Predictions on CAGE supported bidirectional loci. AiA: Active in the FANTOM Enhancer Atlas; IiA: Inactive in the FANTOM Enhancer Atlas; NiA: Not included in the FANTOM Enhancer Atlas; Specific: Predicted cell-specific A-Es. (ZIP 4820 kb
With advances in sequencing technology, a vast amount of genomic sequence information has become ava...
Eukaryotic Transcription is regulated by transcription factor (TF) proteins that are recruited at th...
Additional file 3: Operon predictions. Column 1 contains genes, and column 2 contains the operon int...
Genome-wide predictions of cis-regulatory regions for all six cell types. (ZIP 20400 kb
This file contains supplemental Tables S1-S7, and supplemental Figures S1-S30. (PDF 27600 kb
Background: In the human genome, 98% of DNA sequences are non-protein-coding regions that were previ...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
Abstract Background In the human genome, 98% of DNA sequences are non-protein-coding regions that we...
Figure S10. ChIP-seq and DNase-seq data from mES cells can also be used as input. (PDF 136 kb
Figure S9. Simulations predict the effect of protein knock-outs on the β globin locus. (PDF 553 kb
Figure S6. Variation of model parameters does not lead to large changes in the resulting configurati...
Figure S5. Simulation results show good agreement with fluorescence in situ hybridization measuremen...
Figure S7. ChIP-seq and DNase-seq data are used as input to a model of the β globin locus. (PDF 309...
The majority of the human genome consists of non-coding regions that have been called junk DNA. Howe...
With advances in sequencing technology, a vast amount of genomic sequence information has become ava...
Eukaryotic Transcription is regulated by transcription factor (TF) proteins that are recruited at th...
Additional file 3: Operon predictions. Column 1 contains genes, and column 2 contains the operon int...
Genome-wide predictions of cis-regulatory regions for all six cell types. (ZIP 20400 kb
This file contains supplemental Tables S1-S7, and supplemental Figures S1-S30. (PDF 27600 kb
Background: In the human genome, 98% of DNA sequences are non-protein-coding regions that were previ...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
Background: In the human genome, 98% of DNA sequences are non-protein-coding region...
Abstract Background In the human genome, 98% of DNA sequences are non-protein-coding regions that we...
Figure S10. ChIP-seq and DNase-seq data from mES cells can also be used as input. (PDF 136 kb
Figure S9. Simulations predict the effect of protein knock-outs on the β globin locus. (PDF 553 kb
Figure S6. Variation of model parameters does not lead to large changes in the resulting configurati...
Figure S5. Simulation results show good agreement with fluorescence in situ hybridization measuremen...
Figure S7. ChIP-seq and DNase-seq data are used as input to a model of the β globin locus. (PDF 309...
The majority of the human genome consists of non-coding regions that have been called junk DNA. Howe...
With advances in sequencing technology, a vast amount of genomic sequence information has become ava...
Eukaryotic Transcription is regulated by transcription factor (TF) proteins that are recruited at th...
Additional file 3: Operon predictions. Column 1 contains genes, and column 2 contains the operon int...
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