Team:KULeuven/Lab/Blue Light Receptor

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Contents

Planning

Goal

Purifying the promoter region of the blue light receptor from E. Coli. This region needs to be ‘cleaned’ and possible restriction sites mutated out. After a biobrick can be made.

required

  • e coli stam ( MC4100)
  • Primers (1) for PCR: already ordered (nummers: 2171 (FP) - 2172 (RP))
  • Primers (2) for ‘cleaning’ region
  • Primers (3) for biobrick (nog te maken)
  • GFP with RBS and Terminator sequence

Where from

  • Strain: from lab
  • Primers: self made and ordered
  for PCR
     Forward:  CATCAT GAATTCGCGGCCGCTTCTAGAG  TTT GAC AGG TTC GTC GTC
     Reverse: CTGCAGCGGCCGCTACTAGTA   CCT CTG TTA AAA ATG TTA ATC AAT GTT AAG 
  for ‘cleaning’ 
  for biobrick
     only when actual promoter is known
  • the GFP (BBa_E0240)came from the freezer (-80)at the lab

Steps

  1. *PCR reaction to purify suspected promoter region.
 *Probably has a promoter, RBS and SpeI restriction site.
  1. *partial digestion with SpeI.
 *After, run agarose gel to identify the correctly cut sequence and then perform a gel extraction.
 *cut with EcoRI.   
  1. *cut GFP with EcoRI and XbaI.
 *Couple PCR fragment to GFP. 
 *measure reactivity of the promoter. 
  1. *cut vector with SpeI and use klenow to create blunt ends. then ligate together.
 *use initial primers to recreate restriction sites and to select correctly ligated sequences. 
 *link to GFP to check the activity of the sequence.
  1. *“cleaning” region to strictly promoter.
 *Cutting in different pieces and measuring the GFP activity: 
   a.	Same reverse primer, shortening through forward primer.
   b.	Once there is no activity anymore with forward primer, keep it constant and shorten reverse inkorten
   c.	Once promoter found: updating those primers with a pre en suffix to make a biobrick out of the promoter

important

following conditions need to be kept in account:

  • for growth of the bacteria: 37°C
  • for expression of the genes regulated by ycgF/E system: 16°C
  • at 16°C: expression will start after 50h and a very slow reversion to the ground state of ycgF
  • working with a colony in the dark and one in light so that the effects of cold temperature on the gene expression pattern can be calculated out.
  • blue light does NOT induce stress and cell death in E. Coli
  • to monitor growth of the cells, measurement at OD 578 can be used