Abstract: The present invention relates to means and methods for detecting cyanobacterial cyclic peptide hepatotoxins (CCPH) in aqueous samples. More specifically, the invention provides recombinant anti-immunocomplex (anti-IC) antibodies which bind to immunocomplexes formed between one or more CCPH variants and an anti-CCPH primary antibody, and immunoassays, preferably non-competitive immunoassays, employing the same.

Abstract: The present invention relates to means and methods for detecting cyanobacterial cyclic peptide hepatotoxins (CCPH) in aqueous samples. More specifically, the invention provides recombinant anti-immunocomplex (anti-IC) antibodies which bind to immunocomplexes formed between one or more CCPH variants and an anti-CCPH primary antibody, and immunoassays, preferably non-competitive immunoassays, employing the same.

Abstract: The present invention provides a mutagenesis method wherein a nucleic acid molecule is mutagenized with at least one mutagenesis primer in a primer extension reaction and subsequently amplified by rolling circle amplification (RCA). The method involves the step of rendering the template strand unfavorable for RCA. The method involves steps leading to selective amplification of only the mutated strand by a strand-displacing DNA polymerase. Multiple copies of the mutated plasmids are generated during multiple-primed RCA and the resulting DNA is transformed for use. The method is suitable for mutating both single-stranded and double-stranded DNA. The present invention also provides a kit for use in the mutagenesis method.

Abstract: The present invention provides a mutagenesis method wherein a nucleic acid molecule is mutagenized with at least one mutagenesis primer in a primer extension reaction and subsequently amplified by rolling circle amplification (RCA). The method involves steps leading to selective amplification of only the mutated strand by a strand-displacing DNA polymerase. Multiple copies of the mutated plasmids are generated during multiple-primed RCA and the resulting DNA is transformed for use. The method is suitable for mutating both single-stranded and double-stranded DNA. The present invention also provides a kit for use in the mutagenesis method.

Abstract: A homogenous bioassay including i) a first group containing a short lifetime fluorescent acceptor, and ii) a second group containing a quencher, with the first and second groups linked by at least a first linkage. The bioassay measures the acceptor's fluorescence increase resulting from cleavage of the first linkage and also includes iii) a third group containing a donor for energy transfer to the acceptor, where the donor is an up-conversion fluorescent compound, a long-lifetime fluorescent compound or an electrogenerated luminescent compound. A conformational or terminal epitope is created on the first group through linkage cleavage, and the third group includes a binder with affinity for this epitope. The acceptor's fluorescence is caused by exciting the donor. Also disclosed are bioassay kits for this method.

Abstract: Thus this invention relates to a nanoparticle, useful for bioaffinity assays. The nanoparticle has a self-assembling shell built up of several protein and/or peptide subunits, which protein and/or peptide subunits can be of one or several different types, assembled in an organized manner to form the shell having an inner surface facing the inside and an outer surface facing the outside of said particle. One or several of the types of subunits have one or several first binding moieties per type of subunit with the binding moiety facing the outside of the particle for binding of any specific ligand binding protein; and the particle contains within its shell a marker and/or one or several of the types of subunits have one or several second binding moieties per type of subunit with the binding moiety facing the inside and/or the outside of the particle for binding a marker; and the marker or markers enables detection of the particle.