Difference between revisions of "Promoters"

(An input/output description of promoter function)
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[[Catalog|< Back to Catalog]]
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{|width=800px
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|align='center' width=80px | {{Click || image=RegistryList.png | link=Promoters/Catalog|width=50px | height=50px }}
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|align='center' width=80px |{{Click || image=Plasmidconstructionbutton.png | link=Promoters/Design |width=50px | height=50px }}
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|align='center' width=80px |{{Click || image=Plasmidhelpbutton.png | link=Help:Promoters |width=48px | height=48px }}
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|-
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| align='center' width=80px |'''[[Promoters/Catalog|Promoter catalog]]'''
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| align='center' width=80px |'''[[Promoters/Design|Promoter design]]'''
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| align='center' width=80px |'''[[Help:Promoters|Promoter help]]'''
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|}
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{{:Promoters/Overview}}
 
{{:Promoters/Overview}}
 
The Registry has a large collection of promoters both unregulated and regulated.  Most of our promoters are designed to be recognized by ''E. coli'' RNA polymerase but we also have several promtoers that are recognized by T7 RNA polymerase and other RNA polymerase holoenzymes.
 
  
 
===An input/output description of promoter function===
 
===An input/output description of promoter function===
Sometimes, it is appropriate to ignore the mechanistic details of how a promoter works and think of a promoter as a device that converts some set of inputs into some set of outputs.  Such an approach may be appropriate when designing a multi-component system that includes promoters whose activity must be regulated by other species in the system.  A promoter can be thought of as a device that outputs a certain number of transcribing RNA polymerases per unit time.  In that sense, a promoter might be thought of as a "source" or "generator" of transcriptional activity.  Promoters can have different numbers of inputs.  A constitutive promoter has no inputs.  Technically, even a constitutive promoter has inputs, such as the level of free RNA polymerase, but we often assume that levels of free RNA polymerase are either unchanging, or are changing but are never the limiting factor in transcription initiation.  The level of a repressor protein than negatively regulates a promoter might be considered an input to a promoter.   
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Sometimes, we ignore the details of how a promoter works and think of a promoter as a device that converts inputs into outputs.  You can do this when designing a multi-component system that includes promoters whose activity must be regulated by other species in the system.  A promoter can be thought of as a device that outputs a certain number of transcribing RNA polymerases per unit time.  Promoters can have different numbers of inputs.  A constitutive promoter has no inputs.  Technically, even a constitutive promoter has inputs, such as the level of free RNA polymerase, but we often assume that levels of free RNA polymerase are either unchanging, or never be the limiting factor in transcription initiation.  The level of a repressor that negatively regulates a promoter is an input to a promoter.   
 
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{|width=800px
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|align='center' width=80px | {{Click || image=RegistryList.png | link=Promoters/Catalog|width=50px | height=50px }} |'''[[Promoters/Catalog|Catalog]]''': Are you looking for a promoter to use?  The registry has a collection of bacterial, phage, eukaryotic, and viral promoters.
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|-
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|align='center' width=80px |{{Click || image=Plasmidconstructionbutton.png | link=Promoters/Design |width=50px | height=50px }}
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|'''[[Promoters/Design|Design]]''': Are you interested in designing a new promoter or promoter family?  Here are some guidelines to help you design and document new promoters.
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|-
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|align='center' width=80px |{{Click || image=Plasmidhelpbutton.png | link=Help:Promoters |width=48px | height=48px }}
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|'''[[Help:Promoters|Help]]''': A glossary, and further reading on promoters. 
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|}
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==References==
 
==References==
<biblio>
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*PMID 1093168
#pribnow pmid=1093168
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*PMID 3550697
#harley pmid=3550697
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*PMID 8479900
#lisser1 pmid=8479900
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*PMID 8055959
#lisser2 pmid=8055959
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</biblio>
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Latest revision as of 19:15, 12 June 2015

Promoter catalog Promoter design Promoter help


The registry symbol for a promoter is shown above a typical sequence for a bacterial promoter. The lavender shaded boxes indicate the two most conserved regions of a bacterial promoter and are located at -10 and -35 bases from the transcriptional start site (shaded in green). There are, on average, 17bp between the -10 and -35 sites and 7bp between the -10 site and the transcriptional start site pribnowharleylisser1lisser2.

A promoter is a DNA sequence that can recruit transcriptional machinery and lead to transcription of the downstream DNA sequence. The specific sequence of the promoter determines the strength of the promoter (a strong promoter leads to a high rate of transcription initiation).

In addition to sequences that "promote" transcription, a promoter may include additional sequences known as operators that control the strength of the promoter. For example, a promoter may include a binding site for a protein that attracts or obstructs the RNAP binding to the promoter. The presence or absence of the protein will affect the strength of the promoter. Such a promoter is known as a regulated promoter.

An input/output description of promoter function

Sometimes, we ignore the details of how a promoter works and think of a promoter as a device that converts inputs into outputs. You can do this when designing a multi-component system that includes promoters whose activity must be regulated by other species in the system. A promoter can be thought of as a device that outputs a certain number of transcribing RNA polymerases per unit time. Promoters can have different numbers of inputs. A constitutive promoter has no inputs. Technically, even a constitutive promoter has inputs, such as the level of free RNA polymerase, but we often assume that levels of free RNA polymerase are either unchanging, or never be the limiting factor in transcription initiation. The level of a repressor that negatively regulates a promoter is an input to a promoter.

References