Difference between revisions of "Part:BBa K258005"

 
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The purposes were to characterize the response of the promoter to changes in oxygen availability in the environment and to obtain initial insights about the mechanism(s) by the promoter is controlled.  
 
The purposes were to characterize the response of the promoter to changes in oxygen availability in the environment and to obtain initial insights about the mechanism(s) by the promoter is controlled.  
  
In our Wound Dressing project, we do not want to synthesize EGF and KGF which have cancerogenic features and tumor progression when accumulated too much. Therefore, before unuse of our band-aid,we wanted to stop synthesize these proteins unless the layer on the band-aid is removed to allow oxygen entrance,leading to function as activator of EGF promoter and so KGF synthesize via Quaroum sensing mechanism.
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In our Wound Dressing project, we do not want to synthesize EGF and KGF which have cancerogenic features and tumor progression when accumulated too much. Therefore, before unuse of our band-aid,we wanted to stop synthesize these proteins unless the layer on the band-aid is removed to allow oxygen entrance,leading to function as activator of EGF promoter and so KGF synthesize via Quaroum sensing mechanism. That is, if sufficient oxygen entrance is not allowed with removal of the layer on the band-aid, our freeze-dried E.coli will not begin to synthesize EGF and orderly KGF.
  
 
<!-- Add more about the biology of this part here
 
<!-- Add more about the biology of this part here

Latest revision as of 11:45, 17 October 2009

Oxygen promoter-Vitreoscilla hemoglobin(VHb) promoter in E. coli.

The promoter was maximally induced under microaerobic conditions (dissolved oxygen levels of less than 2% air saturation). Transcriptional activity decreased substantially under anaerobic conditions, suggesting the presence of a regulatory mechanism that is maximally induced under hypoxic but not completely anaerobic conditions in E.coli. Primer extension analysis was used to identify the existence of two overlapping promoterswithin a 150-base-pair region upstream of the structural VHb gene. The oxygen-dependent activity of both promoters was qualitatively similar, suggesting the existence of a common mechanism by which available oxygen concentrations influence expression from the two promoters.

Oxygen-dependent control mechanisms revealed in some of the above studies include positive regulation by an activator protein. The bacterium Vitreo-scilla sp. is an obligate aerobe from the Beggiatoa family that synthesizes a hemoglobinlike molecule (VHb) in response to growth in oxygen-poor environments.

The expression of the VHb gene (vgb) is regulated by oxygen in both its native host, Vitreoscilla, and in E.coli and is maximally induced under microaerophilic conditions (Dikshit and Webster 1988; Dikshit et al. 1992;Joshi and Dikshit 1994).

The purposes were to characterize the response of the promoter to changes in oxygen availability in the environment and to obtain initial insights about the mechanism(s) by the promoter is controlled.

In our Wound Dressing project, we do not want to synthesize EGF and KGF which have cancerogenic features and tumor progression when accumulated too much. Therefore, before unuse of our band-aid,we wanted to stop synthesize these proteins unless the layer on the band-aid is removed to allow oxygen entrance,leading to function as activator of EGF promoter and so KGF synthesize via Quaroum sensing mechanism. That is, if sufficient oxygen entrance is not allowed with removal of the layer on the band-aid, our freeze-dried E.coli will not begin to synthesize EGF and orderly KGF.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]