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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A binary system for gene activation and site-specific integration, based on the conditional recombination of transfected sequences mediated by the FLP recombinase from yeast, was implemented in mammalian cells. In several cell lines, FLP rapidly and precisely recombined copies of its specific target sequence to activate an otherwise silent beta-galactosidase reporter gene. Clones of marked cells were generated by excisional recombination within a chromosomally integrated copy of the silent reporter. By the reverse reaction, integration of transfected DNA was targeted to a specific chromosomal site. The results suggest that FLP could be used to mosaically activate or inactivate transgenes for analysis of vertebrate development, and to efficiently integrate transfected DNA at predetermined chromosomal locations.
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PMID:Recombinase-mediated gene activation and site-specific integration in mammalian cells. 190 Jun 42

The use of the site-specific DNA recombinases FLP and Cre is well-established in a broad range of organisms. Here we investigate the applicability of both recombinases to the Xenopus system where they have not been analyzed yet. We show that injection of FLP mRNA triggers the excision of an FLP recombination target (FRT)-flanked green fluorescent protein (GFP) sequence in a coinjected reporter construct inducing the expression of a downstream beta-galactosidase gene (lacZ). The FLP-mediated gene activation can be controlled in Xenopus embryos by injecting a mRNA encoding a fusion of FLP to the mutant ligand binding domain of the human estrogen receptor whose activity is dependent on 4-hydroxytamoxifen. We also demonstrate that a Cre reporter injected into fertilized eggs is fully recombined by Cre recombinase before zygotic gene transcription initiates. Our results indicate that in Xenopus embryos Cre is more effective than FLP in recombining a given quantity of reporter molecules. Finally, we present FLP-inducible double reporter systems encoding two fluorescence proteins (EYFP, ECFP, DsRed or GFP). These novel gene expression systems enable the continuous analysis of two reporter activities within living embryos and are expected to allow cell-lineage studies based on recombinase-mediated DNA rearrangement in transgenic Xenopus lines.
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PMID:FLP and Cre recombinase function in Xenopus embryos. 1137 65

A simple method for the construction of targeted transcriptional and translational fusions to the lac operon using FLP mediated site-specific recombination is described. Conditional plasmids containing promoterless lacZY genes and the FLP recognition target (FRT) site in both orientations were constructed for generating transcriptional fusions. Similarly, a plasmid used to create translational fusions was constructed in which the endogenous translational start of lacZ has been removed. These plasmids can be transformed into strains containing a single FRT site, which was previously integrated downstream of the promoter of interest using the lambda Red recombination method. The FLP protein produced from a helper plasmid that contains a conditional origin of replication promotes site-specific recombination between the FRT sites, resulting in an integrated lac fusion to the gene of interest. Transcriptional fusions to the Salmonella typhimurium genes sodCII and sitA were constructed using this method and shown to respond appropriately to mutations in the respective regulatory genes, rpoS and fur. Translational fusions were also constructed using this method. In this case, expression of beta-galactosidase was dependent on translation of the target protein. Given that the FLP recombinase does not require host factors for function and that this method requires no molecular cloning, this method should be applicable for the analysis of gene expression in a variety of organisms.
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PMID:Construction of targeted single copy lac fusions using lambda Red and FLP-mediated site-specific recombination in bacteria. 1206 10

A binary system for gene activation and site specific integration based on conditional recombination of transfected sequences mediated by FLP recombinase from yeast was implemented in mammalian cells. In several cell lines, FLP rapidly and precisely recombined copies of its specific target sequences to activate an otherwise silent beta-galactosidase reporter gene. Clones of marked cells were generated by excisional recombination within a chromosomally integrated copy of the silent reporters. These clones exhibited intense blue colour with X-Gal staining solution.
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PMID:Site specific integration of FLP recombinase in BHK-21 cell line. 1526 1

The Cre/lox and FLP/FRT recombination systems have been used extensively for both conditional knockout and cell lineage analysis in mice. Here we report a new multifunctional Cre/FLP dual reporter allele (R26(NZG)) that exhibits strong and apparently ubiquitous marker expression in embryos and adults. The reporter construct, which is driven by the CAG promoter, was knocked into the ROSA26 locus providing an open chromatin domain for consistent expression and avoiding site-of-integration effects often observed with transgenic reporters. R26(NZG) directs Cre-dependent nuclear-localized beta-galactosidase (beta-gal) expression, and can be converted into a Cre-dependent EGFP reporter (R26(NG)) by germline excision of the FRT-flanked nlslacZ cassette. Alternatively, germline excision of the floxed PGKNEO cassette in R26(NZG) generates an FLP-dependent EGFP reporter (R26(ZG)) that expresses beta-gal in FLP-nonexpressing cells. Finally, by the simultaneous use of both Cre and FLP deleters, R26(NZG) allows lineage relationships to be interrogated with greater refinement than is possible with single recombinase reporter systems.
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PMID:A multifunctional reporter mouse line for Cre- and FLP-dependent lineage analysis. 1916 27