Abstract: Isolated DNA molecules comprising a nucleotide sequence encoding murine son of sevenless gene 1 (mSOS1) polypeptide and comprising a nucleotide sequence encoding murine son of sevenless gene 2 (mSOS2) polypeptide are disclosed, as well as isolated mSOS1 polypeptide and isolated mSOS2 polypeptide, and diagnostic methods using the same.

Abstract: Conjugates of the type Z--X--L are described wherein Z is a solid phase matrix, X is a single amino acid or a polyamide of two or more amino acid residues, and L is a linker that is capable of linking between the amino terminus of X and a 3'-phosphate of a nucleotide. Conjugates may also be synthesized by assembling a polyamide on a solid support matrix, adding a suitable linker molecule, followed by synthesis of an oligonucleotide thereon. Methods for detecting specific polynucleotides with oligonucleotide-polyamide conjugates are also described.

Abstract: A method for determining the presence and location in animal or plant tissue of a specific polynucleotide population comprising: (a) preparing a section of the tissue to be examined; (b) contacting the tissue section under hybridization conditions with a synthetic, labelled oligonucleotide probe which is complementary to a representative portion of the target polynucleotide; (c) removing unhybridized probe material from the tissue section; and (d) detecting or identifying the locations in the tissue section where labelling by hybridization of the labelled probe has occurred. A diagnostic kit for use in performance of the above method is also disclosed.

Abstract: A nucleoside derivative of formula (1), characterized in that: Y is H or OH or a protected hydroxy group; X is H, a phosphonate group or a phosphoramidite group of formula (II), where R.sup.1 and R.sup.2 are the same or different, and are selected from alkyl and substituted alkyl, which may be branched or unbranched; and Q is a phosphate protecting group; Z is H, a phosphate or triphosphate group or hydroxy protecting group; X' is a C.sub.1-15 alkyl group which may be branched or unbranched; R is an amino protecting group or a fluorophore, or other non-radioactive detectable marker; or the group Y'NHA, where Y' is an alkyl (C.sub.1-40) carbonyl group which may be branched or unbranched, and A is an amino protecting group or a fluorophore or other non-radioactive detectable marker. Methods for the synthesis and sequencing of polynucleotides utilizing compounds of formula (I).

Abstract: Oligonucleotide-polyamide conjugates of the formula X--L--Y, where X is a polyamide, Y is an oligonucleotide, and L is a linker which forms a covalent bond with the amino-terminus of the polyamide X and the 3' phosphate group of the oligonucleotide Y. Conjugates may be synthesized by assembling a polyamide on a solid support matrix, adding a suitable linker molecule, followed by synthesis of the oligonucleotide. Methods for detecting specific polynucleotides with oligonucleotide-polyamide conjugates are also described.

Abstract: Genes and DNA transfer vectors for the expression of human preprorelaxin; sub-units thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: Genes and DNA transfer vector for the expression of human prepororelaxin; subunits thereof, including genes and transfer vectors for expression of human profelaxin and the individual A, B and C peptide chains thereof; and equivalents of al such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: Genes and DNA transfer vectors for the expression of human preprorelaxin; sub-units thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: Genes and DNA transfer vector for the expression of human preprorelaxin; subunits thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: Genes and DNA transfer vectors for the expression of human preprorelaxin; sub-units thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Method for synthesis of the peptides involving recombinant DNA techniques are provided.

Abstract: Genes and DNA transfer vectors for the expression of human preprorelaxin; sub-units thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: Genes and DNA transfer vectors for the expression of human preprorelaxin; sub-units thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: Genes and DNA transfer vectors for the expression of human preprorelaxin; sub-units thereof, including genes and transfer vectors for expression of human prorelaxin and the individual A, B and C peptide chains thereof; and equivalents of all such genes. Methods for synthesis of the peptides involving recombinant DNA techniques.

Abstract: A method for the synthesis of porcine relaxin or modified forms or analogues thereof, which comprises the steps of reducing a mixed solution of the S-sulfonated A and B peptide chains, or modified forms or analogues thereof; precipitating the reduced peptides with acetone; washing the mixed peptides; oxidizing the mixed peptides in the presence of aqueous sodium chloride; and isolating the relaxin thus produced.Also claimed are modified forms and analogues of porcine relaxin analogues which comprise shortened forms of the natural B and/or A peptide chains, and/or in which one or both of A and B chains in the full length or shortened form has been chemically modified.