Abstract: The invention relates to the field of biochemistry, biophysical chemistry, molecular biology, structural biology, immunology, cellular biology and medicine. More in particular, the invention relates to the capability (or property) of chaperones to bind a crossbeta structure. Even more in particular, the invention relates to extracellular chaperones such as BiP, haptoglobin, hsp72 or clusterin. The present invention provides the insight that a chaperone molecule and more in specific an extra-cellular chaperone molecule (such as for example BiP, clusterin, hsp72 or haptoglobin) is capable of interacting with a crossbeta structure and/or a molecule comprising a crossbeta structure and/or a molecule comprising a crossbeta structure precursor. Based on this insight, the present inventors have developed multiple methods and means.

Abstract: Methods and devices are provided for reducing the concentration of low molecular weight compounds in a biological composition containing cells while substantially maintaining a desired biological activity of the biological composition. The device comprises highly porous adsorbent particles, and the adsorbent particles are immobilized by an inert matrix. The matrix containing the particles is contained in a housing, and the particles range in diameter from about 100 ?m to about 1500 ?m. The device can be used to adsorb and remove a pathogen-inactivating compounds from a biological composition such as a blood product.

Abstract: The present invention discloses characterization of interactions between ligands and Hsp90 proteins, including GRP94, wherein ligand binding to the N-terminal nucleotide binding domain of GRP94 elicits a conformational change that converts the GRP94 from an inactive to an active conformation, and wherein the chaperone and peptide-binding activities of the GRP94 are markedly stimulated. Also disclosed are purification, screening, and therapeutic methods pertaining to the biological activity of GRP94, and in some instances HSP90, based upon the characterization of ligand interactions of Hsp90 peptide-binding proteins, including GRP94.

Abstract: Use of an affinity adsorbent for the separation, removal, isolation, purification, characterisation, identification or quantification of a proteinaceous material, wherein the affinity adsorbent is a compound of formula (III), wherein R1 is H, alkyl, aryl, hydroxyalkyl, cyciohexyl, amino or a heterocyclic group which is optionally substituted with one or more of alkyl, aryl, alkoxy, aryloxy, acyloxy, acylamino, amino, OH, CO2H, sulphonyl, carbamoyl, sulphamoyl, alkylsuiphonyl and halogen; one X is N and the other is N, C—Cl or C—CN; Y is O, S or NR2; Z is O, S or NR3; R2 and R3 are each H, alkyl, hydroxyalkyl, benzyl or ?-phenylethyl; Q is benzene, naphthalene, benzthiazole, benzoxazole, 1-phenylpyrazole, indazoie or benzimidazoie; R4, R5 and R6 are each H, OH, alkyl, aryl, heterocyclic, alkoxy, aryloxy, amino, acyloxy, acylamino, CO2H, sulphonic acid, carbamoyl, suiphamoyl, alkylsulphonyl or halogen, or two or more of R4, R5 and R6 are linked to form a cyclic structure; U and V are the same or different C1-10

Abstract: A method of separating a fluorescent protein from a sample containing a plurality of proteins containing the fluorescent protein is provided.

Abstract: Multi-layered macromolecules wherein the layers are covalently bonded together and wherein the macromolecules are covalently bonded to solid particulate substrates, methods for the preparation of such compositions, and methods for their uses in a multitude of end use applications ranging from the purification of waste chemical and metal process streams to the separation and identification of proteins, peptides, and oligionucleotides.

Abstract: The invention provides, in one aspect, compositions for delivering a bioactive metal ion to a mammal, the compositions comprising (a) an effective amount of a source of the bioactive metal ion, (b) a phosphoprotein preparation obtained by partially cross linking a partial hydrolysate of casein or a caseinate, and (c) one or more physiologically acceptable diluents or carriers. Also provided are compositions for remineralising tooth enamel and/or for treating or preventing dental caries, tooth erosion, dentinal hypersensitivity or gingivitis in a mammal, wherein the compositions comprise an effective amount of such a phosphoprotein preparation, in combination with one or more carriers or diluents. In related aspects, the invention provides methods of using such compositions. Also provided are novel phosphoprotein preparations suitable for use in such compositions and methods.

Abstract: The present invention relates to a process for purifying fibrinogen, which comprises one or more process steps in which one or more contaminating proteins are depleted by negative chromatography and/or negative adsorption using cation exchanger, hydrophobic gel and/or dye gel. In addition, the invention relates to the fibrinogen which is obtained by the process of the invention and which is notable for improved stability, and to the production and use of pharmaceutical preparations comprising this fibrinogen.

Abstract: Use of modified metal oxides for the purification and enrichment of negatively charged biomolecules such as peptides, proteins, DNA, RNA, Lipids, carbohydrates, glyco molecules. These metal oxides are modified in such a way that the density of the Lewis acid group is reduced due to modification.

Abstract: A microfluidic device for separating a fluid sample into components is disclosed. The microfluidic device is used for assaying proteins for the purpose of identification of protein species. The microfluidic device employs integrated features such as a sample well for holding a protein sample, a thermal control device for heating the protein sample in the sample well, and a protein separation region in fluid communication with the sample well. Also disclosed is a method for assaying a protein sample.

Abstract: The present invention provides a method for industrial-scale protein separation by reverse phase chromatography by use of a buffer system and an additional salt.

Abstract: A method is provided for separating a protein from one or more other proteins using hydroxyapatite chromatography in which the protein does not bind to hydroxyapatite but the other protein(s) does. In some embodiments, a second protein affixed to a solid support has been used previously to purify the protein by affinity chromatography, and small amounts of the second protein are introduced in the sample during this process. The protein being purified can comprise at least one constant antibody immunoglobulin domain. The second protein can bind to proteins comprising such a domain.

Abstract: For the separation, removal, isolation, purification, characterisation, identification or quantification of plasminogen or a protein that is a plasminogen analogue, an affinity adsorbent is used that is a compound of formula (II) wherein one X is N and the other is N, C—Cl or C—CN; A is a support matrix, optionally linked to the triazine ring by a spacer; Z is O, S or N—R and R is H, C1-6 alkyl, C1-6 hydroxyalkyl, benzyl or &bgr;-phenylethyl; B is an optionally substituted hydrocarbon linkage containing from 1 to 10 carbon atoms; D is H, OH or a primary amino, secondary amino, tertiary amino, quaternary ammonium, imidazole, guanidino or amidino group; or B-D is —CHCOOH—(CH2)3-4—NH2; and q is 2 to 6.

Abstract: The present invention provides a new method for isolation and/or purification of immunoglobulins from a solution containing one or more immunoglobulins using a solid phase matrix represented by the formula: M-SP-L, wherein M is designates a matrix backbone, SP designates a spacer and L designates a substituted benzimidazole ligand.

Abstract: The present invention provides methods and compositions relating to vertebrate AMIGO, AMIGO2, AMIGO3, collectively vertebrate AMIGO polypeptides, related nucleic acids, and polypeptide domains thereof having vertebrate AMIGO-specific structure and activity, and modulators of vertebrate AMIGO function.

Abstract: Methods are provided for isolation of chromatin fractions of nucleoproteins containing histone H1, H2A, H2B, H3 and H4 proteins and/or histone H1, H2A, H2B, H3 and/or H4 proteins, from intact cells. The methods preserve original patterns of covalent modifications of the histone proteins.

Abstract: The present invention relates to a method for immobilizing a protein in a sample, which could not easily be immobilized by the conventional immobilization method, to a solid-phase; a method for quantitative determination of protein wherein an effect of inhibitory substance coexisting in a sample prepared using the immobilization method can be reduced; and a rapid and highly precise method for detecting an abnormal PrP and a method for determining BSE using the immobilization method as compared with the conventional method.

Abstract: A method for the separation and assay of phosphorylated peptides or proteins from complex mixtures of proteins and peptides is described. The method uses a diazo moiety linked by an organic group to a substrate. Kits for performing the assay are also described. The method and kits are particularly useful for detecting changes in phosphorylates produced in living cells.

Abstract: The invention provides columns and methods for the purification and concentration of an analyte (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution. The columns typically include a bed of extraction medium positioned in the column between two frits. In some embodiments, the extraction columns employ modified pipette tips as column bodies. The invention also provides methods for purifying and concentrating multiple analytes simultaneously.

Abstract: An adsorbent of high-mobility-group proteins (HMG protein) which can remove HMG protein in body fluid is disclosed. The adsorbent according to the present invention has a water-insoluble carrier on which (a) substance(s) having (a) hydrogen-bondable functional group(s) and/or (a) hydrophobic functional group(s) is(are) immobilized.

Abstract: The present invention relates to a method of separating antibodies from contaminants in a solution, which method comprises contacting the solution with a chromatography resin comprised of a support to which multi-modal ligands have been immobilised, wherein a multi-modal ligand comprises at least one cation-exchanging group and at least one aromatic or heteroaromatic ring system. In one embodiment, the ring-forming atoms of the aromatic or hereoaromatic entity are selected among C, S or O, and the cation exchanging group is a weak cation exchanger. The present method may be used as a single step procedure or as a polishing step following a capture on a Protein A column.

Abstract: The present invention relates to a peptide excellently capable of binding to a protein capable of binding to insulin (IBP), an adsorbent comprising the aforementioned peptide immobilized on a carrier, an adsorber comprising the aforementioned adsorbent, and a method of adsorbing IBPs by using the aforementioned adsorbent or adsorber. The peptide, adsorbent, adsorber and method provided by the present invention can selectively adsorb and remove IBPs efficiently, and therefore be used, for example, in the treatment of diseases, typically diabetes, in which such IBP acts as an aggravating factor.

Abstract: The present invention relates to methods and compositions for treatment of microbial infections and for the enhancement of resistance to infection. The invention comprises administration of an effective amount of bacterial lysate compositions for the treatment of pathological conditions of microbial infections. The present invention can also be used to enhance the immune system to prevent infections by the administration of an effective amount of the compositions.

Abstract: For certain mixed mode resins having anionic character, a ligand is joined to a solid support via a linkage that includes a mercapto-, ether- or amino-containing moiety. A suitable ligand comprises an aromatic group, a heteroaromatic group, or a heterocyclic group, optionally fused, that is sulfate-, sulfonate-, phosphonate- or phosphate-substituted and that is linked to such a moiety. These resins possess an anionic character under conditions prescribed for their use. Separation of a biological substance, such as a peptide or protein, can be accomplished with a resin of this type via a change in the pH of eluants, thereby effecting adsorption and desorption.

Abstract: A device for body fluid purification, comprising a container having an inlet and an outlet for a fluid and a means for preventing an adsorbent from flowing out of the container and an adsorbent charged in the container, the adsorbent comprising a spherical hydrogel, the spherical hydrogel having an average particle size in a range of from about 460 to 600 ?m and having a substantially uniform particle size and comprising an epoxidated cellulose having hexadecylamine immobilized thereon in an amount of 100 to 300 ?mol per gram of dry weight of said epoxidated cellulose, and water, wherein the weight ratio of said epoxidated cellulose having hexadecylamine immobilized thereon to the water is 2:8.

Abstract: A process for isolation of milk osteopontin from a material containing milk osteopontin by optionally mixing the milk material with a calcium source and separate the osteopontin containing phase from the rest of the milk material by pH adjustment.

Abstract: The present invention provides methods of isolation and purification of Streptomyces griseus trypsin (SGT) from PRONASE protease mixture in a single affinity chromatography step and uses of the purified SGT.

Abstract: The present invention provides a process for dissociating Fc-containing molecules from complexes of Protein A/Fc-containing molecules or mixtures containing Fc-containing molecules and Protein A. The association, e.g., by hydrophobic interactions, between the Fc-containing molecules and Protein A can be reduced or inhibited by raising the pH of dissociation. The pH of dissociation can be raised by addition of agents capable of inhibiting hydrophobic interactions, including buffers containing arginine and/or ethylene glycol, to the mixture, either prior to adding the mixture to the column chromatography substrate, after adding the mixture to the column chromatography substrate, or both prior to and after adding the mixture to the column chromatography substrate.

Abstract: The present invention provides a method for the part purification of fibrinogen from milk, the method comprising the transfer of protease enzyme which is present in the milk, into the whey phase with the removal or partition if fibrinogen into another phase of the milk. The present invention also provides a method for obtaining fibrinogen from a fluid, the method comprising: a) contacting the fluid with a hydrophobic interaction chromatography resin under conditions where the fibrinogen binds to the resin; and b) removing the bound protein by means of elution.

Abstract: The present invention provides methods for determining a ratio of an amount of a glycated form of a protein to a total amount of the protein in a sample containing the glycated protein, the glycosylated protein, or the glycoprotein. The method incorporates lateral flow test strip or vertical flow test strip devices having negatively charged carboxyl or carboxylate groups and hydroxyboryl groups immobilized and interspersed on a solid support matrix. The solid support matrix may include derivatives of cellulose (e.g., carboxy cellulose) derivatized with carboxylic acid (e.g., carboxylate, carboxyl) groups and hydroxyboryl compounds including phenylboronic acid (e.g., phenylborate), aminophenylboronic acid, boric acid (e.g., borate), or other boronic acid (e.g., boronate) compounds. The present invention is usefi.il for monitoring glycation or glycosylation of hemoglobin or albumin for monitoring glycemic control (e.g., glycemia in diabetes).

Abstract: For certain mixed mode resins having anionic character, a ligand is joined to a solid support via a linkage that includes a mercapto-, ether- or amino-containing moiety. A suitable ligand comprises an aromatic group, a heteroaromatic group, or a heterocyclic group, optionally fused, that is sulfate-, sulfonate-, phosphonate- or phosphate-substituted and that is linked to such a moiety. These resins possess an anionic character under conditions prescribed for their use. Separation of a biological substance, such as a peptide or protein, can be accomplished with a resin of this type via a change in the pH of eluants, thereby effecting adsorption and desorption.

Abstract: A method is provided for separating a protein from one or more other proteins using hydroxyapatite chromatography in which the protein does not bind to hydroxyapatite but the other protein(s) does. In some embodiments, a second protein affixed to a solid support has been used previously to purify the protein by affinity chromatography, and small amounts of the second protein are introduced in the sample during this process. The protein being purified can comprise at least one constant antibody immunoglobulin domain. The second protein can bind to proteins comprising such a domain.

Abstract: The present invention relates to the general field of recombinant protein expression, purification of recombinant proteins, diagnosis of HCV infection, prophylactic treatment against HCV infection and to the prognosing/monitoring of the clinical efficiency of treatment of an individual with chronic hepatitis, or the prognosing/monitoring of the natural disease. In particular, the present invention relates to the use of yeast, i.e. Hansenula or Saccharomyces glycosylation minus strains, for the efficient expression of HCV envelope proteins that are core-glycosylated, purification methods for these proteins, and the use in various applications, such as the use in diagnosis, prophylaxis or therapy of HCV envelope proteins purified according to the present invention.

Abstract: The invention relates to the fractionation of plasma or serum into at least one albumin fraction and one immunoglobulin fraction by hydrophobic interaction chromatography. The fractionation is carried out using an incremental salt gradient, especially an ammonium sulfate buffer. The invention also relates to preparations obtained by using said method and to their use.

Abstract: Methods and devices are provided for reducing the concentration of low molecular weight compounds in a biological composition containing cells while substantially maintaining a desired biological activity of the biological composition. The device comprises highly porous adsorbent particles, and the adsorbent particles are immobilized by an inert matrix.

Abstract: The invention relates to a process for synthesis, by inverse bead polymerization of a monomer phase, of a bead-like, cross-linked, hydrophilic copolymer which has binding activity toward ligands containing nucleophilic groups. The invention relates to support polymer materials with high binding capacity for penicillin acylase and low swelling factor, as well as to use of the same.

Abstract: The present invention provides soluble protein solutions, free of suspended particles in high yield. More particularly, the current invention provides a method for removing suspended particles from soluble protein solutions by filtering the soluble protein solution through highly purified diatomaceous earth.

Abstract: The present invention provides methods for preparing, and compositions comprising, stabilized protein-polymer conjugates. More particularly, the present invention relates to the stabilization of individual and complexed subunits of multisubunit protein complexes by conjugation to polymers. Such conjugation acts to stabilize the specific subunit complexes in their native conformation in liquid medium.

Abstract: Method for preparing a factor VIII solution that is essentially free of viruses and essentially devoid of vWF (von Willebrand factor) and factor VIII-vWF complexes by (a) obtaining a starting factor VIII solution devoid of factor VIII-vWF complexes; and (b) filtering the solution through a hydrophilic virus filter.

Abstract: Methods and devices are provided for reducing the concentration of low molecular weight compounds in a biological composition, while substantially maintaining a desired biological activity of the biological composition. The device comprises highly porous adsorbent particles, and the adsorbent particles are immobilized by an inert matrix. The matrix containing the particles is contained in a housing, and the particles range in diameter from about 1 ?m to about 200 ?m. The matrix can be fibrous, and the particles can have a surface area greater than 750 m2/g and a pore diameter between about 25 and 800 ?. The device can be used to adsorb and remove a pathogen-inactivating compound that is a nucleic acid-binding compound such as psoralen, an acridine derivative or a dye from a biological composition such as a blood product.

Abstract: The present invention relates to an antigenic fusionprotein, which carries multiple Gal?1,3Gal epitopes. The fusion protein according to the invention may also be comprised of a heavily glycosylated mucin part, which mediates binding to selectins, such as PSGL-1, and a part, which exhibits immunoglobulin properties, such as the Fc part of IgG. The fusionprotein according to the invention is preferably used as an absorber to prevent a hyperacute rejection of a xenotransplant, such as a pig tissue or organ transplanted into a human patient. In addition, the invention relates to a method for the prevention of hyperacute rejection reaction in a patient who is to receive a xenotransplant.

Abstract: A process for the partial or complete separation of glycosylated and nonglycosylated proteins is described, in which: a) a triazine dye immobilized on a matrix is incubated with a mixture of glycosylated and nonglycosylated proteins, b) the matrix is then washed to remove the unbound proteins, and c) the proteins are eluted by means of a stepwise or continuous increase in the ionic strength or in the pH, nonglycosylated proteins and proteins having an increasing degree of glycosylation being collected separately from one another in the eluate fractions obtained. By means of the use of this process it is possible, for example, to prepare a human albumin which is free of glycoside bonds and is expressed in yeast cells.

Abstract: A method for analyzing a plurality of amino acids in a fluid sample by a user is provided comprising the steps of introducing the sample into a buffer solution, passing the sample in the buffer solution through a separation column and setting a lithium ion concentration in the buffer to no more than 0.3 mols/L up to a time before ?-aminoisobutyric acid (?-AiBA) is eluted.

Abstract: An effective technique for the high throughput screening of displacers is described. In this technique, potential displacers are employed to displace a biomolecule (e.g., protein) adsorbed on a chromatographic resin in small-scale batch displacement experiments. The amount of protein displaced from a specific resin by a defined concentration of displacer is determined by monitoring the supermatant for the protein. By evaluating the displaced protein rather than the displacer itself, this technique enables a single detection technique (e.g., absorbance, fluorescence, etc.) to be employed for all batch displacement experiments. By monitoring the amount of protein displaced, the effacy of a large number of potential displacers can be rapidly evaluated. The entire experimental procedure can be carried out rapidly and is thus amenable to high throughput parallel screening of molecules possessing a large range of affinities and physico-chemical properties.

Abstract: A process for preparing a patient-specific immunoadsorber, which comprises (i) extracting a body fluid from a patient having an immunopathological condition, the fluid containing immune complexes that are relevant to that immunopathological condition, (ii) contacting the extracted fluid with an adsorbent for the immune complexes to form adsorbed immune complexes, (iii) eluting the adsorbed complexes to form an eluate, (iv) fractionating the eluate into a plurality of immune complex component fractions, and (v) immobilizing the immune complex components on one or more biologically compatible carriers activated to bond to its surface one or more desired immune complex components.

Abstract: Chiral separations can be enhanced through the use of polymerized dipeptide-surfactant or oligopeptide-surfactant chiral micelles. Because polymerized micelles eliminate much of the complex dynamic behavior associated with conventional micelles, polymerized chiral micelles have stronger chiral recognition properties than do otherwise-identical, “conventional” or non-polymerized chiral micelles. Recovery of chiral ligands from polymerized chiral micelles is often easier, as the chiral ligands may typically be recovered by simple extraction with an appropriate organic solvent. By contrast, recovering the solute from a conventional, non-polymerized micellar medium by extraction with an organic solvent frequently results in the formation of troublesome emulsion systems. Polymerized chiral micelle systems are therefore beneficial in both preparative-scale and process-scale separations.

Abstract: The invention relates to a process for the isolation and/or purification of a proteinaceous material, wherein a solid phase comprising a mixture of hydrophobic and hydrophilic groups is used.

Abstract: This invention relates to the identification, purification, and characterization of a novel heterodimeric disintegrin, EC-3, from Echis carinatus viper venom. EC-3 inhibits &agr;4 integrins in an RGD-independent manner. The invention further relates to methods of using EC-3, or a biologically active fragment or derivative thereof, to inhibit the interaction between cells expressing &agr;4 integrins and cellular ligands.

Abstract: This invention provides methods of retentate chromatography for resolving analytes in a sample. The methods involve adsorbing the analytes to a substrate under a plurality of different selectivity conditions, and detecting the analytes retained on the substrate by desorption spectrometry. The methods are useful in biology and medicine, including clinical diagnostics and drug discovery.

Abstract: The present invention relates to particulate material having a density of at least 2.5 g/ml, where the particles of the particulate material have an average diameter of 5-75 &mgr;m, and the particles of the particulate material are essentially constructed of a polymeric base matrix, e.g. a polysaccharide such as agarose, and a non-porous core material, e.g. steel and titanium, said core material having a density of at least 3.0 g/ml, said polymeric base matrix including pendant groups which are positively charged at pH 4.0 or which are affinity ligands for a bio-molecule. Possible pendant groups include polyethyleneimine (PEI), diethylaminoethyl (DEAE) and quaternary aminoethyl (QAE). The materials are useful in expanded bed or fluidized bed chromatography processes, in particular for purification of bio-macromolecules such as plasmid DNA, chromosomal DNA, RNA, viral DNA, bacteria and viruses.