Abstract: A sample holding device and related method designed to facilitate inexpensive and reliable testing of materials or specimens with beam diffraction and scattering techniques. The device features a sample receptacle that is made out of a polymer, cellulose, polymeric material, or cellulosic material. The flexible nature and low melting point of the sample receptacle allows for reliable sealing against the vacuum or gaseous environment used for beam diffraction or scattering analysis. The sample holding device can be considered disposable because of its low cost, eliminating the need for complex or unreliable cleaning procedures.

Abstract: The invention provides methods to assess protein stability and to obtain sizing information. In one aspect, the screen comprises a 94 detergent panel and a series of MWCO filtered microplates. A protein of interest is bound to an affinity matrix and aliquoted into a 96-well microplate. Wells containing the immobilized protein are washed in the new detergent and then eluted in the new detergent into a collection plate. Protein not stable in the new detergent is precipitated on the resin and not present in the elutions. Half of the elution is passed through a high (i.e., 300 kDa) MWCO microplate and the other half through a low (i.e., 100 kDa) MWCO microplate. Elutions from the microplates are spotted on a nitrocellulose membrane, visualized by Western analysis (or by some other method), and quantified. The high MWCO provides stability readout and the ratio of low/high kDa provides sizing information.

Abstract: The invention provides methods to assess protein stability and to obtain sizing information. In one aspect, the screen comprises a 94 detergent panel and a series of MWCO filtered microplates. A protein of interest is bound to an affinity matrix and aliquoted into a 96-well microplate. Wells containing the immobilized protein are washed in the new detergent and then eluted in the new detergent into a collection plate. Protein not stable in the new detergent is precipitated on the resin and not present in the elutions. Half of the elution is passed through a high (i.e., 300 kDa) MWCO microplate and the other half through a low (i.e., 100 kDa) MWCO microplate. Elutions from the microplates are spotted on a nitrocellulose membrane, visualized by Western analysis (or by some other method), and quantified. The high MWCO provides stability readout and the ratio of low/high kDa provides sizing information.

Abstract: A sample holding device and related method designed to facilitate inexpensive and reliable testing of materials or specimens with beam diffraction and scattering techniques. The device features a sample receptacle that is made out of a polymer, cellulose, polymeric material, or cellulosic material. The flexible nature and low melting point of the sample receptacle allows for reliable sealing against the vacuum or gaseous environment used for beam diffraction or scattering analysis. The sample holding device can be considered disposable because of its low cost, eliminating the need for complex or unreliable cleaning procedures.

Abstract: The invention provides methods to assess protein stability and to obtain sizing information. In one aspect, the screen comprises a 94 detergent panel and a series of MWCO filtered microplates. A protein of interest is bound to an affinity matrix and aliquoted into a 96-well microplate. Wells containing the immobilized protein are washed in the new detergent and then eluted in the new detergent into a collection plate. Protein not stable in the new detergent is precipitated on the resin and not present in the elutions. Half of the elution is passed through a high (i.e., 300 kDa) MWCO microplate and the other half through a low (i.e., 100 kDa) MWCO microplate. Elutions from the microplates are spotted on a nitrocellulose membrane, visualized by Western analysis (or by some other method), and quantified. The high MWCO provides stability readout and the ratio of low/high kDa provides sizing information.

Abstract: The present invention comprises compositions and methods useful as a system for efficiently determining conditions that result in the formation of crystals of membrane proteins from solutions containing a membrane protein in a purified and soluble state. The system is comprised of two primary components, a solubility screen and a crystallization screen. Each component is a set of solutions. The present invention further provides a kit comprising solutions of the invention and an instructional material for the use thereof.