Team:UCSF/Project/Conjugation/Data1

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Background Background

CRISPRi Conjugation Design Data

CRISPRi Circuit Design Data

CRISPR Conjugation - Experiments and Results

Summary: We have successfully constructed a specific gene repression system using CRISPRi that can be efficiently transmitted between cells via conjugation.

Confirming Conjugation:

For conjugation to occur, the bacterial strain that passes the plasmid must have the genes necessary to build the conjugative apparatus (a pilus) between the cells. This is normally carried on a large plasmid, called the F plasmid, that itself is transferred during conjugation, but due to its large size, it is not amenable to many cloning strategies. To combat this, we chose a bacterial strain (S17-1) that has the conjugative genes integrated into the chromosome, and a small conjugative plasmid containing the origin sequence for conjugative transfer, pARO190. We were then able to clone in sequences for dCas9 and a guideRNA for the target of our knockdown – RFP.

We first needed to confirm that conjugation was possible in our experimental setup. To test this, we co-cultured the donor strain (spectinomycin resistance) containing our empty pARO190 plasmid (carbenicillin resistance) with our target strain, which has RFP and chloramphenicol resistance intergrated into its chromosome (JM109-RFP). At certain time points, we took a sample of the co-cultures and selected for target strain cells that have received the conjugative plasmid, which we call “transconjugates”. On average, we obtained a conjugation efficiency of 0.4%.

Figure 2: Effect of co-culture time on the efficiency of conjugation. Donor and target cells were diluted and mixed together so that the initial OD600 value of each co-culture was 0.05, and co-cultured in EZ-rich media at 37 ℃ under 180rpm shaking for 2 hours, 5 hours, and 8 hours, respectively. Final cell densities were measured by plating on LB agar plates containing Spectinomycin, Chloramphenicol, and Carbenicillin + Chloramphenicol, for the selection of donor, target, and transconjugants respectively. The conjugation rate (transconjugants/target * 100%) for each experiment was 0.45%, 0.23% and 0.44%, respectively.

For the summer, we used fluorescent proteins to differentiate between our target cell strains and our unaffected cell strains. Our targeted cells will be marked with red fluorescent protein (RFP) while our unaffected cells with be marked with the fluorescent protein, citrine. Both cell strains will receive the conjugative plasmid from the donor. The gRNA-dCAS9 complex will then form and repress the production of RFP in our target cells. The RFP cell strain will no longer be able to fluoresce, since the gRNA in our conjugative plasmid only recognizes a specific site on RFP, while the citrine cell strain will be left unaffected because there is no gRNA in the conjugative plasmid that recognizes citrine.