RMCE (recombinase-mediated cassette exchange) is a procedure in

reverse genetics Reverse genetics is a method in molecular genetics that is used to help understand the function(s) of a gene by analysing the phenotypic effects caused by genetically engineering specific nucleic acid sequences within the gene. The process pr ...

allowing the systematic, repeated modification of higher eukaryotic genomes by targeted integration, based on the features of

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 ...

processes (SSRs). For RMCE, this is achieved by the clean exchange of a preexisting

gene cassette In biology, a gene cassette is a type of mobile genetic element that contains a gene and a recombination site. Each cassette usually contains a single gene and tends to be very small; on the order of 500–1000 base pairs. They may exist incorpora ...

for an analogous cassette carrying the "gene of interest" (GOI). The genetic modification of mammalian cells is a standard procedure for the production of correctly modified proteins with pharmaceutical relevance. To be successful, the transfer and expression of the

transgene A transgene is a gene that has been transferred naturally, or by any of a number of genetic engineering techniques, from one organism to another. The introduction of a transgene, in a process known as transgenesis, has the potential to change the ...

has to be highly efficient and should have a largely predictable outcome. Current developments in the field of

gene therapy Gene therapy is a medical field which focuses on the genetic modification of cells to produce a therapeutic effect or the treatment of disease by repairing or reconstructing defective genetic material. The first attempt at modifying human DN ...

are based on the same principles. Traditional procedures used for transfer of GOIs are not sufficiently reliable, mostly because the relevant epigenetic influences have not been sufficiently explored: transgenes integrate into chromosomes with low efficiency and at ''loci'' that provide only sub-optimal conditions for their

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. As a consequence the newly introduced information may not be realized (expressed), the gene(s) may be lost and/or re-insert and they may render the target cells in unstable state. It is exactly this point where RMCE enters the field. The procedure was introduced in 1994 and it uses the tools yeasts and bacteriophages have evolved for the efficient replication of important genetic information:

General principles

Principles of recombinase-mediated cassette exchange

Most yeast strains contain circular, plasmid-like DNAs called "two-micron circles". The persistence of these entities is granted by a recombinase called "flippase" or "Flp". Four

monomers In chemistry, a monomer ( ; ''mono-'', "one" + '' -mer'', "part") is a molecule that can react together with other monomer molecules to form a larger polymer chain or three-dimensional network in a process called polymerization. Classification M ...

of this enzyme associate with two identical short (48 bp) target sites, called ''FRT'' ("flip-recombinase targets"), resulting in their

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. The outcome of such a process depends on the relative orientation of the participating FRTs leading to * the

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of a sequence that is flanked by two identical but inversely oriented ''FRT'' sites * the deletion/

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of a sequence that is flanked by two equally oriented identical ''FRT''s * the inefficient reversion of the letter process, commonly called integration or "addition" of an extra piece of DNA carrying a single ''FRT'' site identical to the target site This spectrum of options could be extended significantly by the generation of spacer mutants for extended 48 bp ''FRT'' sites (cross-hatched half-arrows in Figure 1). Each mutant Fn recombines with an identical mutant Fn with an efficiency equal to the wildtype sites (F x F). A cross-interaction (F x Fn) is strictly prevented by the particular design of these components. This sets the stage for the situation depicted in Figure 1A: * a target cassette (here a composite +/- selection marker) is flanked by an F- and an Fn site. After its introduction into the genome of a host cell the properties of many integration sites (genomic ´addresses´) are characterized and appropriate clones are isolated * the GOI (gene-of-interest) is part of a circular ´exchange plasmid´ and is flanked by a set of matching sites. This exchange plasmid can be introduced into the cell at large molecular excess and will thereby undergo the depicted exchange (RMCE-) reaction with the pre-selected genomic address (i.e. the F <+/-> Fn target) * this RMCE-principle is a process that can be repeated with the same or a different exchange plasmid ("serial RMCE"). Please note that RMCE of the GOI at the pre-determined locus and that it does (dotted lines) that would otherwise trigger immunologic or epigenetic defense mechanisms. First applied for the Tyr-recombinase Flp, this novel procedure is not only relevant to the rational construction of biotechnologically significant cell lines, but it also finds increasing use for the systematic generation of

stem cells In multicellular organisms, stem cells are undifferentiated or partially differentiated cells that can differentiate into various types of cells and proliferate indefinitely to produce more of the same stem cell. They are the earliest type o ...

. Stem cells can be used to replace damaged tissue or to generate transgenic animals with largely pre-determined properties.

Dual RMCE

It has been previously established that coexpression of both Cre and Flp recombinases catalyzes the exchange of sequences flanked by single loxP and FRT sites integrated into the genome at a random location. However, these studies did not explore whether such an approach could be used to modify conditional mouse alleles carrying single or multiple loxP and FRT sites. dual RMCE (dRMCE; Osterwalder et al., 2010) was recently developed as a re-engineering tool applicable to the vast numbers of mouse conditional alleles that harbor wild-type loxP and FRT sites and therefore are not compatible with conventional RMCE. The general dRMCE strategy takes advantage of the fact that most conditional alleles encode a selection cassette flanked by FRT sites, in addition to loxP sites that flank functionally relevant exons ('floxed' exons). The FRT-flanked selection cassette is in general placed outside the loxP-flanked region, which renders these alleles directly compatible with dRMCE. Simultaneous expression of Cre and Flp recombinases induces cis recombination and formation of the deleted allele, which then serves as a 'docking site' at which to insert the replacement vector by trans recombination. The correctly replaced locus would encode the custom modification and a different drug-selection cassette flanked by single loxP and FRT sites. dRMCE therefore appears as a very efficient tool for targeted re-engineering of thousands of mouse alleles produced by the IKMC consortium.

Multiplexing RMCE

Multiplexing recombinase-mediated cassette exchange

Multiplexing setups rely on the fact that each F-Fn pair (consisting of a wildtype ''FRT'' site and a mutant called "n") or each Fn-Fm pair (consisting of two mutants, "m" and "n") constitutes a unique "address" in the genome. A prerequisite are differences in four out of the eight spacer positions (see Figure 1B). If the difference is below this threshold, some cross-interaction between the mutants may occur leading to a faulty deletion of the sequence between the heterospecific (Fm/Fn or F/Fn) sites. 13 FRT-mutants have meanwhile become available, which permit the establishment of several unique genomic addresses (for instance F-Fn and Fm-Fo). These addresses will be recognized by donor plasmids that have been designed according to the same principles, permitting successive (but also synchronous) modifications at the predetermined ''loci''. These modifications can be driven to completion in case the compatible donor plasmid(s) are provided at an excess (mass-action principles). Figure 2 illustrates one use of the multiplexing principle: the stepwise extension of a coding region in which a basic expression unit is provided with genomic insulators,

enhancers In genetics, an enhancer is a short (50–1500 bp) region of DNA that can be bound by proteins ( activators) to increase the likelihood that transcription of a particular gene will occur. These proteins are usually referred to as transcriptio ...

, or other ''cis''-acting elements. A recent variation of the general concept is based on PhiC31 (an integrase of the Ser-class), which permits introduction of another RMCE target at a secondary site the first RMCE-based modification has occurred. This is due to the fact that each phiC31-catalyzed exchange destroys the attP and attB sites it has addressed converting them to ''att''R and ''att''L product sites, respectively. While these changes permit the subsequent mounting of new (and most likely remote) targets, they do not enable addressing several RMCE targets , nor do they permit "serial RMCE", i.e. successive, stepwise modifications at a given genomic locus. This is different for Flp-RMCE, for which the post-RMCE status of ''FRT''s corresponds to their initial state. This property enables the intentional, repeated mobilization of a target cassette by the addition of a new donor plasmid with compatible architecture. These "multiplexing-RMCE" options open unlimited possibilities for serial- and parallel specific modifications of pre-determined RMCE-targets

Applications

Generation of transgenic animals

Generation of transgenic knock-out/-in mice and their genetic modification by RMCE.

Tagging and cassette exchange in DG44 cells in suspension culture

Insertion of a target cassette in a mammalian host cell line (CHO DG44 in suspension culture) and exchange with an ER stress reporter construct via targeted integration (RMCE).

References

* J. Bode, S. Götze, M. Klar, K. Maaß, K. Nehlsen, A. Oumard & S. Winkelmann (2004) BIOForum 34-36 Den Viren nachempfunden: Effiziente Modifikation von Säugerzellen. * * * * * * * * * {{cite journal , last1 = Osterwalder , first1 = Marco , last2 = Galli , first2 = Antonella , last3 = Rosen , first3 = Barry , last4 = Skarnes , first4 = William C , last5 = Zeller , first5 = Rolf , last6 = Lopez-Rios , first6 = Javier , year = 2010 , title = Dual RMCE for efficient re-engineering of mouse mutant alleles , journal = Nature Methods , volume = 7 , issue = 11, pages = 893–895 , doi = 10.1038/nmeth.1521 , pmid=20953177 , pmc=3576631

External links

* https://www.sciencedaily.com/releases/2011/11/111130115822.htm Applied genetics Genetics techniques Molecular genetics