Simplified Flp-FRT Recombinase Mechanism

genetics Genetics is the study of genes, genetic variation, and heredity in organisms.Hartl D, Jones E (2005) It is an important branch in biology because heredity is vital to organisms' evolution. Gregor Mendel, a Moravian Augustinian friar wor ...

, Flp-''FRT'' recombination is a site-directed recombination technology, increasingly used to manipulate an organism's DNA under controlled conditions ''in vivo''. It is analogous to Cre-''lox'' recombination but involves the recombination of sequences between short flippase recognition target (''FRT'') sites by the recombinase flippase (''Flp'') derived from the 2 µ plasmid of

baker's yeast Baker's yeast is the common name for the strains of yeast commonly used in baking bread and other bakery products, serving as a leavening agent which causes the bread to rise (expand and become lighter and softer) by converting the fermentable ...

Saccharomyces cerevisiae ''Saccharomyces cerevisiae'' () (brewer's yeast or baker's yeast) is a species of yeast (single-celled fungus microorganisms). The species has been instrumental in winemaking, baking, and brewing since ancient times. It is believed to have been o ...

''. The 34bp minimal FRT site sequence has the sequence ::^5'^3' for which flippase (Flp) binds to both 13-bp 5'-GAAGTTCCTATTC-3' arms flanking the 8 bp spacer, i.e. the

site-specific recombination Site-specific recombination, also known as conservative site-specific recombination, is a type of genetic recombination in which DNA strand exchange takes place between segments possessing at least a certain degree of sequence homology. Enzymes kno ...

(region of crossover) in reverse orientation. ''FRT''-mediated cleavage occurs just ahead from the asymmetric 8bp core region (^5''^3') on the top strand and behind this sequence on the bottom strand. Several variant ''FRT'' sites exist, but recombination can usually occur only between two ''identical'' ''FRT''s but generally not among ''non-identical'' ("heterospecific") ''FRT''s.

Biological function

In yeast, this enzyme corrects decreases in 2 µ plasmid copy number caused by rare missegregation events. It does so by causing recombination between the two inverted repetitions on the 2 µ plasmid during

DNA replication In molecular biology, DNA replication is the biological process of producing two identical replicas of DNA from one original DNA molecule. DNA replication occurs in all living organisms acting as the most essential part for biological inheritanc ...

. This changes the direction of one replication fork, causing multiple rounds of copying in a single initiation.

Mutations of the FRT site sequence

Senecoff ''et al.'' (1987) investigated how nucleotide substitutions within the FRT affected the efficacy of the FLP-mediated recombination. The authors induced base substitutions in either one or both of the FRT sites and tested the concentration of FLP required to observe site-specific recombinations. Every base substitution was performed on each of the thirteen nucleotides within the FRT site (example G to A, T, and C). First, the authors showed that most mutations within the FRT sequence cause minimal effects if present within only one of the two sites. If mutations occurred within both sites, the efficiency of FLP is dramatically reduced. Second, the authors provided data for which nucleotides are most crucial for the binding of FLP and efficacy of the site-specific recombination. If the first nucleotide in both FRT sites is substituted to a cytosine (G to C), the third nucleotide is substituted for a thymine (A to T), or the seventh nucleotide is substituted for an adenosine (G to A), then the efficacy of the FLP-mediated site-specific recombination is reduced more than 100-fold. While a base substitution of any of the aforementioned nucleotides in only one of the FRT sites led to a ten-fold, ten-fold, and five-fold reduction of efficacy, respectively. Base Substitutions in the capitalized nucleotides led to the greatest reduction in FLP-mediated site-specific recombination (Wildtype x mutant and mutant x mutant): ::^5'^3' Many available constructs include an additional arm sequences (5'--3') one base pair away from the upstream element and in the same orientation: ::^5'^3' This segment is dispensable for excision but essential for integration, including

Recombinase-mediated cassette exchange RMCE (recombinase-mediated cassette exchange) is a procedure in reverse genetics allowing the systematic, repeated modification of higher eukaryotic genomes by targeted integration, based on the features of site-specific recombination processes (SS ...

. Because the recombination activity can be targeted to a selected organ, or a low level of recombination activity can be used to consistently alter the DNA of only a subset of cells, Flp-''FRT'' can be used to construct genetic mosaics in multicellular organisms. Using this technology, the loss or alteration of a gene can be studied in a given target organ of interest, even in cases where experimental animals would not survive the loss of this gene in other organs (''spatial control''). The effect of altering a gene can also be studied over time, by using an inducible promoter to trigger the recombination activity late in development (''temporal control'') - this prevents the alteration.

Biochemical structure of Flp and mechanism of action

Biochemically relevant structure and active site

The Flp protein, much like Cre, is a tyrosine family site-specific recombinase. This family of recombinases performs its function via a type IB topoisomerase mechanism causing the recombination of two separate strands of DNA. Recombination is carried out by a repeated two-step process. The initial step causes the creation of a Holliday junction intermediate. The second step promotes the resulting recombination of the two complementary strands. As their family name suggests, a highly conserved tyrosine nucleophile cleaves the DNA strands. The nucleophilic properties of the tyrosine attack and bind to the 3'-phosphate at the point of DNA cleavage. The resulting 5'-hydroxyl group of the cleaved DNA acts as the nucleophile and attacks the 3'-phosphate on the complementarily cleaved DNA strand, resulting in successful recombination. Outside of the tyrosine residue, there is a conserved catalytic pentad. This pentad is made up of a lysine (Lysβ), two arginines (Arg I and II), a histidine (His-II), and a histidine/tryptophan (His/Trp-III) that comprises a mandatory and highly conserved constellation of residues for the active site of Flp and Cre (along with other IB topiosomerases). These other residues are crucial to the correct orientation of Flp binding and positioning on the DNA strands.

Application of FLP-mediated site-specific recombination

Initial problems

Thermolability

Initial application of the FLP-FRT recombinase did not work in mammals. The FLP protein was

thermolabile Thermolabile refers to a substance which is subject to destruction, decomposition, or change in response to heat. This term is often used to describe biochemical substances. For example, many bacterial exotoxins are thermolabile and can be eas ...

(denatured at elevated temperatures) and therefore was not useful in the mammalian model due to elevated body temperatures of these model systems. However, due to patents and restrictions on the use of Cre-Lox recombination, great interest was taken to produce a more thermostable FLP-FRT cassette. Some of the first results were produced by Buchholz ''et al.'' (1997) by utilizing cycling

mutagenesis Mutagenesis () is a process by which the genetic information of an organism is changed by the production of a mutation. It may occur spontaneously in nature, or as a result of exposure to mutagens. It can also be achieved experimentally using lab ...

in ''Escherichia coli'' . In their research, the authors transfected ''E. coli c''ells with two plasmids: one coding for randomly mutated FLP proteins downstream of an arabinose promoter and another containing a lacZ gene promoter within a FRT cassette. The ''E. coli'' were grown on arabinose plates at 37 °C and 40 °C, and if recombination occurred, the lacZ expression would be attenuated, and the colonies would appear white. White colonies were selected from each generation and grown on a new arabinose plates at same previous temperatures for eight generations. After recombination was confirmed by western-blotting and the mutated FLP genes were sequenced, this eighth generation FLP protein (FLPe) was transfected into mammalian cell culture, and recombination in mammalian cells was confirmed. This variant of FLP only has 4 amino acid substitutions: P2S, L33S, Y108N, and S294P.

Generation of genetic mosaics

Genetic mosaicism occurs within an organism when similar cell types express different phenotypes due to dissimilar genotypes at specific loci. Simply put, this occurs when one organism contains different genotypes, which is usually rare in nature. However, this can be easily (and problematically) produced using FLP-FRT recombination. If two different FRT sites are present within a cell, and FLP is present in appropriate concentrations, the FRT cassette will continue to be excised and inserted between the two FRT sites. This process will continue until the FLP proteins fall below the required concentrations resulting in cells within an organism possessing different genotypes. This has been seen from fruit flies to mice and is indiscriminate against specific chromosomes (somatic and sex) or cell types (somatic and germline).

Determination of cell lineages

Before the publication of Dymecki ''et al''. (1998), Cre recombinase had been used for cell-fate mapping of neuronal progenitors in mice using the ''En2'' promoter. Thus, the authors of Dymecki ''et al''. (1998) theorized that FLP recombinase could be utilized in a similar fashion with a similar efficacy as Cre recombinase in mice. The authors created a two transgenic mouse lines: a neuronal Wnt1::Flp fusion line and a line that possessed the FRT cassette flanking the 18th exon of ''tm1Cwr''. The authors chose this exon for excision because if it is excised, its results in a null phenotype. The authors mated the two lines and allowed the progeny to reach adulthood before the progeny were sacrificed. RNA extraction was performed on neuronal, muscular, enteric, and tail tissue. Reverse-transcription PCR and

northern blot The northern blot, or RNA blot,Gilbert, S. F. (2000) Developmental Biology, 6th Ed. Sunderland MA, Sinauer Associates. is a technique used in molecular biology research to study gene expression by detection of RNA (or isolated mRNA) in a sample ...

ting confirmed the excision of the 18th exon of ''tm1Cwr'' abundantly in the brain tissue and moderately in muscular tissue (due to Scwhann cells within the muscle). As expected, excision was not seen in other tissues. The authors saw equal, if not better, efficiency of the FLP recombinase in cell-fate determination than Cre recombinase.

In ''Drosophila melanogaster'' (Fruit Fly)

To date, Flp recombinase has been utilized many times in ''D. melanogaster.'' A comparison of Flp recombinase to Cre recombinase in ''D. melanogaster'' was published by Frickenhaus ''et al.'' (2015)''.'' The authors of Frickenhaus ''et al.'' (2015) had a two-fold objective: characterize and compare the efficacy of Flp recombinase "knock-out" to Cre recombinase "knock-out" and RNAi knockdown and reveal the function of ''cabeza'' (caz), the fly ortholog to ''FUS'', in the neurons and muscle tissue of ''D. melanogaster''. ''FUS'' has been strongly implicated in

amyotrophic lateral sclerosis Amyotrophic lateral sclerosis (ALS), also known as motor neuron disease (MND) or Lou Gehrig's disease, is a neurodegenerative disease that results in the progressive loss of motor neurons that control voluntary muscles. ALS is the most comm ...

(ALS) and

frontotemporal dementia Frontotemporal dementia (FTD), or frontotemporal degeneration disease, or frontotemporal neurocognitive disorder, encompasses several types of dementia involving the progressive degeneration of frontal and temporal lobes. FTDs broadly present as ...

in humans ''.'' The authors used an ''elav''- Gal4/UAS-Flp or Cre system to express the recombinase specifically in neurons and a ''Mef2''-Gal4/UAS-Flp or Cre system to express it specifically in muscles. The authors conclude that the Flp recombinase "knock-out" tool is more effective than both RNAi and Cre recombinase for the purpose of knocking out specific genes in specific tissues or cell lines due to the lack of the leaky expression seen in both the Cre protein and the RNAi transcript. Also, the authors witnessed a toxicity to the Cre protein that is not seen with the Flp protein.

In ''Danio rerio'' (Zebrafish)

The efficacy of the FLPe recombinase system was evaluated in zebrafish by Wong ''et al''. (2009). Embryos, that were hemizygous for a FRT-flanked enhanced green fluorescent protein (EGFP) downstream of a muscle-specific promoter, were injected with the FLPe protein. Without FLPe, these embryoes should express

EGFP The green fluorescent protein (GFP) is a protein that exhibits bright green fluorescence when exposed to light in the blue to ultraviolet range. The label ''GFP'' traditionally refers to the protein first isolated from the jellyfish ''Aequorea ...

in all muscle tissue, and if crossed with a wild type strand, 50% of the resulting progeny should also express EGFP in muscle tissue. Embryoes, injected with FLPe, had significantly reduced expression of EGFP in muscle tissue, and mosaicism was seen also. When these embryoes reached adulthood, they were mated with a wild type strain, and the resulting clutches had significantly less progeny that expressed the EGFP in the muscle tissue (0-4%). These results show, that not only is FLPe highly effective in somatic cells, it is also highly effective in the germline of zebrafish.

In plants

Creation of "phytosensors" or "sentinels" in ''Arabidopsis thaliana'' and Tobacco

Phytosensors are genetically modified plants that can report the presence of biotic or abiotic contaminants. Obviously, the production of these engineered plants have great agricultural and laboratory promise. However, creating an appropriate reporter vector has shown to be problematic. ''cis''-regulatory elements play a major role in the transcriptional activation of genes in plants, and many are not well understood. Many phytosensors either under express their reporter genes or report false-positives due to synthetic promoters. The authors of Rao ''et al.'' (2010) utilized the FLP recombinase tool for the production of a highly efficient phytosensors. The authors used a heat shock promoter to induce the production of FLP while a FRT-flanked vector separated the CaMV 35S promoter from the beta-glucuronidase gene (GUS). When the plants were exposed to heat-shock, FLP-induction led to the excision of the FRT-flanked vector, effectively moving the GUS gene directly downstream of the CaMV 35S promoter. The activation of GUS led to the leaves of the plants to change from green to blue; thus, the phytosensor effectively reported stress to the model system!

With Cre-recombinase

Production of the gate-way-ready inducible MiRNA (GRIM) expression system

RNA interference (RNAi) has caused a paradigm shift in the expression of genes and potential gene knockouts in Eukaryotes. Before the production of the GRIM expression system, the creation of RNAi vectors was expensive and time consuming. The vectors were produced by the traditional copy-and-paste molecular cloning method. Garwick-Coppens ''et al''. (2011) developed a much more efficient method for the production of RNAi vectors in which expression of the RNAi can be knocked-in using Cre-recombinase and knocked-out using Flp-recombinase. The novel GRIM Expression System allows for the much faster generation of expression vectors containing artificial RNAi constructs. The authors went on to show that their expression system works quite effectively in human embryonic kidneys (HEK) cells, a common human immortalized cell line in molecular research.

References

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External links

Flp-FRT Recombinase: Mechanism of Action

Video of the Utilization Flp-FRT Recombinase in ''D. melanoster'' Photoreceptor

Application of FLP in the mutatgenesis of Vibrio cholerae
Genetics techniques Molecular genetics