Cre Recombinase, TAT-Cre (Tat-NLS-Cre, HTNC, HTNCre)

Cre recombinase, often abbreviated to Cre, is a Type I topoisomerase from P1 bacteriophage that catalyzes site-specific recombination of DNA between loxP sites. This enzyme does not require any energy cofactors, and Cre-mediated recombination quickly reaches equilibrium between substrate and reaction products. The loxP recognition element is a 34 base pair (bp) sequence composed of two 13 bp inverted repeats flanking an 8 bp spacer region which confers directionality. Recombination products are dependent on the location and relative orientation of the loxP sites. Two DNA species containing single loxP sites will be fused whilst DNA between loxP sites in the same orientation will be excised in circular form and DNA between opposing loxP sites will be inverted with respect to the rest of the DNA. Cre recombinase is used as a tool to modify genes and chromosomes. In this approach the Cre recombinase is used to delete a segment of DNA flanked by LoxP sites (aka 'floxed') in an experimental animal. It has been used to generate animals with mutations limited to certain cell types (tissue-specific knockout) or animals with mutations that can be activated by drug administration (inducible knockout) in a number of transgenic species. The availability of transgenic lines with tissue specific or inducible Cre expression permits researchers to inactivate or activate a gene of interest simply by breeding a floxed animal to pre-existing Cre-transgenics. One example of an inducible Cre recombinase system is the Cre-ER (ER = Estrogen Receptor) system in which intraperitoneal injection of tamoxifen will cause dose-dependent excision of the floxed site (i.e. will inactivate the gene of choice). Recombinant Cre recombinase (TAT-Cre) was purified from an E. coli strain carrying an engineered plasmid encoding enhanced form of Cre Recombinase from bacteriophage P1. This Cre recombinase has an N-terminal 6XHis tag, a Tat peptide (GRKKRRQRRRPPAGTSVSL) and an NLS sequence (PKKKRKV). HTNC is the most effective protein in transduction (in vivo) and subsequent recombination compared to other forms of Cre recombinases, e.g., HNC, TCH6, HC, HNCM, CH. Incubation of fibroblast reporter cells with 1 μM HTNC for 1 to 2 hours can result in tranduction of 60 ~ 90% of the cells*. Addition of 100 μM chloroquine to culture medium may further enhance transduction and recombination.

2, 5, or 10 mg/mL

43 kDa

Tat-Cre induced 80~100% recombination efficiencies in HEK293T- Cre reporter cells. HEK293T-cells were transfected with reporter plasmid.

LoxP-RFP-Stop-LoxP-GFP, then add 1 μM purified Tat-Cre protein.

< 0.1 EU/μg

> 98% by SDS-PAGE and HPLC analysis.

2 years at -80 °C. 6 months at -20 °C. Upto 3 weeks at 4 °C

A standard of 100 Units is defined as the amount of TAT-CRE (μg) in 1.0 mL of tissue culture medium that is required to induce 50% GFP expression in a HEK 293T reporter cell line assay.

In vitro LoxP recombination for subcloning or vector/clone engineering Transduction into cultured cells including stem cells ex vivo

-20 °C ~ -80 °C

Shipped on dry ice.