Stable high‐level transgene expression in <i>Arabidopsis thaliana</i> using gene silencing mutants and matrix attachment regions

Butaye, Katleen M.J.; Goderis, Inge J.W.M.; Wouters, P; Pues, Jonathan M.-T.G.; Delauré, Stijn L.; Broekaert, Willem F.; Depicker, Anna; Cammue, Bruno P. A.; Bolle, Miguel F.C. De

doi:10.1111/j.1365-313x.2004.02144.x

Cited by 144 publications

(140 citation statements)

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“…However, in the rhf1a rhf2a background, although the transcription level was similar or even lower, ICK4/KRP6-myc was significantly accumulated, in the two independent transgenic lines ( Figure 5E). Moreover, the accumulation of ICK4/KRP6-myc in the rhf1a rhf2a background led to serrated leaves ( Figure 5E), a previously reported phenotype that was observed in ICK4/KRP6-overexpressing plants (Zhou et al, 2002;Butaye et al, 2004). These results, together Alexander's staining analysis was performed to assess pollen grain development of wild-type plants and rhf1a rhf2a double mutants.…”

Section: Rhf1a/rhf2a Function Correlates With the Accumulation Of Ickmentioning

confidence: 76%

Targeted Degradation of the Cyclin-Dependent Kinase Inhibitor ICK4/KRP6 by RING-Type E3 Ligases Is Essential for Mitotic Cell Cycle Progression duringArabidopsisGametogenesis

et al. 2008

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Following meiosis, plant gametophytes develop through two or three rounds of mitosis. Although the ontogeny of gametophyte development has been defined in Arabidopsis thaliana, the molecular mechanisms regulating mitotic cell cycle progression are not well understood. Here, we report that RING-H2 group F 1a (RHF1a) and RHF2a, two RING-finger E3 ligases, play an important role in Arabidopsis gametogenesis. The rhf1a rhf2a double mutants are defective in the formation of male and female gametophytes due to interphase arrest of the mitotic cell cycle at the microspore stage of pollen development and at female gametophyte stage 1 of embryo sac development. We demonstrate that RHF1a directly interacts with and targets a cyclin-dependent kinase inhibitor ICK4/KRP6 (for Interactors of Cdc2 Kinase 4/Kip-related protein 6) for proteasomemediated degradation. Inactivation of the two redundant RHF genes leads to the accumulation of ICK4/KRP6, and reduction of ICK4/KRP6 expression largely rescues the gametophytic defects in rhf1a rhf2a double mutants, indicating that ICK4/KRP6 is a substrate of the RHF E3 ligases. Interestingly, in situ hybridization showed that ICK4/KRP6 was predominantly expressed in sporophytes during meiosis. Our findings indicate that RHF1a/2a-mediated degradation of the meiosis-accumulated ICK4/ KRP6 is essential to ensure the progression of subsequent mitoses to form gametophytes in Arabidopsis.

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Section: Rhf1a/rhf2a Function Correlates With the Accumulation Of Ickmentioning

confidence: 76%

Targeted Degradation of the Cyclin-Dependent Kinase Inhibitor ICK4/KRP6 by RING-Type E3 Ligases Is Essential for Mitotic Cell Cycle Progression duringArabidopsisGametogenesis

et al. 2008

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“…Variability of transgene expression is thus likely to be caused by factors other than chromatin condensation, such as sequence-specific gene silencing mediated by small interfering RNA and/or by increasing copy number (Butaye et al 2004;Schubert et al 2004). Approaches to eliminating these factors intrinsic to transgenes should contribute to minimizing variability of transgene expression in plants.…”

Section: Discussionmentioning

confidence: 99%

Analysis of chromatin condensation states by DNase I sensitivity assay at 500-base resolution in Arabidopsis

Kodama

Nagaya

Sakurai

et al. 2006

Plant Biotechnology

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Variable levels of transgene expression are frequently observed among independent transgenic plants. Although different chromatin condensation states surrounding randomly integrated transgenes have previously been thought to be one of the causes for this variability, condensation states of plant chromatin have not been examined systematically. In this study, to analyze the condensation states of Arabidopsis chromatin, we evaluated the degree of chromatin condensation by measuring overall accessibility to DNase I (DNase I sensitivity) at 500-base resolution. We analyzed 30 variably expressed genes in an 80-kb genomic region, a gene repressed by polycomb group and heterochromatin protein 1-like genes, two genes near the heterochromatin, and a retrotransposon within the genetically-defined centromere in Arabidopsis. The centromeric region was significantly DNase I insensitive, however, sensitivity of these genes was similar irrespective of the individual gene expression levels. Key words:Arabidopsis thaliana, chromatin condensation, DNase I sensitivity, position effect, variable transgene expression.Plant Biotechnology 23, 451-457 (2006) Abbreviations: AG, AGAMOUS; HP1, heterochromatin protein 1; MIPS, munich information center for protein sequences; PcG, polycomb group; S1, ribosomal protein S1 This article can be found at

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“…Screening for single-copy T-DNA transformants greatly enriches for stable and high transgene expression because PTGS is thought to be particularly triggered by multiple, complexly arranged copies of transgenes (De Buck et al 2004;Nagaya et al 2005). In addition, the use of PTGS mutant backgrounds as the target of transformation has been proven to be of high value for a stable and high expression level of transgenes (Butaye et al 2004;De Bolle et al 2007). Recently, it has been shown that the CRE/loxP recombination system is capable of resolving complex T-DNA loci into single T-DNA inserts and producing a high frequency of single-copy T-DNA transformants (De Buck et al 2007;De Paepe et al 2009).…”

Section: G Enetic Engineering Has Become a Routinementioning

confidence: 99%

“…In plant transgenesis, the transgene is usually integrated randomly into the host genome. The expression level of the transgene may vary among independent lines due to a number of factors including the transgene copy number, RNA silencing, and transgene insertion site (Butaye et al 2004;De Bolle et al 2007;De Paepe et al 2009). The variation of transgene expression has complicated phenotype characterization and necessitates the analysis of multiple transgenic lines.…”

Section: G Enetic Engineering Has Become a Routinementioning

confidence: 99%

The gypsy Insulator of Drosophila melanogaster, Together With Its Binding Protein Suppressor of Hairy-Wing, Facilitate High and Precise Expression of Transgenes in Arabidopsis thaliana

et al. 2010

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The variation of expression pattern exhibited by a transgene as a result of random integration, known as position effect, is, among other mechanisms, a particular challenge to reverse genetics. We present a strategy to counteract position effect in Arabidopsis thaliana by flanking the transgenes with the gypsy insulator from Drosophila melanogaster. In addition, Suppressor of Hairy-wing [Su(Hw)], the binding protein of the gypsy insulator, was coexpressed. Results indicated that the gypsy insulators could efficiently improve the expression levels of reporter genes driven by various kinds of promoters by 8-to 13-fold. Coexpression of the Su(Hw) protein led to a more uniform expression level of transgenes, as the coefficient of variation of expression levels was reduced further. The gypsy-Su(Hw) system enhanced expression levels, but did not alter the specificity of promoter activities, as experimentally evidenced by the promoters of the PIN and the AFB gene families. Interestingly, the gypsy insulator was also able to improve the expression of a selectable marker gene outside the insulated region, which facilitated the screen of transformants. Our system will likely decrease the number of lines that experimenters need to create and examine for a given transgene by contributing to relatively high and precise expression of transgenes in plants. Certain features of the gypsy insulator in Arabidopsis also provide new perspectives on the insulator field.

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Stable high‐level transgene expression in Arabidopsis thaliana using gene silencing mutants and matrix attachment regions

Cited by 144 publications

References 54 publications

Targeted Degradation of the Cyclin-Dependent Kinase Inhibitor ICK4/KRP6 by RING-Type E3 Ligases Is Essential for Mitotic Cell Cycle Progression duringArabidopsisGametogenesis

Targeted Degradation of the Cyclin-Dependent Kinase Inhibitor ICK4/KRP6 by RING-Type E3 Ligases Is Essential for Mitotic Cell Cycle Progression duringArabidopsisGametogenesis

Analysis of chromatin condensation states by DNase I sensitivity assay at 500-base resolution in Arabidopsis

The gypsy Insulator of Drosophila melanogaster, Together With Its Binding Protein Suppressor of Hairy-Wing, Facilitate High and Precise Expression of Transgenes in Arabidopsis thaliana

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