The present invention concerns a composition of polypeptides suitable for detecting antibodies against Trypanosoma cruzi (T. cruzi) in an isolated biological sample consisting of three polypeptides 1F8, JL7 and Cruzipain. A method of producing a soluble and immunoreactive composition of polypeptides suitable for detecting antibodies against T. cruzi using said composition of polypeptides is also part of the invention. Moreover, the invention concerns a method for detecting antibodies specific for T. cruzi in an isolated sample wherein a composition of said T. cruzi polypeptides is used as well as a reagent kit comprising said composition of T. cruzi polypeptides.

The invention concerns variants of JL7 antigens that are suitable for detecting antibodies against Trypanosoma cruzi (causing Chagas disease) in an isolated biological sample. These antigens comprise a JL7 specific amino acid sequence, said JL7 specific sequence consisting of two copies of SEQ ID NO. 2, wherein each of said two copies has an amino acid identity of at least 90% to SEQ ID NO.2 and wherein no further Trypanosoma cruzi specific amino acid sequences are present in said polypeptide. The invention also concerns a composition of polypeptides useful for the detection of antibodies against Trypanosoma cruzi that comprises the above characterized JL7 antigen along with at least one of T. cruzi polypeptides 1F8, Cruzipain, KMP-11 and PAR-2. Moreover, it relates to a method for producing JL7 antigen as well as to diagnostic methods for detecting T. cruzi antibodies using the JL7 polypeptide. In addition, the invention concerns a reagent kit comprising said JL7 polypeptides or composition of Trypanosoma cruzi polypeptides.

The present invention relates to methods of screening biological samples for the presence of T. gondii. More particularly, the present invention relates to a sensitive and specific screening test for the presence of Toxoplasmosis in subjects by using or detecting the in vivo-induced T. gondii RAP domain binding protein antigen. The invention further relates to the use of the in vivo-induced antigen in the prevention or therapy of Toxoplasmosis.

A system and method for detecting pathogenetic analytes including exciting a large target input area with radiation to produce scattered light to form an input beam, reformatting, with an optical slicer system, the input beam to produce an output beam, dispersing the output beam to produce an output area, capturing excitation data from the output area; and determining, with a processor, a presence of a particular analyte in the input area based on the excitation data. The input area can be greater than 100 micron squared and less than one million microns squared. The optical slicer system can be a high throughput virtual slit system. SERS analysis detects analytes of interest with both high resolution and sensitivity simultaneously, and is applicable for detection of the presence of viruses.

The invention provides a method of identifying an antigen from a pathogen or a disease antigen comprising the use of an adenoviral vector array comprising two or more different adenoviral vectors, wherein each adenoviral vector comprises a nucleic acid sequence encoding a different antigen of a pathogen. The adenoviral vectors are administered to antigen presenting cells (APCs) in vitro or to an animal in vivo. The immunogenicity of the antigen is measured by screening for an immune response from effector T lymphocytes in vitro and by screening for the absence of pathogen-induced disease onset in vivo.

The present invention in general relates Hemoglobin receptor or its part as a novel vaccine candidate against Leishmaniasis. Specifically, the present invention envisages HbR DNA for eliciting immune response in a mammal against Leishmaniasis. Additional aspect of the present invention is related to a vaccine composition for inducing immune response against Leishmaniasis in mammals. In a preferred aspect, the present invention relates to use of HbR-polypeptide as marker for diagnosis of Leishmania in kala-azar patients.

In various aspects and embodiments, the invention provides a method of detecting a Babesia infection in a subject comprising detecting one or more peptides selected from SEQ ID NOs: 1-62 in a biological sample collected from the subject; wherein detecting one or more of the peptides indicates the presence of Babesia infection.

Antibodies and antigen binding fragments that specifically bind to P. falciparum circumsporozoite protein are disclosed. Nucleic acids encoding these antibodies, vectors and host cells are also provided. The disclosed antibodies, antigen binding fragments, nucleic acids and vectors can be used, for example, to inhibit a P. falciparum infection.

A method of generating an antibody and cellular immune response against a Plasmodium in a primate, comprising administering at least 10.sup.3 genetically modified live Plasmodium to the primate, wherein the genetically modified live Plasmodium is a species selected from Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae, Plasmodium knowlesi, Plasmodium coatneyi, Plasmodium cynomolgi, and Plasmodium simium, and wherein the genetically modified live Plasmodium does not produce functional histamine releasing factor (HRF) protein, to thereby induce an antibody and cellular immune response against the Plasmodium in the primate. In some embodiments at least 10.sup.4 genetically modified live Plasmodium is administered to the primate. An immunogenic composition for administration to a primate, comprising a at least 10.sup.3 genetically modified live Plasmodium wherein the genetically modified live Plasmodium is a species selected from Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae, Plasmodium knowlesi, Plasmodium coatneyi, Plasmodium cynomolgi, and Plasmodium simium, and wherein the genetically modified live Plasmodium does not produce functional histamine releasing factor (HRF) protein; and at least one pharmaceutically acceptable excipient and/or support. In some embodiments the immunogenic composition comprises at least 10.sup.3 genetically a modified live Plasmodium.

Provided are an isolated binding protein including a pan-species-specific plasmodium lactate dehydrogenase antigen binding domain and a preparation method thereof. The antigen binding domain includes at least one complementarity determining region selected from a defined amino acid sequence, or has at least 80% of sequence identity with the complementarity determining region of the following amino acid sequence and an affinity of K.sub.D≤1.5647×10.sup.−9 mol/L with a pan-species-specific plasmodium lactate dehydrogenase, and may identify the pan-species-specific plasmodium lactate dehydrogenase. The binding protein may be applied to the field of detection of plasmodium lactate dehydrogenase proteins.