Abstract: The invention relates to adenoviral vectors, cells for use in generating adenoviral vectors, methods for generating adenoviral vectors, and therapeutic uses of adenoviral vectors in gene therapy, tumour therapy and as vaccines.

Abstract: A method for performing homologous recombination between at least a first nucleic acid molecule and a second nucleic acid molecule which share at least one region of sequence homology. A method for improving the efficiency of homologous recombination.

Abstract: A method of homologous recombination, including in vitro joining two or more target nucleic acid molecules with a first exonuclease, and recombining the two or more target nucleic acid molecules in the presence of a second exonuclease and an annealing protein. The recombined target nucleic acid molecules share at least one homologous sequence.

Abstract: The invention relates to adenoviral vectors, cells for use in generating adenoviral vectors, methods for generating adenoviral vectors, and therapeutic uses of adenoviral vectors in gene therapy, tumour therapy and as vaccines.

Abstract: A method for performing homologous recombination between at least a first nucleic acid molecule and a second nucleic acid molecule which share at least one region of sequence homology. A method for improving the efficiency of homologous recombination.

Abstract: This invention is related to bacterial engineering and the heterologous expression of useful compounds. In particular, the invention relates to a heterologous host that has been engineered for expression of a gene which is capable of polyketide or non-ribosomal peptide synthesis. Methods of treating cancer are also disclosed.

Abstract: This invention is related to bacterial engineering and the heterologous expression of useful compounds. In particular, the invention relates to a heterologous host that has been engineered for expression of a gene which is capable of polyketide or non-ribosomal peptide synthesis. Methods of treating cancer are also disclosed.

Abstract: The invention provides a method for inserting a single stranded replacement nucleic acid into a target nucleic acid, the method comprising the steps of: a) generating a single stranded replacement nucleic acid from a double stranded nucleic acid, wherein the double stranded nucleic acid is adapted at one or both of its 5? ends such that preferential degradation of one strand and/or strand separation generates the single stranded replacement nucleic acid, wherein the single stranded replacement nucleic acid comprises a 5? region that is identical to sequence on the target nucleic acid, a 3? region that is identical to sequence on the target nucleic acid and optionally a replacement region between the 5? and 3? regions that is not identical to sequence on the target nucleic acid, b) exposing the target nucleic acid to the single stranded replacement nucleic acid under conditions suitable for recombination to occur between the single stranded replacement nucleic acid and the target nucleic acid, and c) selecting

Abstract: A method for performing homologous recombination between at least a first nucleic acid molecule and a second nucleic acid molecule which share at least one region of sequence homology. A method for improving the efficiency of homologous recombination.

Abstract: The invention provides a method for inserting a single stranded replacement nucleic acid into a target nucleic acid, said method comprising the steps of: a) generating a single stranded replacement nucleic acid from a double stranded nucleic acid, wherein the double stranded nucleic acid is adapted at one or both of its 5? ends such that preferential degradation of one strand and/or strand separation generates the single stranded replacement nucleic acid, wherein the single stranded replacement nucleic acid comprises a 5? region that is identical to sequence on the target nucleic acid, a 3? region that is identical to sequence on the target nucleic acid and optionally a replacement region between the 5? and 3? regions that is not identical to sequence on the target N nucleic acid, b) exposing the target nucleic acid to the single stranded replacement nucleic acid under conditions suitable for recombination to occur between the single stranded replacement nucleic acid and the target nucleic acid, and c) select

Abstract: The invention relates to methods for the evolution of molecules with improved biological properties. In particular, the invention relates to methods using proteins that modify a DNA substrate to establish a link between the action of these proteins and the selection of molecules with improved biological properties. A unifying feature of all these mechanisms is that the coding region being evolved is in the same genetic element or on the same DNA molecule as a target site for a DNA-modifying protein. Accordingly, the activity (or inactivity) of the DNA-modifying protein can be tested by evaluating the sequence of its nucleic acid substrate. In this manner, a number of different types of compounds may be selected, including improved DNA-modifying proteins, improved substrates for DNA-modifying proteins, improved ligand-receptor interactions, improved co-factor and regulatory protein activities, improved DNA-binding proteins, and so on.