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Found 7 result(s)
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The Organelle Genome Megasequencing Program (OGMP) provides mitochondrial, chloroplast, and mitochondrial plasmid genome data. OGMP tools allow direct comparison of OGMP and NCBI validated records. Includes GOBASE, a taxonomically broad organelle genome database that organizes and integrates diverse data related to mitochondria and chloroplasts.
Clone DB contains information about genomic clones and cDNA and cell-based libraries for eukaryotic organisms. The database integrates this information with sequence data, map positions, and distributor information. At this time, Clone DB contains records for genomic clones and libraries, the collection of MICER mouse gene targeting clones and cell-based gene trap and gene targeting libraries from the International Knockout Mouse Consortium, Lexicon and the International Gene Trap Consortium. A planned expansion for Clone DB will add records for additional gene targeting and gene trap clones, as well as cDNA clones.
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We developed a method, ChIP-sequencing (ChIP-seq), combining chromatin immunoprecipitation (ChIP) and massively parallel sequencing to identify mammalian DNA sequences bound by transcription factors in vivo. We used ChIP-seq to map STAT1 targets in interferon-gamma (IFN-gamma)-stimulated and unstimulated human HeLa S3 cells, and compared the method's performance to ChIP-PCR and to ChIP-chip for four chromosomes.For both Chromatin- immunoprecipation Transcription Factors and Histone modifications. Sequence files and the associated probability files are also provided.
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The cisRED database holds conserved sequence motifs identified by genome scale motif discovery, similarity, clustering, co-occurrence and coexpression calculations. Sequence inputs include low-coverage genome sequence data and ENCODE data. A Nucleic Acids Research article describes the system architecture
The UniPROBE (Universal PBM Resource for Oligonucleotide Binding Evaluation) database hosts data generated by universal protein binding microarray (PBM) technology on the in vitro DNA binding specificities of proteins. This initial release of the UniPROBE database provides a centralized resource for accessing comprehensive data on the preferences of proteins for all possible sequence variants ('words') of length k ('k-mers'), as well as position weight matrix (PWM) and graphical sequence logo representations of the k-mer data. In total, the database currently hosts DNA binding data for 406 nonredundant proteins from a diverse collection of organisms, including the prokaryote Vibrio harveyi, the eukaryotic malarial parasite Plasmodium falciparum, the parasitic Apicomplexan Cryptosporidium parvum, the yeast Saccharomyces cerevisiae, the worm Caenorhabditis elegans, mouse, and human. The database's web tools (on the right) include a text-based search, a function for assessing motif similarity between user-entered data and database PWMs, and a function for locating putative binding sites along user-entered nucleotide sequences
The modENCODE Project, Model Organism ENCyclopedia Of DNA Elements, was initiated by the funding of applications received in response to Requests for Applications (RFAs) HG-06-006, entitled Identification of All Functional Elements in Selected Model Organism Genomes and HG-06-007, entitled A Data Coordination Center for the Model Organism ENCODE Project (modENCODE). The modENCODE Project is being run as an open consortium and welcomes any investigator willing to abide by the criteria for participation that have been established for the project. Both computational and experimental approaches are being applied by modENCODE investigators to study the genomes of D. melanogaster and C. elegans. An added benefit of studying functional elements in model organisms is the ability to biologically validate the elements discovered using methods that cannot be applied in humans. The comprehensive dataset that is expected to result from the modENCODE Project will provide important insights into the biology of D. melanogaster and C. elegans as well as other organisms, including humans.
>>>!!!<<<Efforts to obtain renewed funding after 2008 were unfortunately not successful. PANDIT has therefore been frozen since November 2008, and its data are not updated since September 2005 when version 17.0 was released (corresponding to Pfam 17.0). The existing data and website remain available from these pages, and should remain stable and, we hope, useful. >>>!!!<<< PANDIT is a collection of multiple sequence alignments and phylogenetic trees. It contains corresponding amino acid and nucleotide sequence alignments, with trees inferred from each alignment. PANDIT is based on the Pfam database (Protein families database of alignments and HMMs), and includes the seed amino acid alignments of most families in the Pfam-A database. DNA sequences for as many members of each family as possible are extracted from the EMBL Nucleotide Sequence Database and aligned according to the amino acid alignment. PANDIT also contains a further copy of the amino acid alignments, restricted to the sequences for which DNA sequences were found.