Part:BBa_K5179104

P4 dCas9-omega Cosmid

The dCas9-omega P4 cosmid is an iteration on the P4 cosmid. Whereas the original P4 cosmid, which was designed by Dr. Fa-Arun (Fa-Arun et al., 2023), was designed to induce sequence specific killing by inducing a double stranded break in a gene target specified by a Cas9 crRNA, the dCas9-omega cosmid uses a catalytically dead variant of Cas9 fused on its c-terminus to the omega subunit of RNA polymerase. dCas9 shows no DNA cleavage activity but retains its RNA guided binding ability. By specifying a binding target (ideally ~40-60bp) upstream of a transcription start site, dCas9-omega can upregulate genes by promoting the assembly of RNAP (Bilkard et al., 2023).

The device includes outward facing BsaI cut sites between the direct repeats of its crRNA region, allowing for easy insertion of a crRNA. The crRNA specifies the target sequence dCas9-omega will bind to. The crRNA fusion sites are not used in the iGEM type IIS/MoClo assembly standards, thus dCas9-omega P4 cosmid is suitable for level 0 IIS/MoClo assembly if a crRNA spacer insert with suitable fusion sites is used as a fragment in the assembly.

Usage and Biology

Plasmids containing the dCas9-omega cosmid can package into the capsids of phage P2, just as the bacteriophage satellite P4 can. In the presence of P2 late genes, P2 terminase will create staggered nicks in the cos site on the device, linearizing any plasmid the device is on, and package it inside a P2 capsid. The device also includes the P4 sid operon which codes for proteins which interface with P2 capsid proteins and cause them to take on an alternative geometry with reduced volume. This effectively excludes large DNA molecules (>30kb) from being packed, such as copies of P2’s chromosome, but permits smaller molecules around the size of P4’s genome (~11.6kb) to pack. P2 structural genes will assemble with the packaged capsids to form mature transducing agents, which can then be used to transduce a plasmid containing this device into new bacterial hosts.

In our project we used the dCas9-omega P4 cosmid to create transducing units which, upon transduction into their host, silenced a targeted gene. We did this by co-transforming a plasmid carrying the device along with a plasmid expressing the P2 tail fiber protein into E. Coli EMG C5545 ∆cosσε ∆HG (AddGene Bacterial strain #197132), which is lysogenic for a mutant P2 phage which lacks its cos site and tail fiber protein, and has been engineered so that expression of its late genes are expressed by an L-Rhamnose promoter. This bacterial strain, engineered by Dr. Fa-Arun (Fa-Arun et al., 2023), was specially designed for use with the P4 cosmid system. We have shown it to work well with our iterations on the original P4 cosmid and we recommend using it when producing transducing units with this part.

Sequence and Features