Part:BBa_E1010:Experience
This experience page is provided so that any user may enter their experience using this part.
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how you used this part and how it worked out.
RFC25 compatible version of this BioBrick is available
The iGEM-Team iGEM14_LMU-Munich did two silent mutations to delete the two AgeI restriction sites within this BioBrick in order to gain a RFC25 compatible version of the BioBrick BBa_E1010. This new BioBrick is called BBa_K1351021
RANDOM SEQUENCE FOUND WITHIN PART
CGCTGATAGTGCTAGTGTAGATCGC is found after the RFP stop codon and before the BioBricks suffix. Should not affect transcription or translation of RFP, but good to keep note of it especially in analyzing sequencing results. (KP of siGEM)
- Please note that the above sequence is the old "barcode" sequence added to all of the original CDSs in the early BioBrick part collections. I.e., it's not a random sequence. See https://parts.igem.org/cgi/htdocs/barcodes.cgi for more information (D. Endy).
- FURTHER NOTE The Registry is not displaying barcodes on any of the original parts. The presented sequence information is wrong. This is a serious bug in the Registry that need to be fixed (D. Endy). Drew 14:34, 1 November 2010 (UTC)
Applications of BBa_E1010
iGEM14_Carnegie_Mellon. We characterized a set of fluorescent proteins consisting of BFP. GFP, YFP, OFP, and RFP. We calculated the signal-to-noise ratio of all the proteins in two different cell lines (MACH and Top10). RFP had a high signal-to-noise ratio in both cell lines. RFP was measured at (ex/em = 584nm/607nm).
User Reviews
UNIQ9a44687addf52563-partinfo-00000000-QINU
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Hong Kong-CUHK iGEM 2017 |
Charaterization of mRFP pH stabillity We grew C41 bacteria with parts BBa_J61002 in 2XYT for 24 hours. Purifying the mRFP by Ion Exchange Chromatography and Hydrophobic Interaction Chromatography, we measured the fluoresece (ex ,em ) of purified mRFP. which is diluted to 10µg/100µl (total 200µl) in triplicates, into different buffers (ranges from pH2 to pH12). The result shows that the stability drops dramatically in condition below 6 and relatively stable in pH 6-10. |
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Immudzen |
As part of the 2013 CU Boulder project we worked on separating RFP from AmilCP and during that process we ran into a problem that the fluorescence of RFP is too close to the absorption of AmilCP to tell them apart. What we ended up doing was measuring the spectrum of RFP from 400nm to 600nm. What we found is that RFP has a secondary absorbance peak at 502nm which is well clear of AmilCP. Under the devices we had access to this secondary peak also remained in the linear region of our device over a much wider concentration range. We also found that when running on an agarose gel RFP will run down on the gel while AmilCP runs up on the gel. |
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HIT-Harbin |
1)Measuring absorbance of RFP
We grew bacteria without device(BBa_J04450) and bacteria with parts BBa_J04450 in same volume until stationary phase. Taking bacteria without device as background, we measured the absorbance of bacteria with our device (the max absorption peak is 504nm).But absorbance in 504nm is higher than 1,which present a bad linear relation between absorbance and concentraton. RFP has absorption in 450nm,and absorbance is between 0.1 and 1(better linear relation).Occasionally, we find a RFP standard curve under 450nm on the web.Before the mensuration, we diluted the two groups according to table1. We took the mean of two measures as the useful data. "" Fig.1 RFP absorbance varying with wave length Table 1 Dilution of Two groups of bacteria "" "" Fig 2. The relationship between RFP concentration and absorbance(OD450) 2)The actual relationship between RFP concentration and absorbance "" Fig 3. RFP standard curve obtain from the web absolute concentration, and finally get the relationship between IPTG concentration and RFP concentration. Compared to crushing cells to separate RFP, our method is simpler and easy topractice. Moreover, our relative concentration curve is credible. If the standard curve is reliable, our calculated result of RFP will be precise. |
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Carnegie_Mellon 2013 |
Characterization of the Photostability of mRFP1 XL10 Ultracompetent cells were transformed with BBa_E1010 cloned with BBa_B0034 as the RBS and BBa_R0010 as the wild-type lac promoter and induced overnight with IPTG.The overnight was bleached for 180 minutes with HBO100 (100W Mercury-arc lamp). Fluorescence data was taken using a Tecan Safire II with the parameters shown in Table 3. Fluorescence values are shown in Table 4.
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KAIST_iGEM_2012 |
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DTU_igem_2010 |
Characterization of RFP BBa_E1010 Method Results
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Antiquity |
This review comes from the old result system and indicates that this part did not work in some test. |
Nkessler |
We successfully used this part for a read out system, e.g. in BBa_K389016. Additionally we compared it with a luciferase: BBa_K389004. |