Abstract: An electrospraying apparatus and/or method is used to coat particles. For example, a flow including at least one liquid suspension may be provided through at least one opening at a spray dispenser end. The flow includes at least particles and a coating material. A spray of microdroplets suspending at least the particles is established forward of the spray dispenser end by creating a nonuniform electrical field between the spray dispenser end and an electrode electrically isolated therefrom. The particles are coated with at least a portion of the coating material as the microdroplet evaporates. For example, the suspension may include biological material particles.

Abstract: A system for the analysis of polyionic molecules by mass spectrometry is provided. The polyionic molecule is attached to a charged tag which neutralizes some of the charge on the polyionic analyte. The formed adduct with a reduced net charge is then analyzed by mass spectrometry, and the determined molecular weight of the adduct can be used to calculate the molecular weight of the analyte. Mass spectrometric analyses of polynucleotides and proteins are particularly amenable to this method.

Abstract: The present invention relates to means for cleaving a nucleic acid cleavage structure in a site-specific manner. Enzymes, including 5? nucleases and 3? exonucleases, are used to detect and identify nucleic acids derived from microorganisms. Methods are provided which allow for the detection and identification of bacterial and viral pathogens in a sample.

Abstract: The present invention relates to a recombinant vector comprising MJ1 gene coding an integrase derived from Enterococcus temperate bacteriophage ? FC1 and an integration method using the vector. More particularly, the present invention relates to a recombinant vector comprising MJ1 gene which can make a site-specific integration in the human cell independently without other factors but not cause an excision and an integration method using the vector. Therefore, the present invention can be very useful in gene therapy in mammalian animal.

Abstract: The invention relates to a method for identification of a compound which modulates pre-adipocyte differentiation comprising testing whether the compound modulates the activity and/or amount of O/E-1 and/or O/E-2 and/or O/E-3. The invention also relates to use of a compound able to modulate the activity or amount of O/E-1 and/or O/E-2 and/or O/E-3 in preparation of a medicament for the treatment or prevention of atherosclerosis, dyslipidemia, IRS, and type 2 diabetes.

Abstract: The present invention provides methods and compositions for producing and screening combinatorial libraries of multimeric proteins. The present invention relies on the use of filamentous fungal heterokaryons that are produced using two or more parent strains into which a population of DNA molecules encoding variants of a multimeric protein have been introduced.

Abstract: Provided are means and methods for sensing proteasome activity and other degradation pathways with a high level of sensitivity.

Abstract: Methods of obtaining faithful expression libraries from tissue samples comprise extraction of RNA from intact tissue cultured in three-dimensional sponge-gel based histocultures.

Abstract: This invention relates to non-radioactive markers that facilitate the detection and analysis of nascent proteins translated within cellular or cell-free translation systems. Nascent proteins containing these markers can be rapidly and efficiently detected, isolated and analyzed without the handling and disposal problems associated with radioactive reagents. Preferred markers are dipyrrometheneboron difluoride (4,4-difluoro-4-bora-3a,4a-diaza-s-indacene) dyes.

Abstract: Interaction of Rel proteins and steroid receptors is known to result in repression of target genes. Here we describe the discovery of a new mechanism in which Rel proteins and steroid receptors act synergistically to activate a regulatory element. This mechanism is shown to influence the expression of the brain-specific 5HT1A receptor wherein the estrogen receptor acts synergistically with the Nuclear Factor kappa B to enhance the activity of the promoter for the 5HT1A receptor gene. In addition, synergistic effects of Rel proteins with the mineralocorticoid receptor were observed, showing that synergism with Rel proteins may be expected for other steroid receptors as well. The synergism between Rel proteins and estrogen receptor or mineralocorticoid receptor provides a tool for the development of compounds that interact with the estrogen or mineralocorticoid receptor in such a way that only the synergistic effect is modulated whereas other effects are left intact.

Abstract: Tissue engineered constructs including a matrix and cells transfected with a gene for a growth factor. The constructs may be implanted into a tissue site, where the growth factor gene enhances a metabolic function furthering integration of the construct in the tissue site. If the matrix is biodegradable, the metabolic result may include resorption of the matrix and replacement with tissue synthesized at least in part by the transfected cells.

Abstract: The invention consists in the use of a maturation agent comprising a mixture of ribosomal and/or membrane fractions for the preparation of mature dendritic cells from immature dendritic cells.

Abstract: The present invention describes a mutant plasmid replication control region having the ability to convey a phenotype of altered plasmid copy number to the plasmid on which it resides. The mutant replication control region is based on a similar region isolated from the pBBR1 plasmid family. Plasmids containing this replication control region cannot be classed as belonging to any known incompatibility group and thus may co-exist with a broad range of other plasmids in a single host.

Abstract: The present invention provides compositions and methods for recombinational cloning. The compositions include vectors having multiple recombination sites and/or multiple topoisomerase recognition sites. 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.

Abstract: The invention concerns recombinant vectors replicated in mycobacteria, a set of sequences coding for exported polypeptides detected by fusion with alkaline phosphatase, in particular one polypeptide, called DP428, of about 12 kD corresponding to an exported protein found in mycobacteria belonging to the Mycobacterium tuberculosis complex. The invention also concerns methods and kits for detecting in vitro the presence of a mycobacterium and in particular a mycobacterium belonging to the Mycobacterium tuberculosis complex in a biological sample using said polypeptides, their fragments or polynucleotides coding for the latter. The invention also concerns immunogenic or vaccine compositions for preventing and/or treating infections caused by mycobacteria and in particular a mycobacterium belonging to said complex, particularly tuberculosis.

Abstract: We describe a bacterial delivery system for the delivery of DNA and antigens into cells. We constructed an attenuated bacterial vector which enters mammalian cells and ruptures delivering functional plasmid DNA and antigens into the cell cytoplasm. This Shigella vector was designed to deliver DNA to colonic surfaces, thus opening the possibility of oral and other mucosal DNA immunization and gene therapy strategies. The attenuated Shigella is also useful as a vaccine for reducing disease symptoms caused by Shigella.

Abstract: The present invention provides universal G protein-coupled receptor (GPCR) reporter constructs. The constructs comprise a serum response element, a cAMP response element, and a multiple response element. These reporter constructs are able to detect activities of all GPCRs examined. Further provided by the present invention are host cells harboring a universal GPCR reporter construct of the invention, as well as assays for detecting modulators of GPCRs using the host cells.

Abstract: The conditions under which oligonucleotide probes hybridize preferentially with entirely complementary and homologous nucleic acid targets are described. Using these hybridization conditions, overlapping oligonucleotide probes associate with a target nucleic acid. Following washes, positive hybridization signals are used to assemble the sequence of a given nucleic acid fragment. Representative target nucleic acids are applied as dots. Up to to 100,000 probes of the type (A,T,C,G)(A,T,C,G)NB(A,T,C,G) are used to determine sequence information by simultaneous hybridization with nucleic acid molecules bound to a filter. Additional hybridization conditions are provided that allow stringent hybridization of 6–10 nucleotide long oligomers which extends the utility of the invention. A computer process determines the information sequence of the target nucleic acid which can include targets with the complexity of mammalian genomes.

Abstract: A method of constructing a synthetic polynucleotide, the method including selecting a first codon of a parent polynucleotide that encodes a polypeptide for replacement with a synonymous codon, wherein the synonymous codon is selected on the basis that it exhibits a higher translational efficiency in an epithelial cell of a mammal than the first codon in a comparison of translational efficiencies of codons in test cells of the same type as the epithelial cell; and replacing the first codon with the synonymous codon to construct the synthetic polynucleotide.

Abstract: A disclosure is made of various apparatus and methods for culturing and preserving cells and tissue in ways that minimize contamination potential, direct cells to reside in desired areas, allow uniform cell distribution during seeding, provide optimal growth conditions by controlling the amount of medium residing in proximity of cells, allow desired compounds and molecules to reside in proximity of the cells, allow co-culture, provide for efficient scale up, allow a desired shape of tissue to be created while retaining a closed system, and allow cryopreservation and reconstitution of cell and tissue while retaining a closed system. The apparatus and methods can be combined to prevent the need to remove the tissue from the enclosure at any point during the sterilization, seeding, culturing, cryopreservation, shipping, or restoration process. Also disclosed is an apparatus and method of pipette interface with a container in a manner that blocks contaminants from entering the container.