The invention concerns soluble and antigenic HTLV p24 variants that can be fused to chaperones and their use in diagnostic applications such as immunoassays for detecting antibodies against HTLV-I or HTLV-II in an isolated biological sample. In particular, the invention relates to a soluble HTLV-I or HTLV-II p24 antigen comprising either the N- or the C-terminal domain of p24 and lacking the other domain. Moreover, the invention covers recombinant DNA molecules encoding these HTLV-I and -II fusion antigens as well as their recombinant production using expression vectors and host cells transformed with such expression vectors. In addition, the invention focuses on compositions of these HTLV p24 antigens with HTLV gp21 antigen and on an immunoassay method for detection of HTLV antibodies using the antigens of the invention. Also the use of HTLV p24 antigens in an in vitro diagnostic assay as well as a reagent kit for detection of anti-HTLV-antibodies comprising said HTLV antigens is encompassed.

The present invention provides methods of detecting analytes using particles having different physico-chemical properties, such as buoyancy, size, density, spectral characteristics, and/or binding properties, in solution-based sandwich assays and solution-based competition assays. The methods can be performed using rotors and bench-top centrifuges and provide for rapid, qualitative and quantitative detection of analytes. The present invention also provides kits that can be used to perform the methods, and mixtures containing particles suitable for the methods.

An identification and an application of an ALV-J MHC-B2 restrictive epitope peptide are provided, which belong to the field of genetic engineering. An amino acid sequence of the provided ALV-J MHC-B2 restrictive epitope peptide is selected from SEQ ID NO:1, SEQ ID NO:2 and SEQ ID NO:3. An application of the ALV-J MHC-B2 restrictive epitope peptide in preparing an ALV epitope-based vaccine is provided. Restrictive motif of B2-haplotype chicken MHC class I molecule binding peptides is identified by in vitro elution assay. Potential epitopes in four proteins expressed by ALV-J are systematically screened by motif. The immunogenic B2-haplotype chicken ALV-J T-cell epitope peptides are identified by functional validation. It provides a material and theoretical basis for the research and development of ALV epitope-based vaccines.

As a technique enabling to simply and accurately diagnose human T cell leukemia virus type 1 (HTLV-1) related disease, there is provided a diagnostic method for an HTLV-1 related disease based on an amount of tumor necrosis factor receptor 2 (TNFR2) in a blood sample taken from a subject, wherein (1) it is determined based on an increase of the amount of TNFR2 that the subject suffers from, or is likely to develop, the HTLV-1 related disease; and/or (2) it is determined based on a decrease of the amount of TNFR2 that the subject is in remission, or is likely to be in remission, of the HTLV-1 related disease.

Methods and systems for the efficient and systematic identification of the repertoire of T-cell epitopes.

The present invention relates to inhibitors of HERV proteins comprising HERV Env and/or Gag, or fragments thereof, for use in treating a tauopathy, Parkinson's disease, or ALS (Amyothrophic Lateral Sclerosis). The present invention further relates to inhibitors of receptors which bind HERV Env proteins for use in treating a tauopathy, Parkinson's disease, or ALS (Amyothrophic Lateral Sclerosis). The present invention further relates to molecules binding to HERV Env and/or Gag, or fragments thereof, or to a nucleic acid molecule encoding said HERV Env and/or Gag, or fragments thereof, for use in diagnosing a tauopathy, Parkinson's disease, or ALS.

Methods for determination of risk, previous history and/or presence of a betaretrovirus infection in a subject are described herein. Said methods may comprise incubating a biological sample from the subject, the biological sample comprising immune effector-producing cells, with one or more betaretrovirus-specific epitopes, the betaretrovirus-specific epitopes comprising at least 7 contiguous amino acids according to any one of SEQ ID Nos. 1-36, and measuring the production of immune effectors by the immune effector-producing cells, wherein production of the immune effectors by the immune effector-producing cells determines risk and/or presence of betaretrovirus infection in the subject. Isolated peptides and kits for carrying out the methods are also described.

The present invention relates to methods and kits for diagnosis of cancer in a subject by detecting human endogenous retrovirus env (HERV-WL) polypeptides.

Methods for determination of risk, previous history and/or presence of a betaretrovirus infection in a subject are described herein. Said methods may comprise incubating a biological sample from the subject, the biological sample comprising immune effector-producing cells, with one or more betaretrovirus-specific epitopes, the betaretrovirus-specific epitopes comprising at least 7 contiguous amino acids according to any one of SEQ ID Nos. 1-36, and measuring the production of immune effectors by the immune effector-producing cells, wherein production of the immune effectors by the immune effector-producing cells determines risk and/or presence of betaretrovirus infection in the subject. Isolated peptides and kits for carrying out the methods are also described.

The disclosure relates to a virus-like particle in which a protein complex is entrapped, ensuring the formation of the protein complex under physiological conditions, while protecting the protein complex during purification and identification. The disclosure further relates to the use of such virus-like particle for the isolation and identification of protein complexes.