Abstract: A nonwoven fabric includes fibres such that a proportion of the fibres have a length of from about 0.1 to 1.5 mm. The fibres may be homogenous, heterogeneous, and/or mixed waste materials of small particle size and the proportion of binder present is about 15% w/w or less. Processes for manufacturing such a nonwoven fabric and uses of such fabric are also described.

Abstract: The invention provides methods and materials involved in displaying polypeptide sequences using viruses such as avian leukosis viruses. Specifically, the invention provides nucleic acid molecules, collections of nucleic acid molecules, polypeptides, collections of polypeptides, viruses, and collections of viruses as well as methods for making nucleic acid molecules, collections of nucleic acid molecules, polypeptides, collections of polypeptides, viruses, and collections of viruses. The invention also provides methods for obtaining displayed polypeptide sequences that interact with biological molecules and/or cells as well as methods for identifying biological molecules that interact with displayed polypeptides.

Abstract: Fibrillation of certain cellulosic fibres has been widely studied, and fibrillation can be utilised to improve fabric performance, for example strength, absorbency, surface area together with handle and opacity. However, it believed that keratinous fibres such as wool have not been treated in this way. The invention seeks to provide a fibrillated keratinous fibre fabric and a method of fibrillating natural fibres. A textile fabric of keratinous fibre is disclosed characterised by the presence of fibrils, micro-fibrils and proto-fibrils. The fibrils may be further characterised as having diameters in the range 3 &mgr;m to 5 &mgr;m and by having lengths in the range 25 &mgr;m to 60 &mgr;m. Preferably, the fabric is a woven, knitted, non-woven or composite fabric. A method of treating natural fibres is also disclosed which comprises:- a pre-treatment to remove surface lipid materials or scales, e.g. using an oxidising agent; a treatment to remove or partially remove intercellular cement, e.g.

Abstract: Methods are disclosed whereby inhibition of proteolytic activity causes an increase in delivery of a transferable label from a viral display package to a target cell. Assaying for the transferable label in the target cell in the presence of a test substance can identify the test substance as a protease inhibitor. Protease inhibitors so identified are used therapeutically, to treat conditions such as cancer, inflammation, rheumatoid arthritis and other autoimmune diseases, and infections, including AIDS, herpes, and hepatitis.

Abstract: Methods are disclosed whereby protease activity is directly linked to replication of viral display packages containing protease-encoding polynucleotides in target cells. The methods can be used, inter alia, to identify proteases, including previously undiscovered proteases or variants of known proteases which may have altered substrate specificity.

Abstract: Methods are disclosed whereby inhibition of proteolytic activity causes an increase in delivery of a transferable label from a viral display package to a target cell. Assaying for the transferable label in the target cell in the presence of a test substance can identify the test substance as a protease inhibitor. Protease inhibitors so identified are used therapeutically, to treat conditions such as cancer, inflammation, rheumatoid arthritis and other autoimmune diseases, and infections, including AIDS, herpes, and hepatitis.

Abstract: Methods are disclosed whereby protease activity is directly linked to delivery of a transferable label to a target cell which expresses a protease, via fusion of viral display packages comprising the transferable label with the target cell. The methods can be used, inter alia, to identify proteases, including previously undiscovered proteases or variants of known proteases which may have altered substrate specificity.

Abstract: Method are disclosed whereby protease activity is directly linked to replication of viral display packages containing protease-encoding polynucleotides in target cells.

Abstract: Methods are disclosed whereby protease activity is directly linked to delivery of a transferable label to a target cell which expresses a protease, via fusion of viral display packages comprising the transferable label with the target cell. The methods can be used, inter alia, to identify proteases, including previously undiscovered proteases or variants of known proteases which may have altered substrate specificity.

Abstract: We have made retrovirus particles displaying a functional antibody fragment. We fused the gene encoding an antibody fragment directed against a hapten with that encoding the viral envelope protein (Pr80env) of the ecotropic Moloney murine leukemia virus. The fusion gene was co-expressed in ecotropic retroviral packaging cells with a retroviral plasmid carrying the neomycin phosphotransferase gene (neo), and retroviral particles with specific hapten biding activities were recovered. Furthermore the hapten-binding particles were able to transfer the neo gene and the antibody-envelope fusion gene to mouse fibroblasts. In principle, the display of antibody fragments on the surface of recombinant retroviral particles could be used to target virus to cells for gene delivery, or to retain the virus in target tissues, or for the construction of libraries of viral display packages.

Abstract: We have made retrovirus particles displaying a functional antibody fragment. We fused the gene encoding an antibody fragment directed against a hapten with that encoding the viral envelope protein (Pr80env) of the ecotropic Moloney murine leukemia virus. The fusion gene was co-expressed in ecotropic retroviral packaging cells with a retroviral plasmid carrying the neomycin phosphotransferase gene (neo), and retroviral particles with specific hapten biding activities were recovered. Furthermore the hapten-binding particles were able to transfer the neo gene and the antibody-envelope fusion gene to mouse fibroblasts. In principle, the display of antibody fragments on the surface of recombinant retroviral particles could be used to target virus to cells for gene delivery, or to retain the virus in target tissues, or for the construction of libraries of viral display packages.