Difference between revisions of "Part:BBa K4159009"
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Description: This part consists of the AgrC and AgrA accessory regulatory gene sequences from the S. epidermidis bacteria that are a part of the quorum sensing gene complex. The part has been used in a bioreporter to detect AIP1 signaling molecules in the surroundings. The genes are separated by an RBS and spacer sequence and at the end, there is a double terminator. The AgrC and AgrA genes are derived from the basic parts BBa_K4159007 and BBa_K4159008 respectively. The ribosome binding site is from the common iGEM registry, B0034. The double-terminator in the end is also from the iGEM part registry B0015. In the middle there are some spacer nucleotides, but no specific restriction sites due to the fact that the composed part was ordered as one full fragment to make it easier during the iGEM project. | Description: This part consists of the AgrC and AgrA accessory regulatory gene sequences from the S. epidermidis bacteria that are a part of the quorum sensing gene complex. The part has been used in a bioreporter to detect AIP1 signaling molecules in the surroundings. The genes are separated by an RBS and spacer sequence and at the end, there is a double terminator. The AgrC and AgrA genes are derived from the basic parts BBa_K4159007 and BBa_K4159008 respectively. The ribosome binding site is from the common iGEM registry, B0034. The double-terminator in the end is also from the iGEM part registry B0015. In the middle there are some spacer nucleotides, but no specific restriction sites due to the fact that the composed part was ordered as one full fragment to make it easier during the iGEM project. | ||
Characterization: The part was cloned into plasmid pET28a-sfGFP by basic restriction site cloning. The restriction sites used for cloning the part into the plasmid was XbaI and SphI. As the GFP encoding gene is already a part of the plasmid, we put this part in the opposite direction. However, with these restriction sites we also cut out the existing T7 promoter in the plasmid to replace with our own promoters, BBa_K4159011. | Characterization: The part was cloned into plasmid pET28a-sfGFP by basic restriction site cloning. The restriction sites used for cloning the part into the plasmid was XbaI and SphI. As the GFP encoding gene is already a part of the plasmid, we put this part in the opposite direction. However, with these restriction sites we also cut out the existing T7 promoter in the plasmid to replace with our own promoters, BBa_K4159011. | ||
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[[File:BBa K4159009 1.png|200px|thumb|left|BBa_K4159009 plasmid construct]] | [[File:BBa K4159009 1.png|200px|thumb|left|BBa_K4159009 plasmid construct]] |
Revision as of 17:04, 1 October 2022
AgrC + AgrA (S.epidermidis)
Description: This part consists of the AgrC and AgrA accessory regulatory gene sequences from the S. epidermidis bacteria that are a part of the quorum sensing gene complex. The part has been used in a bioreporter to detect AIP1 signaling molecules in the surroundings. The genes are separated by an RBS and spacer sequence and at the end, there is a double terminator. The AgrC and AgrA genes are derived from the basic parts BBa_K4159007 and BBa_K4159008 respectively. The ribosome binding site is from the common iGEM registry, B0034. The double-terminator in the end is also from the iGEM part registry B0015. In the middle there are some spacer nucleotides, but no specific restriction sites due to the fact that the composed part was ordered as one full fragment to make it easier during the iGEM project. Characterization: The part was cloned into plasmid pET28a-sfGFP by basic restriction site cloning. The restriction sites used for cloning the part into the plasmid was XbaI and SphI. As the GFP encoding gene is already a part of the plasmid, we put this part in the opposite direction. However, with these restriction sites we also cut out the existing T7 promoter in the plasmid to replace with our own promoters, BBa_K4159011.
For ligation of the part, we used a rapid ligation kit from ThermoFisher, however we increased the ligation time up to 1h to ensure successful ligation. The part was successfully cloned (see fig. 1 and fig.2)
As this part was transformed into the same plasmid with BBa_K4159011 later on we wanted to verify that both parts were inserted correctly. We purified the plasmid from the cells and used both parts reverse and forward primer and ran a PCR.
Figure 4. shows great results of both parts being inserted. As both parts were inserted with specific sticky end restriction sites, we believe that both parts are also inserted the correct way.
As the plasmid was purified from the cells, the cells also shifted in slight shade of green, which tells that the promoter part is inserted correctly and that the P2 promoter might be a little leaky even if it is not induced yet.
References: [1] Rutherford ST, Bassler BL. Bacterial quorum sensing: its role in virulence and possibilities for its control. Cold Spring Harb Perspect Med. 2012 Nov 1;2(11):a012427. doi: 10.1101/cshperspect.a012427. PMID: 23125205; PMCID: PMC3543102.
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]