![Cap analysis of gene expression reveals alternative promoter usage in a rat model of hypertension | Life Science Alliance Cap analysis of gene expression reveals alternative promoter usage in a rat model of hypertension | Life Science Alliance](https://www.life-science-alliance.org/content/lsa/5/4/e202101234/F8.large.jpg)
Cap analysis of gene expression reveals alternative promoter usage in a rat model of hypertension | Life Science Alliance
![Functionally distinct promoter classes initiate transcription via different mechanisms reflected in focused versus dispersed initiation patterns | The EMBO Journal Functionally distinct promoter classes initiate transcription via different mechanisms reflected in focused versus dispersed initiation patterns | The EMBO Journal](https://www.embopress.org/cms/asset/e987d02c-8e8e-4546-9263-27a7be359562/embj2023113519-fig-0006ev-m.jpg)
Functionally distinct promoter classes initiate transcription via different mechanisms reflected in focused versus dispersed initiation patterns | The EMBO Journal
Distal CpG islands can serve as alternative promoters to transcribe genes with silenced proximal promoters
![Solving the transcription start site identification problem with ADAPT-CAGE: a Machine Learning algorithm for the analysis of CAGE data | Scientific Reports Solving the transcription start site identification problem with ADAPT-CAGE: a Machine Learning algorithm for the analysis of CAGE data | Scientific Reports](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41598-020-57811-3/MediaObjects/41598_2020_57811_Fig1_HTML.png)
Solving the transcription start site identification problem with ADAPT-CAGE: a Machine Learning algorithm for the analysis of CAGE data | Scientific Reports
Influence of Rotational Nucleosome Positioning on Transcription Start Site Selection in Animal Promoters | PLOS Computational Biology
![Deep cap analysis gene expression (CAGE): genome-wide identification of promoters, quantification of their expression, and network inference | BioTechniques Deep cap analysis gene expression (CAGE): genome-wide identification of promoters, quantification of their expression, and network inference | BioTechniques](https://www.future-science.com/cms/10.2144/000112802/asset/images/medium/table1.gif)
Deep cap analysis gene expression (CAGE): genome-wide identification of promoters, quantification of their expression, and network inference | BioTechniques
![Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | eLife Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | eLife](https://iiif.elifesciences.org/lax:80943%2Felife-80943-fig3-v2.tif/full/1500,/0/default.jpg)
Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | eLife
![Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | eLife Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | eLife](https://iiif.elifesciences.org/lax:80943%2Felife-80943-fig4-v2.tif/full/,1500/0/default.jpg)
Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | eLife
![Epigenomes | Free Full-Text | Promoter-Adjacent DNA Hypermethylation Can Downmodulate Gene Expression: TBX15 in the Muscle Lineage Epigenomes | Free Full-Text | Promoter-Adjacent DNA Hypermethylation Can Downmodulate Gene Expression: TBX15 in the Muscle Lineage](https://www.mdpi.com/epigenomes/epigenomes-06-00043/article_deploy/html/images/epigenomes-06-00043-g001.png)
Epigenomes | Free Full-Text | Promoter-Adjacent DNA Hypermethylation Can Downmodulate Gene Expression: TBX15 in the Muscle Lineage
![Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | bioRxiv Promoter sequence and architecture determine expression variability and confer robustness to genetic variants | bioRxiv](https://www.biorxiv.org/content/biorxiv/early/2022/10/27/2021.10.29.466407/F1.large.jpg)