Part:BBa_R0061:Experience

No review score entered. iGEM Tokyo_Tech 2010

In order to characterize R0061, Plux repression promoter, we constructed K395101 combining R0061 and K121013, which is a promoter-less gfp reporter (rbs-gfp-ter-ter) on pSB6A1 and used a fusion of PlacIq (I14032) to gfp (K121013) as a positive control and used promoterless gfp (K121013) as a negative control.

Overnight cultures of reporter strains grown at 37 °C containing appropriated antibiotics were diluted at least 1:100 and incubated at 37 °C as fresh cultures. After their OD₅₉₀ reached 0.6, added 3OC6HSL. After 3 hours of induction, fluorescence intensity was measured with flow cytometry.

After 3 hours of induction by 3OC6HSL, the expression of GFP with 3OC6HSL dropped to 1/3 comparing with the expression without 3OC6HSL.

We confirmed that this promoter works correctly. (→[http://2010.igem.org/Team:Tokyo_Tech/Project/Artificial_Cooperation_System/lux_act_rep more information])

iGEM Chiba 2010

iGEM Chiba 2010

• To characterize R0061 biobrick part, we inserted a GFP reporter (E0240) under R0061 to make K396012.
• We tested whether the GFP expression is repressed by LuxR and 3OC6HSL.
• Repression could not be observed; we believe this is because we incubated the culture too much until stationary phase(see results & discussion below).
• Other experiment that uses log phase cell (the original paper and the results from iGEM Tokyo Tech above) reports that the repression occurs.

Details

Materials & Methods

• plamisd used
  1. K396012 on pSB2K3 (parts which GFP is inserted under R0061)
  2. K396011 on pSB1A3 (constitutive LuxR generator)
  3. J09250 on pSB2K3 (GFP under lac promoter) as a positive control
  4. R0061 on pSB2K3 as a negative control
  • All plasmids sequence confirmed.
  • notes: pSB2K3 is known as a very-low-copy plasmid, only in a lacIq strain. In this experiment we used DH10B which does not have lacIq.
• strain
  • DH10B
• procedure
  • plasmid 1 and 2 was cotransformed into DH10B. (plasmid 2 and 3 was used as a positive control, 3 and 4 as a negative control)
  • Colonies were cultured overnight in LB media with appropriate antibiotics.
  • Overnight cultures were diluted to 1:100 and incubated in a fresh LB medium (containing 0 or 1 uM 3OC6HSL and antibiotics) at 37 ºC for 12 h.
  • OD₆₀₀ was measured, and 200 µL of the cultures were used to measure GFP fluorescence with a fluorescence microplate reader(excitation 485 nm,emission 527 nm).

Results

Figure. Fluorescence of GFP under lux repression promoter with/without AHL. p.c. stands for positive control, n.c. stands for negative control. All biobricks are co-transformed with K396011 (constitutive luxR generator). Bar heights are normalized to OD₆₀₀ and represent the averages of three replicates; error bars, standard deviations.

• Repression were not observed in the condition we tested (see right Figure).
  
  
• Egland and Greenberg [1] (the original paper of this promoter) reported a strong repression of "Plux repression promoter" using log phase cells.
• The results from iGEM Tokyo Tech 2010 (above in this page) shows about 1/3 repression also using log phase cells.
• Cox et al. [2] reported that the "Plux repression promoter"' does not work. This paper measured the cells in a stationary phase (cultured at 25 ºC for 18 h) as our team did (at 37 ºC for 12 h).
  
  
• From these information, we believe that the reason why we couldn't observe the repression is because we performed the experiment using stationary phase cells, not log phase cells.
  

Reference

<biblio>

1. Egland pmid=10633117
2. Cox pmid=18004278

</biblio>