Results for Beads & Microspheres ( 179 )
- From: €1,120.00
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.Lipid Beads are composed of agarose with 10 nanomoles of bound lipid per mL of beads enough for several protein binding experiments. The sample pack consists of 0.1 mL each of all eight PIP beads and control beads. Larger quantities of control beads are also available for purchase.Listed below are the beads contained in sample pack:PtdIns BeadsPI(3)P BeadsPI(4)P BeadsPI(5)P BeadsPI(3 4)P2 BeadsPI(3 5)P2 BeadsPI(4 5)P2 BeadPI(3 4 5)P3 BeadsControl BeadsStorage4 °C - do not freeze Powered by Bioz See more details on Bioz
- From: €1,120.00
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.Lipid Beads are composed of agarose with 10 nanomoles of bound Lipid per mL of beads enough for several protein binding experiments. The sample pack consists of 0.1 mL each of 8 Sphingo beads and control beads. Larger quantities of control beads are also available for purchase.Listed below are the 9 beads contained in the sample pack:Control BeadsCeramide BeadsLBPA BeadsSphingomyelin BeadsLyosphosphatidic Acid (LPA) BeadsSphingosine BeadsSphingosine 1-phosphate (S1P) BeadsCardiolipin BeadsPhosphatidylethanol (PEth) BeadsStorage4 °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 4)P2 Beads are composed of agarose with 10 nanomoles of bound PI(3 4)P2 per mL of beads enough for several protein binding experiment. 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 5)P2 Beads are composed of agarose with 10 nanomoles of bound PI(3 5)P2 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
- 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 5)P2 Beads are composed of agarose with 10 nanomoles of bound PI(4 5)P2 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 freeze1) Gupta S. J. C. Fanzo et al. (2003). "T cell receptor engagement leads to the recruitment of IBP a novel guanine nucleotide exchange factor to the immunological synapse." J Biol Chem 278(44): 43541-9.2) Kawahara T. and J. D. Lambeth (2008). "Phosphatidylinositol (4 5)-bisphosphate modulates Nox5 localization via an N-terminal polybasic region." Mol Biol Cell 19(10): 4020-31.3) Kim S. K. H. Kim et al. (2011). "Phosphatidylinositol phosphates directly bind to neurofilament li
- 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.Lactosylceramide Beads are composed of agarose with 10 nanomoles of bound Lactosylceramide (LacCer) per 1ml of beads enough for several protein binding experiments. Each 1 mL order of Lactosylceramide 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.Phosphatidylcholine Beads are composed of agarose and are bound with 10 nanomoles of Phosphatidylcholine (PC) per 1 mL of beads enough for several protein binding experiments. Each 1 mL order of Phosphatidylcholine 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.Phosphatidylethanolamine (PE) Beads are composed of agarose and are bound with 10 nanomoles of Phosphatidylethanolamine (PE) per 1 mL of beads enough for several protein binding experiments. Each 1 mL order of Phosphatidylethanolamine (PE) Beads includes a small amount of Control Beads (P-B000). 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.Phosphatidylserine Beads are composed of agarose with 10 nanomoles of bound phosphatidylserine (PS) per 1ml of beads enough for several protein binding experiments. Each 1 mL order of Phosphatidylserine 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