Abstract: A tool, such as a tape measure, including a spring-based retraction system is shown. Various spring-based retraction system embodiments are configured to decrease the size occupied by the spring within the tape measure housing, which consequently reduces tape measure housing size providing a more compact tape measure. Various spring-based retraction system embodiments are configured to control retraction of the tape measure in a manner that reduces whip or otherwise controls tape blade retraction. Some retraction system embodiments utilize a reduction gear train, and others utilize a compression spring and a transmission system that converts rotational movement of the tape reel to axial movement, which compresses the spring.

Abstract: The specification describes an antibody capture process comprising (i) obtaining a biological sample comprising antibodies, (ii) contacting the biological sample with recombinant pIgR or a dIgA-binding variant, wherein the pIgR or variant binds dIgA and forms a pIgR-dIgA complex. The process may further comprise (iii) directly or indirectly assessing the level of the pIgR-dIgA complex or the level of a complex between pIgR-dIgA and an antigen of interest. There is also an antibody capture process for determining gut wall integrity in a test subject, wherein the level or ratio of SIgA to dIgA is compared to a corresponding level or ratio from a control subject. The specification provides kits embodying the process and recombinant pIgR when used for, or for use, in capturing or detecting dIgA and/or IgM.

Abstract: An immunoassay suitable for point of care to assess liver disease or function comprising contacting a blood sample from a subject with a specific binding agent that recognizes an epitope of ALT1, that is not recognized by rodent antibodies when the rodent antibodies are in the presence of human plasma, to form an antigen-binding agent complex and detecting the complex using a second or further binding agent linked to or comprising a detectable reporter; and detecting liver disease or liver function in the subject contingent upon the mass concentration of ALT1 in the sample. Kits or devices comprising lagomorph antibodies or binding agents comprising the antigen binding component thereof suitable for measuring the mass concentration of ALT1 in a blood sample from a subject to determine liver function.

Abstract: The specification describes an antibody capture process comprising (i) obtaining a biological sample comprising antibodies, (ii) contacting the biological sample with recombinant pIgR or a dIgA-binding variant, wherein the pIgR or variant binds dIgA and forms a pIgR-dIgA complex. The process may further comprise (iii) directly or indirectly assessing the level of the pIgR-dIgA complex or the level of a complex between pIgR-dIgA and an antigen of interest. There is also an antibody capture process for determining gut wall integrity in a test subject, wherein the level or ratio of SIgA to dIgA is compared to a corresponding level or ratio from a control subject. The specification provides kits embodying the process and recombinant pIgR when used for, or for use, in capturing or detecting dIgA and/or IgM.

Abstract: The invention provides kits and methods for detecting or monitoring the number of cells in sample. The cell comprises a cell surface associated protein (CSAP) comprising a cytoplasmic (cytosolic) and an extracellular (ecto) domain. The kit comprises: (i) a chromatographic device; and (ii) a CSAP-binding agent. The method comprises: (i) optionally contacting the sample with an agent capable of lysing or permeabilizing CSAP bearing cells; (ii) contacting the sample with a CSAP-binding agent that binds to the cytoplasmic domain of the CSAP; and (iii) directly or indirectly evaluating the level or presence of bound CSAP in the sample.

Abstract: The invention provides kits and methods for detecting or monitoring the number of cells in sample. The cell comprises a cell surface associated protein (CSAP) comprising a cytoplasmic (cytosolic) and an extracellular (ecto) domain. The kit comprises: (i) a chromatographic device; and (ii) a CSAP-binding agent. The method comprises: (i) optionally contacting the sample with an agent capable of lysing or permeabilizing CSAP bearing cells; (ii) contacting the sample with a CSAP-binding agent that binds to the cytoplasmic domain of the CSAP; and (iii) directly or indirectly evaluating the level or presence of bound CSAP in the sample.

Abstract: This invention is directed to diagnostic methods detecting the presence of an antibody to a virus in a sample from a subject and kits for using the methods.

Abstract: The specification discloses chimeric or recombinant virus-like particles comprising (i) S polypeptide of an avian hepadnavirus and (ii) a chimeric fusion protein comprising a polypeptide of interest covalently attached to a particle-associating portion of L polypeptide of an avian hepadnavirus, wherein the polypeptide of interest comprises a transmembrane domain or a protein binding domain or motif and wherein the chimeric fusion protein further comprises a second or further polypeptide of interest comprising a transmembrane domain and/or a protein binding domain or motif, wherein the second or further polypeptide is associated with the virus-like particle via non-peptide bonds. It is proposed that such VLPs more closely resemble the naturally occurring configuration of antigenic complexes or pathogens. The chimeric virus-like particles are illustrated using viral envelope proteins from measles, hepatitis C virus, influenza A and HIV and by polyproteins from Plasmodium surface proteins.

Abstract: The present invention provides a virus-like particle (VLP) comprising i) a polypeptide comprising a polypeptide of interest (POI) and at least a particle-associating portion of a large envelope (L) polypeptide of an avian hepadnavirus or a functional derivative or homolog thereof, and ii) a small envelope (S) polypeptide of an avian hepadnavirus or a functional derivative or homolog thereof. By introducing one or more POIs into the L polypeptide, the POI is translocated along with L into a particle structure made up primarily of S polypeptide. The present invention furthermore provides methods for producing a recombinant virus-like particle.

Abstract: A method for enhancing an immune response to a nucleic acid vaccine comprising administering to an animal a nucleic acid construct encoding a fusion protein comprising a processing component and an antigenic polypeptide of interest wherein said processing component provides heterogeneous processing of the antigenic polypeptide when the nucleic acid construct is expressed in a host cell and a resulting enhancement of the immune response. The processing component is derived from an N-terminal portion of PORF2 of Hepatitis E virus.

Abstract: A method for enhancing an immune response to a nucleic acid vaccine comprising administering to an animal a nucleic acid construct encoding a fusion protein comprising a processing component and an antigenic polypeptide of interest wherein said processing component provides heterogeneous processing of the antigenic polypeptide when the nucleic acid construct is expressed in a host cell and a resulting enhancement of the immune response. The processing component is derived from an N-terminal portion of PORF2 of Hepatitis E virus.

Abstract: The present invention relates generally to molecules such as peptides, polypeptides and proteins which carry epitopes and in particular B cell epitopes from antigenic proteins encoded by Hepatitis E Virus. These molecules are selectively immunoreactive to convalescent and/or acute phase circulating antibodies to the Hepatitis E Virus and are useful in the development of diagnostic therapeutical and prophylactic agents for Hepatitis E Virus.