Recombinase-Mediated Cassette Exchange (RMCE): Traditional Concepts and Current Challenges

Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair machinery may affect both the integrity of the transgene and the recipient locus. These problems are overcome by recombinase-mediated cassette exch...

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Veröffentlicht in:Journal of molecular biology Jg. 407; H. 2; S. 193 - 221
Hauptverfasser: Turan, Soeren, Galla, Melanie, Ernst, Ellen, Qiao, Junhua, Voelkel, Christine, Schiedlmeier, Bernhard, Zehe, Christoph, Bode, Juergen
Format: Journal Article
Sprache:Englisch
Veröffentlicht: England Elsevier Ltd 25.03.2011
Schlagworte:
Animals
DNA
DNA Nucleotidyltransferases
DNA Nucleotidyltransferases - genetics
equipment maintenance and repair
Flp-RMCE
Gene Targeting
Gene Transfer Techniques
Genetic Engineering
Genetic Engineering - methods
genetics
integrase mechanism
loci
methods
Mice
mutagenesis
mutants
recombinase-mediated cassette exchange
stem cells
tag and exchange
targeted integration
toxicity
Transgenes
trapping
yeasts
recombinase-mediated cassette exchange
CPP
heteromeric RTs
RT
RV
LE/RE
pFARs
FBE
FRT
integrase mechanism
HR
ES cells
FACS
DSB
NLS
tag and exchange
targeted integration
hygtk
GOI
dRMCE
RMDI
loxP
iPS
Flp-RMCE
SSR
heterospecific RTs
ZFNs
RMCE
ISSN:0022-2836, 1089-8638, 1089-8638
Online-Zugang:Volltext
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Abstract Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair machinery may affect both the integrity of the transgene and the recipient locus. These problems are overcome by recombinase-mediated cassette exchange (RMCE) approaches enabling predictable expression patterns by the nondisruptive insertion of a gene cassette at a pre-characterized genomic locus. The destination is marked by a “tag” consisting of two heterospecific recombination target sites (RTs) at the flanks of a selection marker. Provided on a circular donor vector, an analogous cassette encoding the gene of interest can cleanly replace the resident cassette under the influence of a site-specific recombinase. RMCE was first based on the yeast integrase Flp but had to give way to the originally more active phage-derived Cre enzyme. To be effective, both Tyr-recombinases have to be applied at a considerable concentration, which, in the case of Cre, triggers endonucleolytic activities and therefore cellular toxicity. This review addresses the particularities of both recombination routes depending on the structure of the synaptic complex and on improved integrase and RT variants. While the performance of Flp-RMCE can now firmly rely on optimized Flp variants and multiple sets of functional target sites (FRTs), the Cre system suffers from the promiscuity of its RT mutants, which is explained in molecular terms. At present, RMCE enters applications in the stem cell field. Remarkable efforts are noted in the framework of various mouse mutagenesis programs, which, in their first phase, have targeted virtually all genes and now start to shift their emphasis from gene trapping to gene modification. [Display omitted]
AbstractList Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair machinery may affect both the integrity of the transgene and the recipient locus. These problems are overcome by recombinase-mediated cassette exchange (RMCE) approaches enabling predictable expression patterns by the nondisruptive insertion of a gene cassette at a pre-characterized genomic locus. The destination is marked by a "tag" consisting of two heterospecific recombination target sites (RTs) at the flanks of a selection marker. Provided on a circular donor vector, an analogous cassette encoding the gene of interest can cleanly replace the resident cassette under the influence of a site-specific recombinase. RMCE was first based on the yeast integrase Flp but had to give way to the originally more active phage-derived Cre enzyme. To be effective, both Tyr-recombinases have to be applied at a considerable concentration, which, in the case of Cre, triggers endonucleolytic activities and therefore cellular toxicity. This review addresses the particularities of both recombination routes depending on the structure of the synaptic complex and on improved integrase and RT variants. While the performance of Flp-RMCE can now firmly rely on optimized Flp variants and multiple sets of functional target sites (FRTs), the Cre system suffers from the promiscuity of its RT mutants, which is explained in molecular terms. At present, RMCE enters applications in the stem cell field. Remarkable efforts are noted in the framework of various mouse mutagenesis programs, which, in their first phase, have targeted virtually all genes and now start to shift their emphasis from gene trapping to gene modification.
Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair machinery may affect both the integrity of the transgene and the recipient locus. These problems are overcome by recombinase-mediated cassette exchange (RMCE) approaches enabling predictable expression patterns by the nondisruptive insertion of a gene cassette at a pre-characterized genomic locus. The destination is marked by a "tag" consisting of two heterospecific recombination target sites (RTs) at the flanks of a selection marker. Provided on a circular donor vector, an analogous cassette encoding the gene of interest can cleanly replace the resident cassette under the influence of a site-specific recombinase. RMCE was first based on the yeast integrase Flp but had to give way to the originally more active phage-derived Cre enzyme. To be effective, both Tyr-recombinases have to be applied at a considerable concentration, which, in the case of Cre, triggers endonucleolytic activities and therefore cellular toxicity. This review addresses the particularities of both recombination routes depending on the structure of the synaptic complex and on improved integrase and RT variants. While the performance of Flp-RMCE can now firmly rely on optimized Flp variants and multiple sets of functional target sites (FRTs), the Cre system suffers from the promiscuity of its RT mutants, which is explained in molecular terms. At present, RMCE enters applications in the stem cell field. Remarkable efforts are noted in the framework of various mouse mutagenesis programs, which, in their first phase, have targeted virtually all genes and now start to shift their emphasis from gene trapping to gene modification.Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair machinery may affect both the integrity of the transgene and the recipient locus. These problems are overcome by recombinase-mediated cassette exchange (RMCE) approaches enabling predictable expression patterns by the nondisruptive insertion of a gene cassette at a pre-characterized genomic locus. The destination is marked by a "tag" consisting of two heterospecific recombination target sites (RTs) at the flanks of a selection marker. Provided on a circular donor vector, an analogous cassette encoding the gene of interest can cleanly replace the resident cassette under the influence of a site-specific recombinase. RMCE was first based on the yeast integrase Flp but had to give way to the originally more active phage-derived Cre enzyme. To be effective, both Tyr-recombinases have to be applied at a considerable concentration, which, in the case of Cre, triggers endonucleolytic activities and therefore cellular toxicity. This review addresses the particularities of both recombination routes depending on the structure of the synaptic complex and on improved integrase and RT variants. While the performance of Flp-RMCE can now firmly rely on optimized Flp variants and multiple sets of functional target sites (FRTs), the Cre system suffers from the promiscuity of its RT mutants, which is explained in molecular terms. At present, RMCE enters applications in the stem cell field. Remarkable efforts are noted in the framework of various mouse mutagenesis programs, which, in their first phase, have targeted virtually all genes and now start to shift their emphasis from gene trapping to gene modification.
Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair machinery may affect both the integrity of the transgene and the recipient locus. These problems are overcome by recombinase-mediated cassette exchange (RMCE) approaches enabling predictable expression patterns by the nondisruptive insertion of a gene cassette at a pre-characterized genomic locus. The destination is marked by a “tag” consisting of two heterospecific recombination target sites (RTs) at the flanks of a selection marker. Provided on a circular donor vector, an analogous cassette encoding the gene of interest can cleanly replace the resident cassette under the influence of a site-specific recombinase. RMCE was first based on the yeast integrase Flp but had to give way to the originally more active phage-derived Cre enzyme. To be effective, both Tyr-recombinases have to be applied at a considerable concentration, which, in the case of Cre, triggers endonucleolytic activities and therefore cellular toxicity. This review addresses the particularities of both recombination routes depending on the structure of the synaptic complex and on improved integrase and RT variants. While the performance of Flp-RMCE can now firmly rely on optimized Flp variants and multiple sets of functional target sites (FRTs), the Cre system suffers from the promiscuity of its RT mutants, which is explained in molecular terms. At present, RMCE enters applications in the stem cell field. Remarkable efforts are noted in the framework of various mouse mutagenesis programs, which, in their first phase, have targeted virtually all genes and now start to shift their emphasis from gene trapping to gene modification. [Display omitted]
Author Ernst, Ellen
Qiao, Junhua
Voelkel, Christine
Schiedlmeier, Bernhard
Galla, Melanie
Bode, Juergen
Zehe, Christoph
Turan, Soeren
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  organization: Hannover Medical School (MHH), Carl-Neuberg-Strasse 1, Experimental Hematology (OE6960), D-30625 Hannover, Germany
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  surname: Ernst
  fullname: Ernst, Ellen
  organization: Servier Deutschland GmbH, Elsenheimer Str. 53, D-80687 München, Germany
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  organization: Swiss Federal Institute of Biotechnology (EPFL), Université de Lausanne (UNIL), CH-1015 Lausanne, Switzerland
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  surname: Bode
  fullname: Bode, Juergen
  email: bode.juergen@mh-hannover.de
  organization: Hannover Medical School (MHH), Carl-Neuberg-Strasse 1, Experimental Hematology (OE6960), D-30625 Hannover, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/21241707$$D View this record in MEDLINE/PubMed
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Copyright 2011 Elsevier Ltd
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ISSN 0022-2836
1089-8638
IngestDate Wed Oct 01 17:11:00 EDT 2025
Thu Oct 02 10:47:38 EDT 2025
Sun Sep 28 10:04:47 EDT 2025
Mon Jul 21 05:46:19 EDT 2025
Tue Nov 18 22:42:51 EST 2025
Sat Nov 29 05:57:29 EST 2025
Fri Feb 23 02:26:02 EST 2024
IsPeerReviewed true
IsScholarly true
Issue 2
Keywords recombinase-mediated cassette exchange
CPP
heteromeric RTs
RT
RV
LE/RE
pFARs
FBE
FRT
integrase mechanism
HR
ES cells
FACS
DSB
NLS
tag and exchange
targeted integration
hygtk
GOI
dRMCE
RMDI
loxP
iPS
Flp-RMCE
SSR
heterospecific RTs
ZFNs
RMCE
Language English
License https://www.elsevier.com/tdm/userlicense/1.0
Copyright © 2011 Elsevier Ltd. All rights reserved.
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ObjectType-Feature-2
content type line 23
ObjectType-Review-3
ObjectType-Article-2
ObjectType-Feature-1
PMID 21241707
PQID 1672082279
PQPubID 24069
PageCount 29
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PublicationTitle Journal of molecular biology
PublicationTitleAlternate J Mol Biol
PublicationYear 2011
Publisher Elsevier Ltd
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Snippet Traditional DNA transduction routes used for the modification of cellular genomes are subject to unpredictable alterations, as the cell-intrinsic repair...
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SubjectTerms Animals
DNA
DNA Nucleotidyltransferases
DNA Nucleotidyltransferases - genetics
equipment maintenance and repair
Flp-RMCE
Gene Targeting
Gene Transfer Techniques
Genetic Engineering
Genetic Engineering - methods
genetics
integrase mechanism
loci
methods
Mice
mutagenesis
mutants
recombinase-mediated cassette exchange
stem cells
tag and exchange
targeted integration
toxicity
Transgenes
trapping
yeasts
Title Recombinase-Mediated Cassette Exchange (RMCE): Traditional Concepts and Current Challenges
URI https://dx.doi.org/10.1016/j.jmb.2011.01.004
https://www.ncbi.nlm.nih.gov/pubmed/21241707
https://www.proquest.com/docview/1672082279
https://www.proquest.com/docview/855203027
https://www.proquest.com/docview/968161787
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