Organisms Escherichia coli K-12 Release date 2010 | Authors | |
Description Transcriptional regulation of Escherichia coli K-12 Research center Centro de Ciencias Genómicas, Universidad Nacional Autónoma de México Primary citation Gama-Castro & al. (2011) | ||
RegulonDB is a database of the regulatory network of Escherichia coli K-12. RegulonDB defines a schema to model the complex regulation of transcription initiation or regulatory network of the E. coli K-12 cell. On the other hand, it is also a model of the organization of the genes in transcription units, operons and simple and complex regulons. In this regard, RegulonDB is a computational model of mechanisms of transcriptional regulation.
Contents
Introduction
Most of the times, regulatory elements occur upstream of operons. However, there is a good number of regulatory elements (promoter and binding sites) located inside a promoter, defining a different transcription unit. An important aspect to keep in mind in order to avoid misunderstandings in the content of a database, is the fact that our current understanding and characterization of different genes, operons and regulatory mechanisms, is quite variable. For some genes, their mechanisms are very well described, whereas in other cases there is no regulation defined for a given promoter, or a promoter has been characterized upstream of a poorly characterized operon or transcription unit. Our definitions and conventions affect not only the way well-characterized systems are described, but also the way the lack of information is taken into consideration.
Definitions
Check the glossary for all definitions.
Operon
An operon is the set of one or several genes and their associated regulatory elements, which are transcribed as a single unit. The classical definition is that of a group of two or more genes transcribed as a polycistronic unit. For database purposes, we extend the definition to include the possibility of operons with only one gene. An operon is, therefore, a group of one or more contiguous genes transcribed in the same direction. Please note that given this definition, an operon must contain a promoter upstream of all genes and a terminator downstream. It is also relatively common to find operons with several promoters, some of them internally located, thus transcribing a partial group of genes. In all cases so far, one gene belongs to only one operon. The graphic display of an operon contains all the genes of its different transcription units, as well as all the regulatory elements involved in the transcription and regulation of those TUs. The genome browser shows genes and operons, accepting also monocistronic operons.
Transcription unit (TU)
A Transcription unit is a set of one or more genes transcribed from a single promoter. A TU may also include regulatory protein binding sites affecting this promoter and a terminator. Note: A complex operon with several promoters contains, therefore, several transcription units. Given the definition of an operon , at least one transcription unit must include all the genes in the operon.
Promoter
A promoter is the DNA sequence where RNA polymerase binds and initiates transcription. Notes: Promoter sequences are specific to the different sigma factors associated to the RNA polymerase core. A promoter is represented as a stretch of upper-case nucleotide sequence, 60 bases upstream and 20 downstream from the precise initiation of transcription or +1. More recently, it has been identified that there are RNAP binding sites which do not initiate transcription. Following the definition, these are not promoters, since they are not functional.
Binding site
The TFs binding sites are physical DNA sites recognized by transcription factors within a genome. Note: Historically, binding sites for transcriptional regulators were defined as operator sites. There are several meanings of an operator site. In their wider meaning, operator sites are sites for repressors or activators. Later on, the term "activator sites" was opposed to "operator sites", where operator sites were limited to sites for the binding of repressor regulators. In bacteria, specifically for Sigma 54 promoters, the term "UAS" for upstream activator sites is also used to refer to activator site that functions remotely. A related term is that of enhancers. An enhancer has been initially defined as an activator sites, that functions from far upstream, and which functions in either orientations in relation to the promoter.
Terminators
The region where transcription ends, and RNAP unbinds from DNA.
On the graphic display of the different objects in RegulonDB
The graphic display of an operon contains all the genes of its different transcription units, as well as all the regulatory elements involved in the transcription and regulation of those TUs. An operon is here conceived as a structural unit encompassing all genes and regulatory elements. An operon with several promoters located near each other may also have dual binding sites, indicating that such a site can activate one particular promoter, but repress a second one. In the same page, the collection of the different TUs is displayed below the operon. The graphic display of an operon contains all the genes of its different transcription units, as well as all the regulatory elements involved in the transcription and regulation of those TUs. The graphic display of a TU will always contain only one promoter -when known- with the binding sites that regulate its activity, followed by the transcribed genes. Note that dual sites are frequently displayed at a TU as repressors or activators. This is because the site will have a particular effect on the promoter of that TU.