Cre is a recombinase from the bacteriophage P1 that mediates intr

Cre is a recombinase from the bacteriophage P1 that mediates intramolecular and intermolecular site-specific recombination between two loxP sites [11]. A loxP site consists of two 13 bp inverted repeats separated by an 8 bp asymmetric spacer region. Two loxP sites in direct orientation dictate excision of the intervening DNA between the sites leaving one loxP site behind. This precise excision of DNA can remove a loxP-flanked drug-resistance marker from the N-terminal tagging construct after it is integrated into the macronucleus, and thus allows us to introduce epitope tags

to the N-terminus of a gene of interest without disturbing its promoter. Here, we describe the establishment of a Cre/loxP recombination system in Tetrahymena and

demonstrate its usefulness for the N-terminal DMXAA tagging of Tetrahymena genes. Results Cre-recombinase localizes to the macronucleus in Tetrahymena To test if Cre-recombinase can be expressed in Tetrahymena, we designed an inducible expression system for Cre. First, we constructed an expression cassette (pMNMM3, Fig. 1A) by which we can replace the endogenous MTT1 coding sequence with any gene of interest. In this cassette, genes can be expressed under the control of the MTT1 promoter, which is induced by the presence of heavy metals such as cadmium [12]. We Trichostatin A synthesized a Cre-encoding gene, cre1, in which the codon-usage was optimized for Tetrahymena. An HA-tag was added to the N-terminus of cre1 and the construct was inserted into pMNMM3 to produce pMNMM3-HA-cre1 (Fig. 1B). Finally, the expression construct was excised from Epigenetics inhibitor the vector backbone of pMNMM3-HA-cre1 and

introduced Amrubicin into the macronucleus of the Tetrahymena B2086 strain by homologous recombination (Fig. 1C). Cells possessing the Cre-expression construct were selected by their resistance against paromomycin because the construct contains a neo5 cassette, which confers resistance to this drug in Tetrahymena cells. The neo5 cassette has a similar structure as neo2 (Gaertig et al. 1994) but has a codon-optimized neomycin-resistance gene (neoTet, [13]) instead of the bacteriophage-derived neo gene. Figure 1 Construction of a Cre-recombinase expressing Tetrahymena strain. (A, B) Plasmid maps of pMNMM3 (A) and pMNMM3-HA-cre1 (B). (C, D) Two possible homologous recombination events between the MNMM3-HA-cre1 construct and the Tetrahymena MTT1 genomic locus. Homologous recombination at “”MTT1-5′(1)”" and “”MTT1-3′”" integrates both neo5 and the HA-cre1 gene (C), whereas recombination at “”MTT1-5′(1)”" and “”MTT1-5′(2)”" integrates only the neo5 cassette into the genome (D). (E) PCR analysis of the CRE556 strain. Genomic DNA from the CRE556 strain was used to amplify the HA-cre1-containing locus (HA-cre1) and wild-type MTT1 locus (MTT1). The positions of the primers are represented by arrowheads in (C). The macronucleus is polyploid and its chromosomes randomly segregate to the daughter nuclei.

This entry was posted in Antibody. Bookmark the permalink.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>