Dimitri Verweire scite author profile

Dimitri Verweire

2Publications

68Citation Statements Received

62Citation Statements Given

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Affiliations

Vrije Universiteit Brussel, Vlaams Instituut voor Biotechnologie, Ghent University

Publications

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Marker-Free Transgenic Plants through Genetically Programmed Auto-Excision

Verweire

Verleyen

Buck

et al. 2007

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We present here a vector system to obtain homozygous marker-free transgenic plants without the need of extra handling and within the same time frame as compared to transformation methods in which the marker is not removed. By introducing a germline-specific auto-excision vector containing a cre recombinase gene under the control of a germline-specific promoter, transgenic plants become genetically programmed to lose the marker when its presence is no longer required (i.e. after the initial selection of primary transformants). Using promoters with different germline functionality, two modules of this genetic program were developed. In the first module, the promoter, placed upstream of the cre gene, confers CRE functionality in both the male and the female germline or in the common germline (e.g. floral meristem cells). In the second module, a promoter conferring single germline-specific CRE functionality was introduced upstream of the cre gene. Promoter sequences used in this work are derived from the APETALA1 and SOLO DANCERS genes from Arabidopsis (Arabidopsis thaliana) Columbia-0 conferring common germline and single germline functionality, respectively. Introduction of the genetic program did not reduce transformation efficiency. Marker-free homozygous progeny plants were efficiently obtained, regardless of which promoter was used. In addition, simplification of complex transgene loci was observed.

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Evaluation of seven promoters to achieve germline directed Cre-lox recombination in Arabidopsis thaliana

Verweire

Claeys

et al. 2009

Plant Cell Rep

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Site-specific recombination systems, such as Cre-lox from bacteriophage P1, have become very important tools for plant genome engineering. In many cases a constitutive promoter is used to express the recombinase gene. However, for certain research and commercial applications constitutive Cre-mediated recombination may not be desirable. We have evaluated the potential of seven different germline promoter:cre fusions to remove a stably integrated lox cassette through Cre-mediated recombination in Arabidopsis thaliana. We monitored the functionality of each promoter in the germline of primary transformants by analyzing the presence of the recombined lox cassette in T(2) progeny. The selected germline promoters are involved in different developmental cues, including early stem cell identity (CLAVATA3), flower meristem identity (LEAFY, APETALA1), floral organ identity (AGAMOUS), and meiosis (SOLO DANCERS, DMC1, SWITCH1). For five out of these seven promoters we were able to show that efficient Cre-mediated recombination does, indeed, occur and that the recombination takes place at some point during germline development. Furthermore, a recombination efficiency of 100% is obtained when Cre-expression is regulated by the CLAVATA3 promoter. In addition, with these promoters, we observe much less variation in recombination frequency than previously reported for the 35S promoter. For these reasons, we believe that germline-specific Cre-lox recombination provides an additional tool to the site-specific recombination technology in plants.

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