Abstract: Provided herein are collections of matched biological reagents selected from a larger collection of biological reagents, wherein the collection of matched biological reagents relate to a biological element. Also provided are methods for selling an isolated biomolecule or biological research reagent in a collection of matched biological reagents, and methods for selecting an isolated biomolecule or biological research reagent from a collection of biological reagents.

Abstract: Provided herein are collections of matched biological reagents selected from a larger collection of biological reagents, wherein the collection of matched biological reagents relate to a biological element. Also provided are methods for selling an isolated biomolecule or biological research reagent in a collection of matched biological reagents, and methods for selecting an isolated biomolecule or biological research reagent from a collection of biological reagents.

Abstract: A method of generating a double stranded (ds) recombinant nucleic acid molecule covalently linked in both strands by contacting two or more ds nucleotide sequences with a topoisomerase under conditions such that both termini of at least one end of a first ds nucleotide sequence are covalently linked by the topoisomerase to both termini of at least one end of a second ds nucleotide sequence is provided. Also provided is a method for generating a ds recombinant nucleic acid molecule covalently linked in one strand, by contacting two or more ds nucleotide sequences with a type IA topoisomerase under conditions such that one strand, but not both strands, of one or both ends of a first ds nucleotide sequence are covalently linked by the topoisomerase. Compositions for performing such methods, and compositions generated from such methods also are provided, as are kits containing components useful for conveniently practicing the methods.

Abstract: A method of generating a double stranded (ds) recombinant nucleic acid molecule covalently linked in both strands by contacting two or more ds nucleotide sequences with a topoisomerase under conditions such that both termini of at least one end of a first ds nucleotide sequence are covalently linked by the topoisomerase to both termini of at least one end of a second ds nucleotide sequence is provided. Also provided is a method for generating a ds recombinant nucleic acid molecule covalently linked in one strand, by contacting two or more ds nucleotide sequences with a type IA topoisomerase under conditions such that one strand, but not both strands, of one or both ends of a first ds nucleotide sequence are covalently linked by the topoisomerase. Compositions for performing such methods, and compositions generated from such methods also are provided, as are kits containing components useful for conveniently practicing the methods.

Abstract: A method of generating a double stranded (ds) recombinant nucleic acid molecule covalently linked in both strands by contacting two or more ds nucleotide sequences with a topoisomerase under conditions such that both termini of at least one end of a first ds nucleotide sequence are covalently linked by the topoisomerase to both termini of at least one end of a second ds nucleotide sequence is provided. Also provided is a method for generating a ds recombinant nucleic acid molecule covalently linked in one strand, by contacting two or more ds nucleotide sequences with a type IA topoisomerase under conditions such that one strand, but not both strands, of one or both ends of a first ds nucleotide sequence are covalently linked by the topoisomerase. Compositions for performing such methods, and compositions generated from such methods also are provided, as are kits containing components useful for conveniently practicing the methods.

Abstract: This invention relates to methods for detecting the extent of hybridization of a nucleic acid in a sample to a probe nucleic acid sequence by electronically hybridizing the nucleic acid in the sample to the probe, utilizing the hybridized nucleic acid as a template in a nucleic acid polymerase reaction to extend the bound probe and incorporate a labeled nucleotide, and detecting the labeled product. This invention also relates to methods of detecting the extent of hybridization of a plurality of nucleic acids in a sample to a plurality of nucleic acid probes using similar methods.

Abstract: The present invention provides compositions and methods for recombinational cloning. The compositions include vectors having multiple recombination sites and/or multiple topoisomerase recognition sites. The methods permit the simultaneous cloning of two or more different nucleic acid molecules. In some embodiments the molecules are fused together while in other embodiments the molecules are inserted into distinct sites in a vector. The invention also generally provides for linking or joining through recombination a number of molecules and/or compounds (e.g., chemical compounds, drugs, proteins or peptides, lipids, nucleic acids, carbohydrates, etc.) which may be the same or different.

Abstract: Subscription-based systems and methods where a provider provides one or more customers, identified as subscribers or non-subscribers, with research products and services (e.g., for industries involved in genomic and proteomic research). Initially, the provider prepares collections of clones and provides customers with access to clone collections. Individual clones in a clone collection may comprise an ORF that may be flanked by recombination sites. Further, an ORF may contain a suppressible stop codon that may be suppressed to produce a fusion protein comprising the ORF and a tag sequence. Provider may provide additional related services and/or products. The products and services offered to the customers will vary depending on their designation as either subscribers or non-subscribers.

Abstract: The present invention provides compositions and methods for recombinational cloning. The compositions include vectors having multiple recombination sites and/or multiple topoisomerase recognition sites. The methods permit the simultaneous cloning of two or more different nucleic acid molecules. In some embodiments the molecules are fused together while in other embodiments the molecules are inserted into distinct sites in a vector. The invention also generally provides for linking or joining through recombination a number of molecules and/or compounds (e.g., chemical compounds, drugs, proteins or peptides, lipids, nucleic acids, carbohydrates, etc.) which may be the same or different.