Abstract: Disclosed are mutant DNA polymerases having improved extension rates relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. The mutant polymerases overcome the inhibitory effects by an intercalating dye. Therefore, the mutant polymerases are useful in a variety of disclosed methods in combination with an intercalating dye. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: Disclosed are mutant DNA polymerases having improved extension rates relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. The mutant polymerases overcome the inhibitory effects by an intercalating dye. Therefore, the mutant polymerases are useful in a variety of disclosed methods in combination with an intercalating dye. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: A purified thermostable nucleic acid polymerase is obtained that has unique characteristics. Preferably the nucleic acid polymerase is DNA polymerase isolated from a Thermus aquaticus species and has a molecular weight of about 86,000-95,000 daltons. The thermostable nucleic acid polymerase may be native or recombinant and may be used in a temperature-cycling chain reaction wherein at least one nucleic acid sequence is amplified in quantity from an existing sequence with the aid of selected primers and nucleotide triphosphates. The nucleic acid polymerase is preferably stored in a buffer containing non-ionic detergents that lends stability to the nucleic acid polymerase. A preferred buffer contains glycerol, polyoxyethylated sorbitan monolaurate, ethoxylated nonyl phenol and gelatin.

Abstract: Recombinant DNA sequences encoding the DNA polymerase activity of Thermus thermophilus can be used to construct recombinant vectors and transformed host cells for production of the activity. T. thermophilus DNA polymerase is an .about.94 kDa protein especially useful in the DNA amplification procedure known as the polymerase chain reaction.

Abstract: A purified thermostable enzyme is derived from the eubacterium Thermotoga maritima. The enzyme has a molecular weight as determined by gel electrophoresis of about 97 kilodaltons and DNA polymerase I activity. The enzyme can be produced from native or recombinant host cells and can be used with primers and nucleoside triphosphates in a temperature-cycling chain reaction where at least one nucleic acid sequence is amplified in quantity from an existing sequence.

Abstract: Recombinant DNA sequences encoding the DNA polymerase activity of Thermus thermophilus can be used to construct recombinant vectors and transformed host cells for production of the activity. T. thermophilus DNA polymerase is an .about.94 kDa protein especially useful in the DNA amplification procedure known as the polymerase chain reaction.

Abstract: A purified thermostable enzyme is derived from the eubacterium Thermotoga maritima. The enzyme has a molecular weight as determined by gel electrophoresis of about 97 kilodaltons and DNA polymerase I activity. The enzyme can be produced from native or recombinant host cells and can be used with primers and nucleoside triphosphates in a temperature-cycling chain reaction where at least one nucleic acid sequence is amplified in quantity from an existing sequence.

Abstract: A purified thermostable enzyme is obtained that has unique characteristics. Preferably the enzyme is isolated from the Thermus aquaticus species and has a molecular weight of about 86,000-95,000 daltons. The thermostable enzyme may be native or recombinant and may be used in a temperature-cycling chain reaction wherein at least one nucleic acid sequence is amplified in quantity from an existing sequence with the aid of selected primers and nucleotide triphosphates. The enzyme is preferably stored in a buffer containing non-ionic detergents that lends stability to the enzyme.

Abstract: A novel a selectable fusion protein having aminoglycoside phosphotransferase activity is disclosed. The marker comprises the coding sequences for aminoglycoside phosphotransferase I (APH-I) which has been modified and truncated so as to render its use in recombinant vectors more convenient. The modified, truncated sequence (mtAPH-I) gene is capable, upon expression, of conferring resistance to a number of antibiotics on the host. One of these antibiotics, G418, is toxic to eucaryotic as well as procaryotic hosts. Also disclosed are methods of constructing fusion proteins having N-terminal sequences corresponding to a desired peptide sequence, and C-terminal sequences comprising the amino acids encoded by mtAPH-I. The preferred N-terminal sequences are the first 11 amino acids of .beta.-isopropyl malate dehydrogenase, and the first 7 amino acids of yeast enolase.

Abstract: Recombinant DNA vectors that encode a thermostable DNA polymerase are useful in the recombinant production of thermostable DNA polymerase. The recombinant thermostable polymerase is preferred for use in the production of DNA in a polymerase chain reaction. Especially useful vectors encode the .about.94,000 dalton thermostable DNA polymerase from thermus aquaticus.

Abstract: A purified thermostable enzyme is obtained that has unique characteristics. Preferably the enzyme is isolated from the Thermus aquaticus species and has a molecular weight of about 86,000-90,000 daltons. The thermostable enzyme may be native or recombinant and may be used in a temperature-cycling chain reaction wherein at least one nucleic acid sequence is amplified in quantity from an existing sequence with the aid of selected primers and nucleotide triphosphates. The enzyme is preferably stored in a buffer of non-ionic detergents that lends stability to the enzyme.

Abstract: Expression vectors containing coding sequences under the control of SV40 early and RSV promoters are disclosed as useful in producing proteins in saccharomyces yeasts. Construction of such vectors, and their use in yeast transformations are described.

Abstract: A novel universal dominant selectable marker cassette is disclosed. The marker comprises the coding sequences for aminoglycoside phosphotransferase I (APH-I) which has been modified and truncated so as to render its use in recombinant vectors more convenient. The modified, truncated sequence (mtAPH-I) gene is capable, upon expression, of conferring resistance to a number of antibiotics on the host. One of these antibiotics, G418, is toxic to eucaryotic as well as procaryotic hosts. Also disclosed are methods of constructing fusion proteins having N-terminal sequences corresponding to a desired peptide sequence, and C-terminal sequences comprising the amino acids encoded by mtAPH-I.