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Revision as of 14:20, 28 October 2017
Design
Through a great amount of RNA-seq and RT-qPCR work, we identified three genes (nasA, amtB, yrbD) in the B.subtilis NCIB 3610, which could be induced in the presence of L-theanine. lacZ reporter gene was fused to nasA,amtB,yrbD respectively.
~How to introduce lacZ sequence?~
lacZ reporter gene was introduced to the target sites via “homologous recombination”.
This year, we have submitted 3 BioBricks parts to the registry. Figure.1 shows the design of our BioBrick. In our BioBrick, lacZ gene and cat (chloramphenicol acetyltransferase) genes are flanked by the DNA sites for recombination to occur. The sequences for recombination depends on the target genes and homologous to the sequence flanking the target gene. We named these flanking sequences, “recombination site A” and recombination site B”.
When the recombination take place at these two sites(double recombination), lacZ and cat genes are inserted into the chromosome as illustrated in Figure.2. We designed the recombination sites to insert lacZ immediately downstream of three genes we had identified.
In our BioBrick parts,lacZ does not include promoter region, so each part doesn't have any function by itself unless it is inserted onto B.subtilis chromosome.cat genes can be used as selection marker.The size of recombination sites are about 700 bp each, which is long enough to ensure the stable recombination in B.subtilis. LacZ(without promoter) and cat(with promoter+RBS) genes sequences were amplified by PCR from commercialized plasmid, pMutin2 and pSweet respectively.The recombination sites sequence were amplified from genomic DNA of B.subtilis with overlap sequences for cloning. Four fragments in our biobrick are assembled togetherby Gibson assembly.
Illegal restriction sites for iGEM use were later removed by base substitution using gblock Gene Fragments from IDT.
B.subtilis is known to have natural competence of transformation[1]. Just by adding our BioBrick parts to B.subtilis competent cells according to our protocols, the DNA can be taken into the cells, and cause the recombination with chromosomal DNA.
Reference
[1] Dubnau, David. "DNA uptake in bacteria." Annual Reviews in Microbiology 53.1 (1999): 217-244..
