Difference between revisions of "Part:BBa J23115:Experience"
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==Lambert_GA 2019 Characterization== | ==Lambert_GA 2019 Characterization== | ||
[[File:T--Lambert GA--tuningreference.png|800px]] | [[File:T--Lambert GA--tuningreference.png|800px]] | ||
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+ | <center><i>Figure 1: The highlighted points in yellow represent BBa_J23115 (reference promoter/reference RBS (BBa_B0034)) compared to the remaining nine combinations highlighted in blue. Combinations showing promoters with the same strength, but different RBS, share similar expression. An increase in promoter strength results in an increase in expression; on the other hand, changes in RBS strength has a negligible effect on expression.</i></center> | ||
====Evaluation of Anderson promoter J23115 in ''B. subtilis'' by iGEM-Team LMU-Munich 2012==== | ====Evaluation of Anderson promoter J23115 in ''B. subtilis'' by iGEM-Team LMU-Munich 2012==== | ||
This Anderson promoter was evaluated without fused RFP with the ''lux'' operon as a reporter in ''B. subtilis''. See the new BioBrick [https://parts.igem.org/Part:BBa_K823012 BBa_K823012] without RFP and have a look at the [http://2012.igem.org/Team:LMU-Munich/Data/Anderson Data] from the evaluation in ''B. subtilis''. | This Anderson promoter was evaluated without fused RFP with the ''lux'' operon as a reporter in ''B. subtilis''. See the new BioBrick [https://parts.igem.org/Part:BBa_K823012 BBa_K823012] without RFP and have a look at the [http://2012.igem.org/Team:LMU-Munich/Data/Anderson Data] from the evaluation in ''B. subtilis''. |
Revision as of 17:54, 21 October 2019
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how you used this part and how it worked out.
Applications of BBa_J23115
Lambert_GA 2019 Characterization
Evaluation of Anderson promoter J23115 in B. subtilis by iGEM-Team LMU-Munich 2012
This Anderson promoter was evaluated without fused RFP with the lux operon as a reporter in B. subtilis. See the new BioBrick BBa_K823012 without RFP and have a look at the [http://2012.igem.org/Team:LMU-Munich/Data/Anderson Data] from the evaluation in B. subtilis.
User Reviews
UNIQe040590f67d7e1dd-partinfo-00000000-QINU UNIQe040590f67d7e1dd-partinfo-00000001-QINU
iGEM CINVESTAV_IPN_UNAM CHARACTERIZATION OF IGEM DISTRIBUTION BIOPARTS
For contribute to the parts registry our team decided to make the characterization of constitutive promoters, in E. coli, belonging to the family isolated from a small combinatorial library (J23101 , J23102, J23104, J23107, J23108, J2311, and J23115) which were attached to GFP, in psB1C3, to determine promoter activity, using the equipment Victor X3 Multilabel Plate Reader.
Fig. 1 Construction of the promoter J23111 expressing GFP.
Methods
With the selected colonies, an overnight culture was made in M9 media(minimal media supplemented with 0.2% CAA). After 12 hours the culture was transferred to a 96 well plate at a 1:10 dilution (20 μl of culture and 180 μL of fresh M9 medium). OD and fluorescence measurements of the selected colonies were performed at intervals of 30 minutes for 16 h. From the results the PopS were calculated (polymerases per second).
Modeling
The ecuations used for calulated de promoter activity were based on (R. K. Jason et. al 2009).
Results
In the following graphs there is shown the GFP expression in function of th time and the realtive promotor intensity.
With the previous results of the characterization of the promoters there is concluded that the promoter J23107, is the strongest because it produces more RPUs”
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University of Texas at Austin iGEM 2019 |
UT Austin iGEM 2019: Characterization of metabolic burden of the Anderson SeriesDescriptionThe 2019 UT Austin iGEM team transformed the Anderson Series promoters into our 'burden monitor' DH10B strain of E. coli which contains a constitutive GFP cassette in the genome of the cell. This GFP expression rate fluctuates depending on the number of ribosomes available for the host cell to sustain itself. Using this strain, the relative burden (percent reduction in growth rate) of each Anderson Series part was determined. Our results showed a range of growth rate reductions for each of these parts due to ribosomal reallocation from the genome of the host cell, towards the expression of RFP. Anderson Series parts with strong promoters are depicted with darker red colors and Anderson Series parts with weak promoters are depicted with lighter pink colors to show relative RFP expression. We saw a positive correlation between relative promoter strength and metabolic burden; parts with stronger promoters expressed less GFP and had a lower growth rate than parts with weaker promoters. The regression line for the graph below was constructed by measuring the burden of 5 parts that were created by the 2019 UT Austin iGEM team that each contained an Anderson Series promoter (BBa_J23104 or BBa_J23110), an RBS of varying strength, and a BFP reporter. For more information on characterization of these parts through the burden monitor, visit our team’s wiki page: [1]
Although often we cannot avoid using a specific burdensome part, knowing in advance that it is burdensome, and that it has a high chance of mutating into a non-functional genetic device, can help with troubleshooting and coming up with alternatives. In the specific case of fluorescent protein-expressing devices, Fluorescence-activated cell sorting (FACS) can be used to filter out individual cells that meet a certain fluorescence threshold. This way, the cells expressing lower levels of the fluorescent protein are weeded out of the population. |