![Mechanisms and Evolution of Control Logic in Prokaryotic Transcriptional Regulation | Microbiology and Molecular Biology Reviews Mechanisms and Evolution of Control Logic in Prokaryotic Transcriptional Regulation | Microbiology and Molecular Biology Reviews](https://journals.asm.org/cms/10.1128/MMBR.00037-08/asset/844c53de-dd08-41fd-8819-5295dfb4cf04/assets/graphic/zmr0030922210001.jpeg)
Mechanisms and Evolution of Control Logic in Prokaryotic Transcriptional Regulation | Microbiology and Molecular Biology Reviews
In prokaryotes, holoenzyme RNA polymerase attaches to the DNA sequence at the promoter site of template DNA during transcription. The sequence of that point where the RNA polymerase binds is:
![Identification of prokaryotic promoters and their strength by integrating heterogeneous features - ScienceDirect Identification of prokaryotic promoters and their strength by integrating heterogeneous features - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S088875431930374X-gr2.jpg)
Identification of prokaryotic promoters and their strength by integrating heterogeneous features - ScienceDirect
![genetics - Why are prokaryotic promoter sequences written 5' to 3', when transcription proceeds from 3' to 5'? - Biology Stack Exchange genetics - Why are prokaryotic promoter sequences written 5' to 3', when transcription proceeds from 3' to 5'? - Biology Stack Exchange](https://i.imgur.com/F4CEHRY.png)
genetics - Why are prokaryotic promoter sequences written 5' to 3', when transcription proceeds from 3' to 5'? - Biology Stack Exchange
![Frontiers | Classifying Promoters by Interpreting the Hidden Information of DNA Sequences via Deep Learning and Combination of Continuous FastText N-Grams Frontiers | Classifying Promoters by Interpreting the Hidden Information of DNA Sequences via Deep Learning and Combination of Continuous FastText N-Grams](https://www.frontiersin.org/files/Articles/491279/fbioe-07-00305-HTML/image_m/fbioe-07-00305-g001.jpg)