A solid phase for use in separation has been modified using an aqueous phase adsorption of a headgroup-modified lipid to generate analyte specific surfaces for use as a stationary phase in separations such as high performance liquid chromatography (HPLC) or solid phase extraction (SPE). The aliphatic moiety of the lipid adsorbs strongly to a hydrophobic solid surface, with the hydrophilic and active headgroups orienting themselves toward the more polar mobile phase, thus allowing for interactions with the desired solutes. The surface modification approach is generally applicable to a diversity of selective immobilization applications such as protein immobilization clinical diagnostics and preparative scale HPLC as demonstrated on capillary-channeled fibers, though the general methodology could be implemented on any hydrophobic solid support material.

An Fc-binding polypeptide of improved alkali stability, comprising a mutant of an Fc-binding domain of Staphylococcus Protein A (SpA), as defined by SEQ ID NO: 1, SEQ ID NO: 2, SEQ ID NO:3, SEQ ID NO: 4, SEQ ID NO: 5, SEQ ID NO:6, SEQ ID NO:7, SEQ ID NO:22, SEQ ID NO 51 or SEQ ID NO 52 wherein at least the asparagine or serine residue at the position corresponding to position 11 in SEQ ID NO:4-7 has been mutated to an amino acid selected from the group consisting of glutamic acid, lysine, tyrosine, threonine, phenylalanine, leucine, isoleucine, tryptophan, methionine, valine, alanine, histidine and arginine.

One embodiment of the present invention is a protein having affinity for an immunoglobulin, which is a protein having two or more domains derived from any of the amino acid sequences of E, D, and A domains of protein A, and in the amino acid sequence of at least one of the domains, one or more lysines are included, and the C-terminal lysine is deleted or substituted, or a protein having affinity for an immunoglobulin, which is a protein having two or more domains derived from any of B, C, and Z domains of protein A, and in the amino acid sequence of at least one of the domains, one or more lysines are included, and lysine at position 4 and the C-terminal lysine are deleted or substituted.

This disclosure relates to graphene derivatives, as well as related devices including graphene derivatives and methods of using graphene derivatives.

The invention relates to a separation matrix comprising at least 11 mg/ml Fc-binding ligands covalently coupled to a porous support, wherein: a) the ligands comprise multimers of alkali-stabilized Protein A domains, and b) the porous support comprises cross-linked polymer particles having a volume-weighted median diameter (d50,v) of 56-70 micrometers and a dry solids weight of 55-80 mg/ml.

Disclosed is a microvesicles isolation method to isolate microvesicles contained in the biological sample from the sample, the method comprising: (a) adding an adsorbent sphere to the biological sample containing the microvesicles therein; (b) keeping the adsorbent sphere in the biological sample to form an adsorbent sphere conjugate composed of the adsorbent sphere and the microvesicles captured thereon; (c) isolating the adsorbent sphere conjugate from the biological sample; (d) washing the isolated adsorbent sphere conjugate using a first reagent; and (e) eluting the microvesicles from the washed adsorbent sphere conjugate using a second reagent, wherein the adsorbent sphere includes a support, and one or more polyvalent cations disposed on a surface of the support.

The invention relates to a method for immobilizing nucleic ligands including at least one reactive amine function, by grafting on an activated solid substrate, including a step of coupling said nucleic acids on said activated solid substrate having a pH of less than 6.

The present invention relates to a sorbent which is suitable for binding metals from solutions, the production of a corresponding sorbent as well as the use of the sorbent for binding metals from solutions.

The present disclosure describes an augmented medium for water purification including a medium that is treated with Moringa oleifera coagulant protein (MOCP), as well as uses and methods of making the same. The present disclosure also describes water filters including such augmented medium, as well as methods of purifying water by using such filters.

The invention relates to the isolation or extraction of exosomes.