One approach to delete the key from the genome of B. subtilis is making
use of the nucA BioBrick (BBa_K729004). The nucA is a nuclease gene which has
its origin in the genome of Staphylococcus aureus. It is capable of
digesting genetic material. The RBS is from BioBrick (BBa_B0030). The
combination of these two BioBricks is the first step of achieving our nucA
killswitch, which consist of the tetR repressible promoter (BBa_R0040), the RBS
controlling the nucA gene (BBa_B0030) and double terminator (BBa_B0015). 01/08/16: The RBS (BBa_B0030) was obtained from the part distribution 2016,
the plasmid was transformed to E. coli Top10 using this
protocol. The nucA (BBa_K729004) was requested from
the iGEM headquarters. Colonies from these transformations were
cultured in LB medium. Grown cultures of E. coli Top10 with RBS and nucA
were used to obtain a glycerol stocks and plasmid
isolation was performed (QIAprep® Spin Miniprep Kit). The concentration of the
plasmids obtained was measured on Nanodrop. The plasmids were stored at
-20°C. 28/09/16: On this day restriction digestion of RBS (BBa_B0030) and nucA
(BBa_K729004) was performed. The backbone RBS (BBa_B0030) was
digested with SpeI and PstI. The insert nucA was digested with XbaI and
PstI. 20 μl RD assay was performed according to the following
protocol. The digestion mixture of backbone RBS in pSB1C3 and insert nucA was
loaded on a gel to extract both parts. For detailed information on how
to prepare and run agarose gel see following
protocol. The digestion was successful because the band of the nucA could be
seen: 500 bp and RBS in pSB1C3 showed a band of 2,000 bp. Digested nucA and RBS in pSB1C3 were cut out from the gel and DNA
was extracted by (Agarose Gel Extraction Kit – Jena Bioscience). 28/09/16: The cut nucA was ligated to the SpeI and PstI cut RBS in
pSB1C3. 20 μl ligation assay was performed according to the following
protocol. 28/09/16: The ligation mix was heat shock transformed to competent Top10
E. coli cells following the transformation protocol.
Cells were plated on 50 μg/ml chloramphenicol LB agar to select the
correct constructs. The next day colonies were picked to perform colony
PCR to find the correct constructs with the primers VF2 and VR. Find
primers here. 25 μl PCR assay was performed according to the following
protocol. For detailed information on how to prepare and run agarose gel see
the following protocol. Transformation of RBS+nucA in pSB1C3 in E. coli Top10 appeared to be
successful. The samples 2, 5, 6 and 7 showed the right size of band.
These samples were used to obtain the plasmid from an overnight culture. 29/09/16: Grown cultures of E. coli Top10 with RBS+nucA in pSB1C3 were
used to obtain the glycerol stocks and plasmid isolation was
performed (QIAprep® Spin Miniprep Kit). Firstly, concentration of the plasmids
obtained was measured on Nanodrop. Secondly, plasmids were sent for
sequencing and then stored at -20°C. Plasmids RBS+nucA in pSB1C3 from colonies 2, 5, and 7 were sent for
sequencing with the sequencing primers VF2 and VR. (See
primer list). Sequencing results showed that the nucA was cloned in the pSB1C3
backbone but the RBS was missing and the suffix was also incorrect. See
Figure 4. The nucA (BBa_K729004) received from the iGEM headquarters was
sent for sequencing as well. It turned out that the part BBa_K729004
does have the nucA gene but the prefix and suffix are incorrect . See
sequencing results in Figure 5 to 7. We wanted to improve the BBa_K729004 part by giving it the correct prefix and suffix. Unfortunately we did not succeed to complete this task. RBS+nucA in pSB1C3
Obtaining RBS (BBa_B0030) and nucA (BBa_K729004)
Experiment:
Restriction digestion
Experiment:
RD mixture:
DNA Electrophoresis:
Conclusion:
Procedure after gel validation:
Ligation
Experiment:
Ligation mixture:
Transformation
Experiment:
PCR mixture:
PCR set-up:
95ºC 2:00 min 95ºC 30s (30X) 60ºC 30s (30X) 72ºC 30s (30X) 72ºC 2:00 min 10ºC on hold DNA electrophoresis:
Conclusion:
Validation
Experiment:
Sequencing:
Conclusion:
Experiments