Consistent transcriptional silencing of 35S‐driven transgenes in gentian

Mishiba, Kei‐ichiro; Nishihara, Masahiro; Nakatsuka, Takashi; Abe, Yoshiko; Honda, Hiroshi; Yokoi, Takahide; Kikuchi, Akiko; Yamamura, Saburo

doi:10.1111/j.1365-313x.2005.02556.x

Cited by 100 publications

(94 citation statements)

References 48 publications

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“…Takashi Nakatsuka, Kei-ichiro Mishiba a , Yoshiko Abe, Akiko Kubota, Yuko Kakizaki, Saburo Yamamura, Masahiro Nishihara * that the CaMV35S promoter underwent strong gene silencing by sequence-specific DNA methylation in gentian plants (Mishiba et al 2005). By screening several promoters, we found that the Agrobacterium rhizogenes rolC promoter could avoid gene silencing and induce semi-constitutive gene expression in transgenic gentian plants (Mishiba et al 2005).…”

Section: Flower Color Modification Of Gentian Plants By Rnai-mediatedmentioning

confidence: 99%

“…By screening several promoters, we found that the Agrobacterium rhizogenes rolC promoter could avoid gene silencing and induce semi-constitutive gene expression in transgenic gentian plants (Mishiba et al 2005). Sugaya and Uchimiya (1992) have reported that the activity of the rolC promoter was localized predominantly in vascular bundle tissues of transgenic tobacco plants.…”

Section: Flower Color Modification Of Gentian Plants By Rnai-mediatedmentioning

confidence: 99%

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Flower color modification of gentian plants by RNAi-mediated gene silencing

Nakatsuka

Mishiba

Abe

et al. 2008

Plant Biotechnology

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Section: Flower Color Modification Of Gentian Plants By Rnai-mediatedmentioning

confidence: 99%

Section: Flower Color Modification Of Gentian Plants By Rnai-mediatedmentioning

confidence: 99%

Flower color modification of gentian plants by RNAi-mediated gene silencing

Nakatsuka

Mishiba

Abe

et al. 2008

Plant Biotechnology

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“…More than half the phenotypes are from Arabidopsis. The efficiency of induction of abnormal phenotypes was high in Arabidopsis (257 phenotypes by 50 TFs) and morning glory (36 phenotypes by 11 TFs), while in gentian (4 phenotypes by 23 TFs) it was low, probably because of gene silencing of the transgene (Mishiba et al 2005;Mishiba et al 2010). In ornamental plants, flower phenotypes, especially in the petals, were frequently observed because the petals of ornamental plants are conspicuous and modification of the petal is the main focus of our project.…”

Section: Finding a Tf That Induces A Phenotype Of Interestmentioning

confidence: 92%

The new FioreDB database provides comprehensive information on plant transcription factors and phenotypes induced by CRES-T in ornamental and model plants

Mitsuda¹,

Takiguchi²,

Shikata³

et al. 2011

Plant Biotechnology

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“…Transformation methods of Torenia (Aida and Shibata 2001), Chrysanthemum (Aida et al 2004), Pharbitis and Gentiana (Mishiba et al 2005) were described previously. Improved method of transformation of Cyclamen is reported in this issue (Terakawa et al 2008).…”

Section: Plant Transformationmentioning

confidence: 99%

“…Multi-copied endogenous genes may be a major obstacle in applying CRES-T, even though CRES-T has great potential to overcome gene redundancy. In gentiana, every gene construct was driven by the promoter of the Arabidopsis ACTIN2 (ACT2) gene (An et al 1996) instead of the CaMV 35S promoter, because the 35S promoter is known to be extensively methylated and inactivated in gentiana (Mishiba et al 2005 kinds of them were mixed in Arabidopsis. From each batch, we grew approximately 200 independent transformants and examined phenotypes individually (Table 2).…”

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confidence: 99%

FioreDB: a database of phenotypic information induced by the chimeric repressor silencing technology (CRES-T) in Arabidopsis and floricultural plants

Mitsuda

Umemura

Ikeda

et al. 2008

Plant Biotechnology

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Genetic engineering and functional analysis of genes in horticultural plants, including crops and floricultural plants have been a great challenge. Among strategies that aim to improve plant traits and analyze gene functions, there have been several successful applications to confer useful traits to plants by employing exogenous genes, such as genes encoding herbicide resistance (Comai and Shen 1983), pest resistance (Bates et al. 2005), and increased production of nutrients (Ye et al. 2000). Geneknockout or knockdown technology is major strategies for functional analysis of genes, and can confer new traits on plants. However, these techniques have various difficulties mainly due to genetic redundancy, polyploidy, and limited information of genomic or transcriptomic information. Although RNA interference (RNAi) effectively knocks down the expression of the targeted genes in model plants such as Arabidopsis thaliana and rice, it is difficult to apply this technology to horticultural plants because sequence information of the target gene is required. Furthermore, even if the technique is successfully applied, genetic redundancy of genes often compensates for the specific gene that has been knocked- Abstract Manipulation of horticultural plants' traits using genetic engineering has been a challenge because of gene redundancy and limited information concerning genome or other factors necessary for successful engineering. Recently we have developed a powerful tool with potential to overcome these difficulties, a novel gene silencing technology targeting transcription factor, which is designated Chimeric REpressor gene-Silencing Technology (CRES-T). Using this system, we are now analyzing biological functions of transcription factors in Arabidopsis and trying to manipulate morphological traits of various floricultural plants. To provide these information for genetic engineering of horticultural plants, we have developed the 'FioreDB' database in a web-based interface (http://www.cres-t.org/fiore/public_db/), which stores phenotypic information induced by various chimeric repressors in Arabidopsis and six floricultural plants, namely torenia, chrysanthemum, gentian, cyclamen, eustoma, morning glory. Users can find gene constructs that induce their preferred phenotype in Arabidopsis using simple searches, and can browse induced phenotypes in floricultural plants. Most phenotypic information has photo data. FioreDB is continually updated by addition of new data derived from the CRES-T analyses. FioreDB will help to improve traits of horticultural plants using the CRES-T system. FioreDB: a database of phenotypic information induced by the chimeric repressor silencing technology (CRES-T) in

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Consistent transcriptional silencing of 35S‐driven transgenes in gentian

Cited by 100 publications

References 48 publications

Flower color modification of gentian plants by RNAi-mediated gene silencing

Flower color modification of gentian plants by RNAi-mediated gene silencing

The new FioreDB database provides comprehensive information on plant transcription factors and phenotypes induced by CRES-T in ornamental and model plants

FioreDB: a database of phenotypic information induced by the chimeric repressor silencing technology (CRES-T) in Arabidopsis and floricultural plants

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