellulose Sulfate Gel is a specialized chromatography reagent characterized by its unique ability to interact with various biomolecules through ionic and hydrophobic interactions. Its sulfate groups impart a negative charge, facilitating selective binding with positively charged analytes. The gel's porous structure enhances mass transfer, allowing for efficient separation. Additionally, its high surface area and tunable properties enable tailored applications in diverse chromatographic techniques, optimizing resolution and throughput.

Spinosad serves as a distinctive chromatography reagent, notable for its ability to engage in specific molecular interactions due to its complex structure. It exhibits unique hydrophobic characteristics that enhance retention and separation of target compounds. The compound's stability under varying pH conditions allows for consistent performance across different chromatographic environments. Its selective affinity for certain analytes enables precise resolution, making it a valuable tool in analytical applications.

1-Aminohexylamide gel is a specialized chromatography reagent characterized by its unique ability to form strong hydrogen bonds and ionic interactions with polar analytes. This gel exhibits a high surface area, promoting effective adsorption and enhanced separation efficiency. Its tunable properties allow for optimization in various chromatographic techniques, facilitating the selective elution of compounds. The gel's robust structure ensures minimal leaching, maintaining integrity during extended use.

SILREST is a versatile chromatography reagent known for its exceptional selectivity and affinity for a wide range of analytes. Its unique functional groups enable specific interactions, such as π-π stacking and dipole-dipole interactions, enhancing separation precision. The reagent's tailored surface chemistry allows for fine-tuning of retention times, while its stability under varying conditions ensures consistent performance. SILREST's ability to facilitate complexation with metal ions further broadens its application in diverse chromatographic methods.

Anti-c-Myc Agarose is a specialized chromatography reagent designed for the selective capture of c-Myc proteins. Its unique agarose matrix provides a high surface area for binding, while specific antibody conjugation enables targeted interactions through affinity chromatography. This reagent exhibits robust stability and low nonspecific binding, ensuring high purity in eluted fractions. Its optimized pore structure enhances flow dynamics, facilitating efficient separation and analysis of protein complexes.

Anti-c-Myc Magnetic Beads are engineered for the precise isolation of c-Myc proteins through magnetic affinity chromatography. The beads feature a high-density magnetic core that allows for rapid separation and retrieval, enhancing workflow efficiency. Their surface is functionalized with specific antibodies, promoting strong, selective binding to c-Myc while minimizing nonspecific interactions. This design ensures consistent performance and reproducibility in protein purification applications.

Anti-HA Magnetic Beads are specialized tools designed for the effective capture of HA-tagged proteins via magnetic affinity chromatography. These beads are coated with high-affinity antibodies that specifically recognize the HA epitope, facilitating robust binding and reducing background noise. Their unique magnetic properties enable swift separation from complex mixtures, ensuring high purity and yield. This innovative design enhances the reliability and efficiency of protein isolation processes.

ChIP-Grade Protein A/G Plus Agarose is a versatile chromatography reagent optimized for immunoprecipitation applications. It combines the binding capabilities of Protein A and Protein G, allowing for the efficient capture of a wide range of immunoglobulins from various species. The agarose matrix provides a stable and inert environment, minimizing non-specific interactions. Its high binding capacity and low nonspecific adsorption enhance the specificity and yield of target protein isolation, making it ideal for complex sample analysis.