Abstract: The present invention provides a method for the assembly of a polynucleic acid sequence from a plurality of nucleic acid sequences in which the polynucleic acid sequence is of a formula Nn+1, in which N represents a nucleic acid sequence and where n is 1 or greater than 1 and each N may be the same or a different nucleic acid sequence, in which the method comprises: (i) providing a first nucleic acid sequence N1 which has an oligonucleotide linker sequence L13 at the 3?-end of the nucleic acid sequence; (ii) providing a second nucleic acid sequence N2 which optionally has an oligonucleotide linker sequence L23? at the 3?-end of the nucleic acid sequence and which has an oligonucleotide linker sequence L25? at the 5?-end of the nucleic acid sequence, wherein the 5?-end linker sequence L25? of nucleic acid sequence N2 is complementary to the 3?-end linker sequence L13? of nucleic acid sequence N1; (iii) optionally providing one or more additional nucleic acid sequences N, wherein nucleic acid sequence N2 has an

Abstract: The invention provides a composition useful to prepare influenza viruses, e.g., in the absence of helper virus, using vectors which include tandem transcription cassettes containing PolI and/or PolII promoters.

Abstract: The invention describes a method of screening for protein secreting recombinant host cells comprising screening for promoter activity of a stress inducible promoter. The method can be used for rapid identification of actively secreting transformants and can be used to screen recombinant libraries for transformants secreting proteins.

Abstract: The present invention relates to methods and compositions for engineering Clostridia species. In particular, embodiments of the present invention relate to the expression of recombinant resolvase proteins in Clostridia species.

Abstract: Provided herein is a transgenic bacteria engineered to accumulate carbohydrates, for example disaccharides. Also provided is a photobioreactor for cultivating photosynthetic microorganisms comprising a non-gelatinous, solid cultivation support suitable for providing nutrients and moisture to photosynthetic microorganisms and a physical barrier covering at least a portion of the surface of the cultivation support. Devices for the large scale and continuous cultivation of photosynthetic microorganisms incorporating photobioreactors and methods of use are disclosed. Also disclosed are methods of producing fermentable sugar from photosynthetic microorganisms using a photobioreactor of the invention.

Abstract: Provided herein is a transgenic bacteria engineered to accumulate carbohydrates, for example disaccharides. Also provided is a photobioreactor for cultivating photosynthetic microorganisms comprising a non-gelatinous, solid cultivation support suitable for providing nutrients and moisture to photosynthetic microorganisms and a physical barrier covering at least a portion of the surface of the cultivation support. Devices for the large scale and continuous cultivation of photosynthetic microorganisms incorporating photobioreactors and methods of use are disclosed. Also disclosed are methods of producing fermentable sugar from photosynthetic microorganisms using a photobioreactor of the invention.

Abstract: Provided herein is a transgenic bacteria engineered to accumulate carbohydrates, for example disaccharides. Also provided is a photobioreactor for cultivating photosynthetic microorganisms comprising a non-gelatinous, solid cultivation support suitable for providing nutrients and moisture to photosynthetic microorganisms and a physical barrier covering at least a portion of the surface of the cultivation support. Devices for the large scale and continuous cultivation of photosynthetic microorganisms incorporating photobioreactors and methods of use are disclosed. Also disclosed are methods of producing fermentable sugar from photosynthetic microorganisms using a photobioreactor of the invention.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The invention concerns compositions and methods for preparing recombinant adenoviruses. The resulting adenoviruses can be used for transferring and/or expressing genes in cells, in vitro, ex vivo or in vivo, or also in functional genomics. More particularly, the invention concerns in particular efficient methods for producing adenovirus banks and the use of said banks in functional genomics. The invention also concerns plasmids used for constructing said adenoviruses.

Abstract: Mycobacterium strains that have an enhanced ability to elicit a MHC-Class I-restricted CD8+ T cell immune response are provided. The Mycobacterium strains are genetically engineered to express: a endosomalytic protein that is active at neutral pH (e.g. Perfringolysin O), permitting escape of the Mycobacterium from endosomes into the cytoplasm of the cell; and antigens of interest, such as tuberculosis antigens. The invention also provides vaccine preparations containing such Mycobacterium strains.

Abstract: The invention provides a composition useful to prepare influenza viruses, e.g., in the absence of helper virus, using vectors which include tandem transcription cassettes containing PolI and/or PolII promoters.

Abstract: The present invention concerns to recombinant influenza viruses and modified Vaccinia Ankara viruses (MVA), and to a process for construction of recombinant influenza viruses and modified vaccinia Ankara viruses (MVA) with genes that encode for the T. gondii parasite SAGI (MVA) and SAG2 (MVA and influenza) proteins, by means of a homologous recombination technique between two transfer vectors (for construction of MVA virus) and reverse genetics (for construction of influenza virus). Additionally, the present invention describes a vaccine composition using recombinant influenza viruses and modified vaccinia Ankara viruses (MVA), or recombinant adenoviruses and modified vaccinia Ankara viruses (MVA), for immunization against infections caused by the T. gondii parasite.

Abstract: In one aspect, the invention provides methods and compositions for the expression of small RNA molecules within a cell using a retroviral vector (FIG. 1A). The methods can be used to express double stranded RNA complexes. Small interfering RNA (siRNA) can be expressed using the methods of the invention within a cell, that interfere with a viral life cycle by down regulating either the viral genome, a viral genome transcript, or a host cell that. In another aspect the invention provides methods for treating patients having suffering from infection, particularly infection with HIV. In a further aspect, the invention provides methods for producing siRNA encoding lentivirus where the siRNA activity may interfere with the lentiviral life cycle.

Abstract: The present invention relates generally to the fields of gene therapy, immunology, and vaccine technology. More specifically, the invention relates to a novel system that can rapidly generate high titers of adenovirus vectors that are free of replication-competent adenovirus (RCA). Also provided are methods of generating these RCA-free adenoviral vectors, immunogenic or vaccine compositions comprising these RCA-free adenovirus vectors, methods of expressing a heterologous nucleic acid of interest in these adenovirus vectors and methods of eliciting immunogenic responses using these adenovirus vectors.

Abstract: A whole cell catalyst is described comprising a hydantoinase, a racemase and a carbamoylase. Thus this catalyst is able to degrade hydantoins directly into the amino acids. Additionally, a process for the production of this catalysts and for the production of amino acids is claimed.

Abstract: The present invention provides compositions and methods for recombinational cloning. The compositions include vectors having multiple recombination sites with unique specificity. 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. Such molecules and/or compounds or combinations of such molecules and/or compounds can also be bound through recombination to various structures or supports according to the invention.

Abstract: The present invention relates to single domain ligands derived from molecules in the immunoglobulin (Ig) superfamily, receptors comprising at least one such ligand, methods for cloning, amplifying and expressing DNA sequences encoding such ligands, preferably using the polymerase chain reaction, methods for the use of said DNA sequences in the production of Ig-type molecules and said ligands or receptors, and the use of said ligands or receptors in therapy, diagnosis or catalysis.

Abstract: The present invention provides random cDNA expression vector libraries, comprising expression vectors which comprise random cDNAs positioned in sense and antisense orientation, which are useful for the delivery and expression of a combination of genetic effector types to host cells. Methods for producing these libraries through bi-directional cloning of random cDNAs are also provided. Also provided herein are methods of using these libraries to screen for agents capable of modulating cell phenotype in desirable ways.

Abstract: In one aspect, the invention provides methods and compositions for the expression of small RNA molecules within a cell using a retroviral vector. The methods can be used to express double stranded RNA complexes. Small interfering RNA (siRNA) can be expressed using the methods of the invention within a cell, that interfere with a viral life cycle by down regulating either the viral genome, a viral genome transcript, or a host cell that. In another aspect the invention provides methods for treating patients having suffering from infection, particularly infection with HIV. In a further aspect, the invention provides methods for producing siRNA encoding lentivirus where the siRNA activity may interfere with the lentiviral life cycle.

Abstract: The present invention provides random cDNA expression vector libraries, comprising expression vectors which comprise random cDNAs positioned in sense orientation. Also provided are random cDNA expression vector libraries, comprising expression vectors which comprise random cDNAs positioned in antisense orientation. Methods for producing these libraries through directional cloning of random cDNAs are also provided. Also provided herein are methods of using these libraries to screen for agents capable of modulating cell phenotype in desirable ways.

Abstract: Reagents and methods for detecting target proteins in a sample are provided. The reagents include a replicable genetic package, a protein displayed on an exterior surface of the package that is expressed from a heterologous nucleic acid borne by the package, and one or more antibodies complexed with the expressed protein and which have an open binding site for a target protein. Thus, a segment of the nucleic acid encodes for an epitope that is shared by the expressed polypeptide and the target protein. The reagents can be utilized individually or as part of a library or an array to bind target proteins within protein samples to form one or more complexes. By determining the sequence of the segment of the heterologous nucleic acid of a package within a complex, one can identify the target protein since the segment encodes for an epitope that is shared by the expressed and target proteins.

Abstract: The present invention is directed to a method of separating cells of interest which method comprises: determining cells of interest; selecting a promoter specific for the cells of interest; introducing a nucleic acid molecule encoding green fluorescent protein under control of the promoter into a plurality of cells; and separating cells of the plurality of cells that are expressing said green fluorescent protein, wherein the separated cells are the cells of interest.

Abstract: The invention relates to a novel method for altering the sequence of a nucleic acid molecule using repair recombination in a simple one component system. The frequency of the recombination reaction is high, allowing a range of feasible selection strategies to identify successful recombination events. The method involves the steps of bringing a first nucleic acid molecule into contact with a second nucleic acid molecule in the presence of a phage annealing protein into contact with a second nucleic acid molecule in the presence of a phage annealing protein, or a functional equivalent or fragment thereof, wherein said first nucleic acid molecule comprises at least two regions of shared sequence homology with the second nucleic acid molecule, under conditions suitable for repair recombination to occur between said first and second nucleic acid molecules; ad selecting a nucleic acid molecule whose sequence has been altered so as to include sequence from said second nucleic acid molecule.

Abstract: A microorganism is described which is transformed with DNAs which encode a hydantoinnase, a racemase, and a carbamoylase. As a result, the microorganism is able to degrade hydantoins directly to amino acids. A process for the production of the microorganism and a process for producing amino acids with the microorganism is also described.

Abstract: The invention uses the power of display selection methods to screen libraries of human immunoglobulin genes from nonhuman transgenic animals expresing human immunoglobulins. Such screening produces unlimited numbers of high affinity human antibodies to any target of interest.

Abstract: A method for in vivo production of a library in cells comprising a multitude of mutated genetic elements, wherein an error-prone polymerase is used in each ancestral cell to replicate all or a part of a genetic element independently of the host chromosomal replication machinery. The genetic element comprises i) an origin of replication from which replication is initiated, ii) optionally a genetic marker, e.g. a gene conferring resistance towards an antibiotic, iii) a gene encoding the polypeptide of interest. Also methods for the generation of a DNA sequence encoding a desired variant of a polypeptide of interest, and for the determination of such a DNA sequence are described.

Abstract: Disclosed are materials and methods for practicing combinatorial protein synthesis based on ribosomal frameshifting. The genes, encoding the proteins to be synthesized, are constructed by assembly of several double-stranded DNA fragments and are cloned into bacteria. The genes include interspersed frameshifting sequences. Proteins are made in the cell by translating nucleotide sequences in a combinatorial mode. The invention can be used for the selection of new, modified or improved proteins.

Abstract: The invention provides a number of strategies for transferring and/or evolving gene(s) associated with cellular DNA uptake so that they confer or enhance DNA-uptake capacity of a recipient cell. Evolution is achieved by recursive cycles of recombination and screening/selection. One such strategy entails evolving genes that confer competence in one species to confer either greater competence in that species, or comparable or greater competence in a second species. Another strategy entails evolving genes for use as components of cloning vector to confer enhanced uptake of the vector. Other strategies entail evolving viral receptors, viruses, and genes that mediate conjugal transfer.

Abstract: Methods are disclosed for identifying an RNA fragment that mimics the structure of a defined or undefined target RNA molecule to which a compound binds inside of a cell resulting in retardation of cell growth or cell death. Methods using these RNA fragments for identifying unknown compounds of pharmaceutical interest, and for identifying unknown RNA targets for use in treating disease are disclosed. These methods and compositions are used in screening for novel antibiotics, bacteriostatics, or modifications thereof or for identifying compounds useful to alter expression levels of proteins encoded by mRNA. The methods involve providing random DNA fragments from DNA which encodes RNA target molecules, cloning such fragments to create a plasmid library of same; transfecting cells which contain the native RNA target molecule with the plasmid library and exposing the cells to one or more of test compounds.

Abstract: The present invention relates to permuted, chimeric nucleic acid libraries and methods of preparing such permuted, chimeric nucleic acid libraries.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: The present invention relates to a method for isolating from the immunological gene repertoire a gene coding for a receptor having the ability to bind a preselected ligand. Receptors produced by the gene isolated by the method, particularly catalytic receptors, are also contemplated.

Abstract: Materials and methods of activating T lymphocytes with specificity for particular antigenic peptides are described, as well as the use of activated T lymphocytes in vitro for the treatment of a variety of disease conditions. In particular, fragments of cells for activating T lymphocytes to a specific peptide are described.

Abstract: A method for in vivo production of a library in cells comprising a multitude of mutated genetic elements, wherein an error-prone polymerase is used in each ancestral cell to replicate all or a part of a genetic element independently of the host chromosomal replication machinery. The genetic element comprisesi) an origin of replication from which replication is initiated,ii) optionally a genetic marker, e.g. a gene conferring resistance towards an antibiotic,iii) a gene encoding the polypeptide of interest.Also methods for the generation of a DNA sequence encoding a desired variant of a polypeptide of interest, and for the determination of such a DNA sequence are described.

Abstract: A random peptide library constructed by transforming host cells with a collection of recombinant vectors that encode a fusion protein comprised of a DNA binding protein and a random peptide and also encode a binding site for the DNA. binding protein can be used to screen for novel ligands. The screening method results in the formation of a complex comprising the fusion protein bound to a receptor through the random peptide ligand and to the recombinant DNA vector through the DNA binding protein.

Abstract: A ribozyme library which comprises a collection of ribozyme genes encoding a hammerhead structure and flanking sequences of random nucleotides cloned at least once into an expression cassette for ribozyme expression.

Abstract: The invention is directed to inter alia two related but self-sufficient improvements in conventional display methods. The first improvement provides methods of enriching conventional display libraries for members displaying more than one copy of a polypeptide prior to affinity screening of such libraries with a target of interest. These methods can achieve diverse populations in which the vast majority of members retaining full-length coding sequences encode polypeptides having specific affinity for the target. In a second aspect, the invention provides methods of subcloning nucleic acids encoding displayed polypeptides of enriched libraries from a display vector to an expression vector without the need for clonal isolation of individual members. These methods result in polyclonal libraries of antibodies and other polypeptides for use, e.g., as diagnostic or therapeutic reagents.

Abstract: A general method for vaccinating against any pathogen is presented. The method utilizes expression library immunization, where an animal is inoculated with an expression library constructed from fragmented genomic DNA of the pathogen. All potential epitopes of the pathogen's proteins are encoded in its DNA, and genetic immunization is used to directly introduce one or more expression library clones to the immune system, producing an immune response to the encoded protein. Inoculation of expression libraries representing portions of the Mycoplasma pulmonis genome was shown to protect mice from subsequent challenge by this natural pathogen. Protection against Listeria.

Abstract: Methods and a kit are provided for characterizing small molecules from a library of small molecules or alternatively identifying protein targets to which known small molecules bind. The methods include forming hybrid ligand in which at least one ligand is a small molecule. The hybrid ligand is introduced into cells that in turn contain a first and a second expression vector. Each expression vector includes DNA for expressing a hybrid protein that encodes a target protein linked to a coding sequence for a transcriptional module. The cells further contains a reporter gene, the expression of which is conditioned on the proximity of the first and second hybrid proteins to each other, an event that occurs only if the hybrid ligand binds to target sites on both hybrid proteins. Those cell which express the reporter gene are selected and the unknown small molecule or the unknown hybrid protein is identified.

Abstract: An immunochemical method is provided for the detection and determination of an analyte. The zeta potential of a latex-particle loaded with an immunologically active substance is measured before and after bringing the loaded latex-particle into contact with an analyte. The difference in zeta potential is correlated with changes of zeta potential for known concentrations of the analyte in order to determine the presence and amount of the analyte.