Abstract: In alternative embodiments, the invention provides computational algorithms, computer programs, software and other methods, systems and products of manufacture (e.g., computers, devices or apparatus) for identifying members of microbial communities, their abundance and distribution from amplicon sequence data, and comparing microbial communities and consortia. In alternative embodiments, the invention provides computer-implemented methods comprising a subset of, substantially all, or all of the steps as set forth in the flow chart of FIG. 1, FIG. 3 or FIG. 4. In alternative embodiments, the invention provides methods for identification of consortia, optionally followed by construction of artificial microbial consortia from pure strains or enrichment cultures. In alternative embodiments, the invention provides compositions, fluids, bioreactors, muds, reservoirs or products of manufacture comprising a synthetic microbial consortium made by the method of the invention.

Abstract: In alternative embodiments, the invention provides computational algorithms, computer programs, software and other methods, systems and products of manufacture (e.g., computers, devices or apparatus) for identifying members of microbial communities, their abundance and distribution from amplicon sequence data, and comparing microbial communities and consortia. In alternative embodiments, the invention provides computer-implemented methods comprising a subset of, substantially all, or all of the steps as set forth in the flow chart of FIG. 1, FIG. 3 or FIG. 4. In alternative embodiments, the invention provides methods for identification of consortia, optionally followed by construction of artificial microbial consortia from pure strains or enrichment cultures.

Abstract: The present invention provides methods for analyzing exon expression profiles of a cell or type of cell. In the invention, the expression levels of a plurality of individual exons or multiexons for each of a plurality of genes in the genome of an organism are measured and analyzed to determine the biological state, such as the exon expression state or transcriptional state, of the cell or type of cell. The methods of the invention are useful for determination of alternative RNA splicing in a plurality of genes. The invention also provides nucleic acid probe arrays for determining in parallel the expression levels of a plurality of exons or multiexons for each of a plurality of genes in the genome of an organism. The invention further provides methods for determining the effects of perturbations, such as perturbations by drugs, on exon expression and alternative RNA splicing pathways.

Abstract: The present invention relates to methods of identifying genes whose expression is indicative of activation of a particular biochemical or metabolic pathway or a common set of biological reactions or functions in a cell (“regulon indicator genes”) The present invention provides an example of such an indicator gene. The present invention also relates to methods of partially characterizing a gene of unknown function by determining which biological pathways, reactions or functions its expression is associated with, thereby placing the gene within a functional genetic group or “regulon”. These partially characterized genes may be used to identify desirable therapeutic targets of biological pathways of interest (“regulon target genes”) The present invention provides examples of such target genes. Methods for identifying effectors (activators and inhibitors) of regulon target genes are provided. The present invention also provides examples of regulon target gene inhibitors.

Abstract: The invention relates to methods and systems (e.g., computer systems and computer program products) for identifying and characterizing genes using microarrays. In particular, the invention provides for improved, robust methods for detecting genes through the use of microarrays to analyze the expression state of the genome. Genes which are expressed can be mapped to their respective positions in the genome, and the structure of such genes can be determined.

Abstract: The invention relates to methods and systems (e.g., computer systems and computer program products) for identifying and characterizing genes using microarrays. In particular, the invention provides for improved, robust methods for detecting genes through the use of microarrays to analyze the expression state of the genome. Genes which are expressed can be mapped to their respective positions in the genome, and the structure of such genes can be determined.

Abstract: The present invention relates to methods of identifying genes whose expression is indicative of activation of a particular biochemical or metabolic pathway or a common set of biological reactions or functions in a cell (“regulon indicator genes”) The present invention provides an example of such an indicator gene. The present invention also relates to methods of partially characterizing a gene of unknown function by determining which biological pathways, reactions or functions its expression is associated with, thereby placing the gene within a functional genetic group or “regulon”. These partially characterized genes may be used to identify desirable therapeutic targets of biological pathways of interest (“regulon target genes”) The present invention provides examples of such target genes. Methods for identifying effectors (activators and inhibitors) of regulon target genes are provided. The present invention also provides examples of regulon target gene inhibitors.

Abstract: The invention relates to methods and systems (e.g., computer systems and computer program products) for identifying and characterizing genes using microarrays. In particular, the invention provides for improved, robust methods for detecting genes through the use of microarrays to analyze the expression state of the genome. Genes which are expressed can be mapped to their respective positions in the genome, and the structure of such genes can be determined.