Pages that link to "Q36541365"
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The following pages link to Computational identification of transcriptional regulatory elements in DNA sequence (Q36541365):
Displaying 50 items.
- Phyloscan: locating transcription-regulating binding sites in mixed aligned and unaligned sequence data (Q24621905) (← links)
- BigFoot: Bayesian alignment and phylogenetic footprinting with MCMC (Q28256772) (← links)
- Systematic identification of cis-regulatory sequences active in mouse and human embryonic stem cells (Q28757131) (← links)
- Accurate recognition of cis-regulatory motifs with the correct lengths in prokaryotic genomes (Q30492890) (← links)
- PairMotifChIP: A Fast Algorithm for Discovery of Patterns Conserved in Large ChIP-seq Data Sets (Q31142318) (← links)
- Probabilistic inference of transcription factor binding from multiple data sources (Q31150555) (← links)
- Cis-regulatory variations: a study of SNPs around genes showing cis-linkage in segregating mouse populations (Q33257734) (← links)
- A novel ensemble learning method for de novo computational identification of DNA binding sites (Q33290649) (← links)
- Identification of eukaryotic promoter regulatory elements using nonhomologous random recombination (Q33295149) (← links)
- Effective transcription factor binding site prediction using a combination of optimization, a genetic algorithm and discriminant analysis to capture distant interactions. (Q33311392) (← links)
- CompMoby: comparative MobyDick for detection of cis-regulatory motifs (Q33379295) (← links)
- Discovery of cis-elements between sorghum and rice using co-expression and evolutionary conservation (Q33475150) (← links)
- Modeling the quantitative specificity of DNA-binding proteins from example binding sites (Q33496763) (← links)
- Transcription factor site dependencies in human, mouse and rat genomes (Q33511014) (← links)
- Seed storage protein gene promoters contain conserved DNA motifs in Brassicaceae, Fabaceae and Poaceae (Q33511545) (← links)
- Improving MEME via a two-tiered significance analysis. (Q33841868) (← links)
- MotifClick: prediction of cis-regulatory binding sites via merging cliques (Q33934568) (← links)
- AMD, an automated motif discovery tool using stepwise refinement of gapped consensuses (Q34023705) (← links)
- Assessing the effects of symmetry on motif discovery and modeling (Q34031585) (← links)
- Sequence composition similarities with the 7SL RNA are highly predictive of functional genomic features (Q34080054) (← links)
- Towards biological characters of interactions between transcription factors and their DNA targets in mammals (Q34378219) (← links)
- RNA-ID, a highly sensitive and robust method to identify cis-regulatory sequences using superfolder GFP and a fluorescence-based assay (Q34457668) (← links)
- Nuclear RNA sequencing of the mouse erythroid cell transcriptome (Q34499614) (← links)
- Bayesian centroid estimation for motif discovery (Q35063740) (← links)
- Identifying functional transcription factor binding sites in yeast by considering their positional preference in the promoters (Q35080649) (← links)
- Genome-wide analysis of transcription factor binding sites and their characteristic DNA structures (Q35093204) (← links)
- SPIC: a novel similarity metric for comparing transcription factor binding site motifs based on information contents (Q35101944) (← links)
- Identifying transcriptional cis-regulatory modules in animal genomes. (Q35117066) (← links)
- NF-κB addiction and its role in cancer: 'one size does not fit all'. (Q35120893) (← links)
- Encoded expansion: an efficient algorithm to discover identical string motifs. (Q35175504) (← links)
- Sequence information gain based motif analysis (Q35836661) (← links)
- Deciphering transcriptional regulations coordinating the response to environmental changes (Q35895603) (← links)
- SCOPE: a web server for practical de novo motif discovery (Q35914127) (← links)
- Conserved Motifs and Prediction of Regulatory Modules in Caenorhabditis elegans (Q35914970) (← links)
- CLIMP: Clustering Motifs via Maximal Cliques with Parallel Computing Design. (Q36093964) (← links)
- An information transmission model for transcription factor binding at regulatory DNA sites (Q36235759) (← links)
- Evidence classification of high-throughput protocols and confidence integration in RegulonDB. (Q36543281) (← links)
- Functional genomics of the chicken--a model organism. (Q36945352) (← links)
- Evolutionary Conserved Motif Finder (ECMFinder) for genome-wide identification of clustered YY1- and CTCF-binding sites (Q37149799) (← links)
- Localization of the cis-enhancer element for mouse type X collagen expression in hypertrophic chondrocytes in vivo. (Q37195995) (← links)
- Genome-wide de novo prediction of cis-regulatory binding sites in prokaryotes. (Q37215400) (← links)
- Experimentally based contact energies decode interactions responsible for protein-DNA affinity and the role of molecular waters at the binding interface (Q37259073) (← links)
- CpG-depleted promoters harbor tissue-specific transcription factor binding signals--implications for motif overrepresentation analyses (Q37406063) (← links)
- Mechanisms and evolution of control logic in prokaryotic transcriptional regulation. (Q37590028) (← links)
- Evolution of cis-Regulatory Sequences in Drosophila (Q37786581) (← links)
- Genome‐wide maps of transcription regulatory elements (Q37788028) (← links)
- Universal protein-binding microarrays for the comprehensive characterization of the DNA-binding specificities of transcription factors (Q38356146) (← links)
- An efficient method for significant motifs discovery from multiple DNA sequences. (Q38750465) (← links)
- Identification of motifs that function in the splicing of non-canonical introns (Q40822763) (← links)
- GenomeTrafac: a whole genome resource for the detection of transcription factor binding site clusters associated with conventional and microRNA encoding genes conserved between mouse and human gene orthologs (Q41866761) (← links)