Abstract: The present invention provides oligonucleotides and methods for their use in the detection and/or differentiation of target nucleic acids. The oligonucleotides and methods find particular application in amplifying, detecting, and/or discriminating multiple targets simultaneously.

Abstract: The present invention provides methods for quantitative data normalisation, and/or ascertaining levels of transcription in cells, organisms, viruses, and the like. The methods can be used in numerous applications including, but not limited to, determining transcriptional upregulation and downregulation, identifying transcriptional perturbation, determining viability/death, and assessing responses to treatment with agents (e.g. resistance or sensitivity to drugs).

Abstract: The present invention provides modified oligonucleotides and methods for their use in the detection of nucleic acids. The oligonucleotides and methods find particular application in amplifying and/or detecting areas of genetic variation in target nucleic acid sequences.

Abstract: The present invention provides modified oligonucleotides and methods for their use in the detection of nucleic acids. The oligonucleotides and methods find particular application in amplifying and/or detecting areas of genetic variation in target nucleic acid sequences.

Abstract: The present invention relates to compositions and methods for the detection of target molecules, and the amplification of detectable signals generated by detection assays. More specifically, the present invention relates to methods utilizing catalytic nucleic acid enzymes to generate and/or amplify a signal indicative of the presence of target molecules (e.g. nucleic acids and proteins), and compositions for use in the methods.

Abstract: The present invention provides modified oligonucleotides and methods for their use in the detection of nucleic acids. The oligonucleotides and methods find particular application in amplifying and/or detecting areas of genetic variation in target nucleic acid sequences.

Abstract: The present invention provides methods for quantitative data normalisation, and/or ascertaining levels of transcription in cells, organisms, viruses, and the like. The methods can be used in numerous applications including, but not limited to, determining transcriptional upregulation and downregulation, identifying transcriptional perturbation, determining viability/death, and assessing responses to treatment with agents (e.g. resistance or sensitivity to drugs).

Abstract: The invention relates to nucleic acid substrates for catalytic nucleic acid enzymes and methods utilizing the substrates.

Abstract: The present invention provides modified oligonucleotides and methods for their use in the detection of nucleic acids. The oligonucleotides and methods find particular application in amplifying and/or detecting areas of genetic variation in target nucleic acid sequences.

Abstract: The present invention relates to compositions and methods for the use of enzymes composed of nucleic acid and/or protein enzymes to generate and amplify a signal indicative of the presence of a target. More particularly, the invention relates to compositions comprising nucleic acid structures that serve as partial or complete enzyme substrates and methods for using these structures to facilitate detection of targets.

Abstract: The present invention relates to compositions and methods for the detection of target molecules, and the amplification of detectable signals generated by detection assays. More specifically, the present invention relates to methods utilizing catalytic nucleic acid enzymes to generate and/or amplify a signal indicative of the presence of target molecules (e.g. nucleic acids and proteins), and compositions for use in the methods.

Abstract: The present invention provides modified oligonucleotides and methods for their use in the detection of nucleic acids. The oligonucleotides and methods find particular application in amplifying and/or detecting areas of genetic variation in target nucleic acid sequences.

Abstract: The invention relates to nucleic acid substrates for catalytic nucleic acid enzymes and methods utilizing the substrates.

Abstract: The present invention relates to compositions and methods for the detection of target molecules, and the amplification of detectable signals generated by detection assays. More specifically, the present invention relates to methods utilizing catalytic nucleic acid enzymes to generate and/or amplify a signal indicative of the presence of target molecules (e.g. nucleic acids and proteins), and compositions for use in the methods.

Abstract: The present invention relates to compositions and methods that allow the manipulation of the catalytic activity of multi-component nucleic acid complexes. Further, the invention provides methods which use these compositions and methods to create molecular sensors, molecular switches, and/or modulators or propagators of autocatalytic self-replicating cascades and other iterative processes. More particularly, the invention relates to compositions allowing self-assembly of active and inactive multicomponent nucleic acid complexes, methods of making such compositions, and methods for use.

Abstract: The invention relates to nucleic acid substrates for catalytic nucleic acid enzymes and methods utilising the substrates.

Abstract: The present invention relates to Multicomponent Nucleic Acid Enzymes (MNAzymes) and methods for their use. MNAzymes comprise two or more oligonucleotide components which self-assemble in the presence of one or more MNAzyme assembly facilitator molecules to form a catalytically active structure. Compositions for making MNAzymes, and collections of MNAzymes are provided. Also provided are methods for using MNAzymes for the detection, identification and/or quantification of one or more targets. The methods can be practiced in solution-based assays or in assays where one or more reaction components are attached to a support structure. The methods allow for multiplexing the MNAzyme detection to detect multiple targets in a single reaction. Also provided are kits for making the compositions, and for practicing the methods provided herein.

Abstract: The present invention relates to methods and means for the evaluation of HIV replicative capacity in a given environment. In particular, the invention provides a growth competition assay that can determine relative viral fitness using a recombinant tagged HIV-1 virus system. The methods rely on plasmid vectors, amplicons, primers and probes, and the generation of replication-competent viruses therefrom. Said methods and materials may find use in multiple fields including diagnostics, drug screening, pharmacogenetics and drug development.

Abstract: The present invention relates to compositions and methods for the use of enzymes composed of nucleic acid and/or protein enzymes to generate and amplify a signal indicative of the presence of a target. More particularly, the invention relates to compositions comprising nucleic acid structures that serve as partial or complete enzyme substrates and methods for using these structures to facilitate detection of targets.

Abstract: The present invention relates to Multicomponent Nucleic Acid Enzymes (MNAzymes) and methods for their use. MNAzymes comprise two or more oligonucleotide components which self-assemble in the presence of one or more MNAzyme assembly facilitator molecules to form a catalytically active structure. Compositions for making MNAzymes, and collections of MNAzymes are provided. Also provided are methods for using MNAzymes for the detection, identification and/or quantification of one or more targets. The methods can be practiced in solution-based assays or in assays where one or more reaction components are attached to a support structure. The methods allow for multiplexing the MNAzyme detection to detect multiple targets in a single reaction. Also provided are kits for making the compositions, and for practicing the methods provided herein.