Krzysztof Stawujak scite author profile

Plants belonging to genus Drosera (family Droseraceae) contain pharmacologically active naphthoquinones such as ramentaceone and plumbagin. Hairy root cultures obtained following Agrobacterium rhizogenesmediated transformation have been reported to produce elevated levels of secondary compounds as well as exhibit desirable rapid biomass accumulation in comparison to untransformed plants. The aim of this study was to establish hairy root or teratoma cultures of Drosera capensis var. alba and to increase the level of ramentaceone in transformed tissue by application of abiotic and biotic elicitors. The appearance of transformed tissues-teratomas but not hairy roots was observed 18 weeks after transformation. The transformation efficiency was 10% and all teratoma cultures displayed about 3 times higher growth rate than non-transformed cultures of D. capesis. The transformation was confirmed by PCR and Southern hybridization using primers based on the A. rhizogenes rolB and rolC gene sequences. HPLC analysis of ramentaceone content indicated 60% higher level of this metabolite in teratoma tissue in comparison to non-transformed cultures. Among the elicitors tested jasmonic acid (2.5 mg l -1 ) turned out to be the most effective. The productivity of ramentaceone in elicited teratoma cultures was about sevenfold higher than in liquid cultures of D. capensis var. alba and amounted to 2.264 and 0.321 mg respectively during 4 weeks of cultivation. This is the first report on the transformation of Drosera plant with A. rhizogenes.

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MuTAnT: a family of Mutator-like transposable elements targeting TA microsatellites in Medicago truncatula

Stawujak

Startek

Gambin

et al. 2015

Genetica

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Transposable elements (TEs) are mobile DNA segments, abundant and dynamic in plant genomes. Because their mobility can be potentially deleterious to the host, a variety of mechanisms evolved limiting that negative impact, one of them being preference for a specific target insertion site. Here, we describe a family of Mutator-like DNA transposons in Medicago truncatula targeting TA microsatellites. We identified 218 copies of MuTAnTs and an element carrying a complete ORF encoding a mudrA-like transposase. Most insertion sites are flanked by a variable number of TA tandem repeats, indicating that MuTAnTs are specifically targeting TA microsatellites. Other TE families flanked by TA repeats (e.g. TAFT elements in maize) were described previously, however we identified the first putative autonomous element sharing that characteristics with a related group of short non-autonomous transposons.Electronic supplementary materialThe online version of this article (doi:10.1007/s10709-015-9842-5) contains supplementary material, which is available to authorized users.

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Dynamics of Vulmar/VulMITE group of transposable elements in Chenopodiaceae subfamily Betoideae

et al. 2011

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Transposable elements are important factors driving plant genome evolution. Upon their mobilization, novel insertion polymorphisms are being created. We investigated differences in copy number and insertion polymorphism of a group of Mariner-like transposable elements Vulmar and related VulMITE miniature inverted-repeat transposable elements (MITEs) in species representing subfamily Betoideae. Insertion sites of these elements were identified using a modified transposon display protocol, allowing amplification of longer fragments representing regions flanking insertion sites. Subsequently, a subset of TD fragments was converted into insertion site-based polymorphism (ISBP) markers. The investigated group of transposable elements was the most abundant in accessions representing the section Beta, showing intraspecific insertion polymorphisms likely resulting from their recent activity. In contrast, no unique insertions were observed for species of the genus Beta section Corollinae, while a set of section-specific insertions was observed in the genus Patellifolia, however, only two of them were polymorphic between P. procumbens and P. webbiana. We hypothesize that Vulmar and VulMITE elements were inactivated in the section Corollinae, while they remained active in the section Beta and the genus Patellifolia. The ISBP markers generally confirmed the insertion patterns observed with TD markers, including presence of distinct subsets of TE insertions specific to Beta and Patellifolia.Electronic supplementary materialThe online version of this article (doi:10.1007/s10709-011-9622-9) contains supplementary material, which is available to authorized users.

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Rapid E. coli-based cloning and expression system for production of recombinant proteins

Lupa¹,

Stawujak²,

Rozanski³

et al. 2014

Journal of Biotechnology

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