Part:BBa_K1104204
AhpCp2D1
AhpCp2D1 is a ROS-induced promoter, which is controlled by OxyR (transcription factor) activated by ROS (Reactive Oxygen Species).
AhpCp2D1 is composed of AhpCp2 (Part:BBa_K1104205), reverse promoter DsbGp (Part:BBa_K1104208),and AhpCp1 (Part:BBa_K1104207). There are also two dual-TFBSs (Transcription Factor Binding Site) for OxyR binding between AhpCp2 and DsbGp.
Improvement
We improved a BioBrick Part: ahpC promoter (Part:K362001) designed by [http://2010.igem.org/Team:KIT-Kyoto/Parts 2010 KIT-Tokyo team]. On PartRegistry, the complex part(according to [http://ecocyc.org/ECOLI/new-image?object=EG11384 Ecocyc]) composition contains hybrid promoters, shared TFBS (Transcription Factor Binding Site), and reverse promoter DsbG. In this part AhpCp2D1, we succesfully mutated the PstI cutting site (ctgcag->ctacag) of ahpC promoter (Part:K362001), and removed the dsbG coding sequence.
ahpC promoter, as well as its improvement, can be activated by OxyR (Part:BBa_K1104200).
We annotated it thouroughly based on data from ([http://ecocyc.org/ECOLI/new-image?object=EG11384 Ecocyc]), and found that it contains dsbG coding sequence, AhpCp2 (Part:BBa_K1104205), reverse promoter DsbGp (Part:BBa_K1104208),and AhpCp1 (Part:BBa_K1104207), and a PstI cutting site. Thus we improved the promoter by first mutating the PstI cutting site in ahpCp (Part:BBa_K362001) and make dsbG coding removed.
Where is AhpCp2D1 improved?
In this part,the PstI cutting site in ahpCp (BBa_K362001) is mutated at one point.
How ahpCp (Part:BBa_K362001) is improved?
Here is the overview about the other ahpC promoter (Part:BBa_K362001) improvements:
- AhpCp1000 (Part:BBa_K1104204): The PstI cutting site is mutated.
- AhpCp2 (Part:BBa_K1104205): Only one promoter(AhpCp2) and its TFBS.
- AhpCpD1 (Part:BBa_K1104206): Bidirectional promoter: AhpCp1 and DsbGp(reverse promoter), and their shared TFBS are left.
- AhpCp1 (Part:BBa_K1104207): Only one promoter(AhpCp1) and its TFBS.
- DsbGp (Part:BBa_K1104208): Only the reverse promoter(DsbGp) and its TFBS.
Usage and Biology
We designed circuit fighting against Nosema ceranae. After Nosema ceranae infected midgut cells of bees, and Bee. coli should sense the pathogen first before the following circuit(fighting against Nosema ceranae)is triggered, and substance such as Defensin(Part:BBa_K1104300), Abaesin(Part:BBa_K1104301) (more details on [http://2013.igem.org/Team:NYMU-Taipei/Project/Inhibition/Killing Killing Nosema] page) in the following circuit will express.
To enhance the strength , we added a device (more details on [http://2013.igem.org/Team:NYMU-Taipei/Project/Inhibition/Sensor Sensing Nosema] page).
Related Parts
- ahpC(Part:BBa_K362001)
- AhpCp1000(Part:BBa_K1104203)
- Part:BBa_K1104243: AhpCp1000+E0840
- AhpCp2D1(Part:BBa_K1104204)
- Part:BBa_K1104244: AhpCp2D1+E0840
- AhpCp2(Part:BBa_K1104205)
- Part:BBa_K1104245: AhpCp2+E0840
- AhpCpD1(Part:BBa_K1104206)
- Part:BBa_K1104246: AhpCpD1+E0840
- AhpCp1(Part:BBa_K1104207)
- Part:BBa_K1104247: AhpCp1+E0840
- DsbGp(Part:BBa_K1104208)
- Part:BBa_K1104248: DsbGp+E0840
- AhpCp1000(Part:BBa_K1104203)
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
None |