The present disclosure is directed to lysin-AMP polypeptide constructs, isolated lysin polypeptides, and pharmaceutical compositions comprising the isolated polypeptides and/or lysin-AMP polypeptide constructs. Methods of using the lysin-AMP polypeptide constructs, isolated lysin polypeptides and pharmaceutical compositions are also herein provided. In addition, isolated polynucleotides encoding the lysin-AMP polypeptide constructs and isolated lysin polypeptides are disclosed herein.

This document relates to conjugates of TNF inhibitors or derivatives thereof and functionalized (e.g., mono- or bi-functional) polymers (e.g., polyethylene glycol and related polymers) as well as methods and materials for making and using such conjugates.

The invention encompasses formulations and methods for the production thereof that permit the delivery of concentrated protein solutions. The inventive methods can yield a lower viscosity liquid protein formulation or a higher concentration of therapeutic or nontherapeutic proteins in the liquid formulation, as compared to traditional protein solutions. The inventive methods can also yield a higher stability of a liquid protein formulation.

Provided are a novel polypeptide, a fusion polypeptide comprising the polypeptide, and a use thereof as an antibiotic. More specifically, provided are a novel polypeptide derived from a bacteriophage, a novel fusion polypeptide comprising cecropin A, and an antibiotic against Gram-negative bacteria comprising the polypeptide and/or the fusion polypeptide.

There is described a method for extracting a target chemical compound from a cellular material in a sample. The method comprising the steps of: subjecting the sample to mechanical lysis to cause disruption of a cellular membrane in the cellular material; contacting the sample with an alkaline material to produce a lysate composition comprising the target chemical compound; and recovering the lysate composition from the sample. There is also described a method for producing a lysate composition comprising RNA from a mammalian bodily fluid sample comprising a cellular material. There is also described a method for extracting a nucleic acid from a cellular material in a bodily fluid or an inoculant derived therefrom.

The present description relates to chimeric bacteriophage lysins useful for the identification and/or reduction of staphylococcal populations. For example, a chimeric bacteriophage lysin was engineered and shown to effectively kill all strains of staphylococci tested including antibiotic resistant methicillin-resistant S. Aureus and VISA.

The present invention relates to chimeric endolysin Lys109 which effectively controls Staphylococcus aureus, wherein the endolysin Lys109 of the present invention has a novel amino acid sequence that has not been conventionally studied. Endolysin Lys109 of the present invention can be used as a biological regulator capable of effectively inhibiting a wide range of Staphylococcus aureus and a biofilm produced thereby. In addition, endolysin Lys109 can kill Staphylococcus aureus without regard for resistance to conventional antibiotics, and thus can be widely used for treatment of diseases caused by Staphylococcus aureus infection. Moreover, endolysin Lys109 can also be used to resolve medical problems caused by Staphylococcus aureus which has antibiotic resistance.

The invention encompasses formulations and methods for the production thereof that permit the delivery of concentrated protein solutions. The inventive methods can yield a lower viscosity liquid formulation or a higher concentration of therapeutic or nontherapeutic proteins in the liquid formulation, as compared to traditional protein solutions.

The present invention provides microfabricated substrates and methods of conducting reactions within these substrates. The reactions occur in plugs transported in the flow of a carrier-fluid.

Provided are methods for linking polypeptides (including peptides and proteins) to other moieties using radical imitated thiol-ene chemistries, for example, modifying a polypeptide by introducing reactive thiol groups and reacting the thiol groups with olefin-containing reagents or alkyne-containing reagents under conditions that support radical thiol-ene or thiol-yne reactions. The reactive thiol groups have greater activity for radical thiol-ene reactions that a cysteine thiol group, including thiol groups that are separated from the peptide backbone by at least two carbon atoms, for example, the thiol group of a homocysteine residue. Also provided are compositions and biomaterials containing the linked polypeptides, for example, peptide and protein conjugates, and thiol-ene based biocompatible hydrogel polymers, and their uses in the medical field.