p15A-cas9

p15A-cas9

Composite Part: BBa_K4876011 (p15A-Cas9-λ-Red)

Summary

Based on BBa_K2200005(Cas9), we constructed a new plasmid BBa_ K4876011(p15A-Cas9-λ-Red ) with replicon p15A and self-cleavage gRNA. The main purpose of p15A replicon is improved editing efficiency. Self-cutting gRNA mainly avoid the impact on the environment and protect the privacy of our products. Data supplement is carried out in the following two aspects:

1. Cas9 Protein expression in the E.coil BL21

2. Verification of editing efficiency at gntT and lacZ in Escherichia coil Nissle 1917

Construction Design/Engineering Principle

BBa_K4876011 (p15A-Cas9-λ-Red) is composed of BBa_K2200005 (Cas9), BBa_K4876005 (λ-Red), and BBa_K4876015 (p15A). The main purpose of p15A replicon is improved editing efficiency. Self-cutting gRNA mainly avoids the impact on the environment and protects the privacy of our products. Data supplement is carried out in the following two aspects:

1. A new plasmid BBa_K4876011 (p15A-Cas9-λ-Red) was constructed.
2. Cas9 was expressed in E.coli (DE3).

The original Cas9 encoding plasmid has a lower copy of pSC101 origin. We selected the higher copy p15A origin to increase Cas9 expression. This allows the retention of functional Cas9 during host editing to ensure normal CRISPR-Cas system operation, reducing escape rates and improving editing efficiency. In addition, the incorporation of the λ-Red recombination system can enhance editing efficiency, so we constructed the p15A-Cas9-λ-Red plasmid (Figure 1).

Figure 1: Engineering frame of the p15A-Cas9-λ-Red plasmid.

Experimental Approach

To construct p15A-Cas9-λ-Red, we amplified p15A and Cas9-λ-Red using primers with homology arms and recombined them using a cloning kit to generate p15A-Cas9-λ-Red. After transformation, single colonies grew on LB plates. Colony PCR and sequencing verified the correct construction of the p15A-Cas9-λ-Red plasmid (Figure 2).

Figure 2: The construction results of p15A-Cas9-λ-Red.
(A) Colony PCR results. (B) Sequencing results.

Characterization/Measurement

To verify Cas9 expression in E. coli Nissle 1917, we transformed the constructed p15A-Cas9-λ-Red plasmid. After inducing expression, we lysed the cells by sonication and purified Cas9. The results showed that we successfully induced Cas9 protein expression (Figure 3).

Figure 3: The SDS-PAGE result of p15A-Cas9-λ-Red protein expression.

Subsequently, we tested the induction of Cas9 expression by different concentrations of L-arabinose. The results showed that with higher concentrations of L-arabinose, the expression of Cas9 was higher, suggesting that we could control the level of Cas9 by regulating the addition of L-arabinose (Figure 4).

Figure 4: Results of Cas9 protein induction by L-arabinose.
(A) Standard curve of BSA concentration. (B) The curve of Cas9 concentration.

Sequence and Features