Results for Beads & Microspheres ( 170 )
- From: €813.00
This product contains Concanavalin A (ConA) conjugated to paramagnetic microspheres. ConA is a lectin (carbohydrate-binding protein) that binds specifically to mannosyl- and glucosyl-containing extracellular glycoproteins. The ConA magnetic beads are therefore useful to immobilize cells or nuclei presenting these glycans in their extracellular matrices.
- Ref: AR-S3-2From: €2,960.00
High capacity thiol reactive,S3TM acyl-rac capture Beads are one of Nanocs reactive agarose beads that can be used for reversible immobilization of biomolecules containing free thiol groups. S3TM thiol capture beads contain reactive pyridyl disulfide bonds that can react easily with free thiol groups under mild conditions. Reaction between thiol and pyridyl disulfide results a reversible dithio bond that can be cleaved by common dithio reducing agents such as DTT or TCEP. Compared to other thiol reactive beads, Nanocs S3TM Beads have exceptionally high thiol reaction capacity; Density of thiol reactive groups on S3 beads is 20-30 times more over conventional thiol activated agarose beads. S3 beads can be used in many applications, such as acyl-RAC protein assays; Protein pamitoylation resarch; Site-specific protein immobilizations; Protein purification, digestion and analysis.
- From: €216.00
Lipid coated beads are designed for use in protein pull-down experiments. Use to test for lipid binding of purified protein proteins in cell lysate or binding of radiolabeled <em>in vitro</em> translation products.LPA beads are composed of agarose with 10 nanomoles of bound Lyosphosphatidic Acid (LPA) per mL of beads enough for several protein binding experiments. Each 1 mL order of LPA Beads includes a small amount of control beads. Larger quantities of Control Beads are also available for purchase.Storage4 °C - do not freeze Powered by Bioz See more details on Bioz
- From: €216.00
Lipid coated beads are designed for use in protein pull-down experiments. Use to test for lipid binding of purified protein proteins in cell lysate or binding of radiolabeled in vitro translation products.PtdIns BeadsTM are composed of agarose with 10 nanomoles of bound PtdIns per mL of beads enough for several protein binding experiments. Each 1 mL order of Beads includes a small amount of control beads. Larger quantities of Control Beads are also available for purchase.Storage4 °C - do not freeze Powered by Bioz See more details on Bioz
- From: €216.00
Lipid coated Beads are designed for use in protein pull-down experiments. Use to test for lipid binding of purified protein proteins in cell lysate or binding of radiolabeled in vitro translation products.PI(3)P Beads are composed of agarose with 10 nanomoles of bound PI(3)P per mL of beads enough for several protein binding experiments. Each 1 mL order of Beads includes a small amount of control beads. Larger quantities of Control Beads are also available for purchase.Storage4 °C - do not freeze Powered by Bioz See more details on Bioz
- From: €216.00
Lipid coated beads are designed for use in protein pull-down experiments. Use to test for lipid binding of purified protein proteins in cell lysate or binding of radiolabeled in vitro translation products.PI(4)P Beads are composed of agarose with 10 nanomoles of bound PI(4)P per mL of beads enough for several protein binding experiments. Each 1 mL order of Beads includes a small amount of control beads. Larger quantities of Control Beads are also available for purchase.Storage4 °C - do not freeze Powered by Bioz See more details on Bioz
- From: €216.00
Lipid coated beads are designed for use in protein pull-down experiments. Use to test for lipid binding of purified protein proteins in cell lysate or binding of radiolabeled in vitro translation products.PI(5)P Beads are composed of agarose beads with 10 nanomoles of bound PI(5)P per mL of beads enough for several protein binding experiments. Each 1 mL order of Beads includes a small amount of control beads. Larger quantities of Control Beads are also available for purchase.Storage4 °C - do not freeze Powered by Bioz See more details on Bioz