Methods and kits for measuring levels of von Willebrand factor function in a sample without using a platelet aggregation agonist, such as ristocetin, comprising recombinant glycoprotein Ib having a combination of G233V, D235Y and M239V mutations and an agent to detect a complex between the recombinant glycoprotein Ib and von Willebrand factor.

Methods and kits for measuring levels of von Willebrand factor function in a sample without using a platelet aggregation agonist, such as ristocetin, comprising recombinant glycoprotein Ib having a combination of G233V, D235Y and M239V mutations and an agent to detect a complex between the recombinant glycoprotein Ib and von Willebrand factor.

The present application provides a method of producing a liquid array of ligand (such as glycan) modified bacteriophage where the ligand modification is encoded genetically within the bacteriophage genome. This method will allow for the determination of the ligand binding profile of biomacromolecules and cells. Furthermore the method allows the elucidation of ligand-protein interactions where ligand binding is co-operative and synergistic.

The present application provides a method of producing a liquid array of ligand (such as glycan) modified bacteriophage where the ligand modification is encoded genetically within the bacteriophage genome. This method will allow for the determination of the ligand binding profile of biomacromolecules and cells. Furthermore the method allows the elucidation of ligand-protein interactions where ligand binding is co-operative and synergistic.

The present invention relates to a method of immobilizing a cell on a support, the method comprising a) providing a compound or salt thereof comprising, preferably consisting of, one or more hydrophobic domains attached to a hydrophilic domain, wherein the one or more hydrophobic domains are covalently bound to said hydrophilic domain, and wherein the one or more hydrophobic domains each comprise a linear lipid, a steroid or a hydrophobic vitamin, and wherein the hydrophilic domain comprises a polyethylene glycol (PEG) moiety, and wherein the compound comprises a linking group; b) contacting a cell with the compound under conditions allowing the interaction of the compound with the membrane of the cell, thereby immobilizing the linking group on the surface of the cell; and c) contacting the linking group immobilized on the cell with a support capable of binding the linking group, thereby immobilizing the cell on the support.

Biotin derivatives, methods of using the biotin derivatives and kits comprising the biotin derivatives.

A microfluidic array supporting a lipid bilayer assembly on which membrane proteins can be assembled is described. The array is formed from a hydrophilic polymeric substrate or metal substrate comprising a planar surface with a plurality of individual spherical depressions formed therein. Each of the depressions are configured to have a diameter greater than 1 m and containing an aqueous solution. Across each of the depressions is provided a lipid layer. Each of the plurality of individual depressions comprise arcuate side walls extending downwardly into the substrate from the planar surface.

A microfluidic array supporting a lipid bilayer assembly on which membrane proteins can be assembled is described. The array is formed from a hydrophilic polymeric substrate or metal substrate comprising a planar surface with a plurality of individual spherical depressions formed therein. Each of the depressions are configured to have a diameter greater than 1 m and containing an aqueous solution. Across each of the depressions is provided a lipid layer. Each of the plurality of individual depressions comprise arcuate side walls extending downwardly into the substrate from the planar surface.

Disclosed herein are expression vectors which display a passenger polypeptide on the outer surface of a biological entity. As disclosed herein the displayed passenger polypeptide is capable of interacting or binding with a given ligand. Also disclosed are methods of making and using the expression vectors. N/C terminal fusion expression vectors and methods of making and using are also disclosed.

Disclosed herein are expression vectors which display a passenger polypeptide on the outer surface of a biological entity. As disclosed herein the displayed passenger polypeptide is capable of interacting or binding with a given ligand. Also disclosed are methods of making and using the expression vectors. N/C terminal fusion expression vectors and methods of making and using are also disclosed.