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2014 | 36 | 06 |

Tytuł artykułu

Application of Arabidopsis tissue-specific CRUC promoter in the Cre/loxP self-excision strategy for generation of marker-free oilseed rape: potential advantages and drawbacks

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The aim of the present study was to explore the usability of Arabidopsis cruciferin C (CRUC) promoter in the Cre/loxP self-excision strategy with the minimal rate of an ectopic expression of the cre recombinase. For this, a plant transformation vector containing the gus reporter gene driven by the light-sensitive Lhca3.St1 instead of double dCaMV 35S promoter and one pair loxP sites flanking the cre and the nptII genes was prepared. Agrobacterium-mediated transformations of three economically important oilseed rape (Brassica napus L.) cultivars Campino, Hunter and Topas as well as tobacco (Nicotiana tabacum L.) as a reference system were performed. The integration of the T-DNA into genome of all Brassica cultivars was accompanied by DNA deletions/rearrangements on the both T-DNA ends. The disruption of the Cre/ loxP recombination system in oilseed rape was observed. On the contrary, no such events were detected in tobacco. The applied strategy did restrict an ectopic CRUC activity to some extent and a set of transgenic tobacco T₀ plants without premature excision event was obtained. Our data showed that a choice of the promoter can limit undesired activation of the Cre/loxP cassette.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

36

Numer

06

Opis fizyczny

p.1399-1409,fig.,ref.

Twórcy

  • Institute of Plant Genetics and Biotechnology, Slovak Academy of Sciences, Akademicka 2, P.O.B. 39 A, 95007 Nitra 1, Slovak Republic
autor
  • Institute of Plant Genetics and Biotechnology, Slovak Academy of Sciences, Akademicka 2, P.O.B. 39 A, 95007 Nitra 1, Slovak Republic
  • Institute of Plant Genetics and Biotechnology, Slovak Academy of Sciences, Akademicka 2, P.O.B. 39 A, 95007 Nitra 1, Slovak Republic
  • Institute of Plant Genetics and Biotechnology, Slovak Academy of Sciences, Akademicka 2, P.O.B. 39 A, 95007 Nitra 1, Slovak Republic

Bibliografia

  • Annadana S, Mlynarova L, Udayakumar M, de Jong J, Nap JP (2002) The potato Lhca3.St.1 promoter confers high and stable transgene expression in chrysanthemum, in contrast to CaMV-based promoters. Mol Breed 8:335–344
  • Bai X, Wang Q, Chu C (2008) Excision of a selective marker in transgenic rice using a novel Cre/loxP system controlled by a floral specific promoter. Transgenic Res 17:1035–1043
  • Becerra C, Puigdomenech P, Vicient CM (2006) Computational and experimental analysis identifies Arabidopsis genes specifically expressed during early seed development. Bmc Genomics 7:38
  • Bondarenko VA, Liu YV, Jiang YI, Studitsky VM (2003) Communication over a large distance: enhancers and insulators. Biochem Cell Biol 81:241–251
  • Boszoradova E, Libantova J, Matusikova I, Poloniova Z, Jopcik M, Berenyi M, Moravcikova J (2011) Agrobacterium-mediated genetic transformation of economically important oilseed rape cultivars. Plant Cell Tiss Org 107:317–323
  • Chen J, Greenblatt IM, Dellaporta SL (1992) Molecular analysis of Ac transposition and DNA-replication. Genetics 130:665–676
  • Eckner R, Ellmeier W, Birnstiel ML (1991) Mature messenger-RNA 3' end formation stimulates RNA export from the nucleus. EMBO J 10:3513–3522
  • Gidoni D, Srivastava V, Carmi N (2008) Site-specific excisional recombination strategies for elimination of undesirable transgenes from crop plants. In Vitro Cell Dev Biol Plant 44:457–467
  • Gilbertson L (2003) Cre-loxrecombination: cre-active tools for plant biotechnology. Trends Biotechnol 21:550–555
  • Hamilton DL, Abremski K (1984) Site-specific recombination by the bacteriophage P1 lox-Cre system. Cre-mediated synapsis of two lox sites. J Mol Biol 178:481–486
  • Jefferson RA, Kavanagh TA, Bevan MW (1987) Gus fusions—beta-glucuronidase as a sensitive and versatile gene fusion marker in higher-plants. EMBO J 6:3901–3907
  • Kay R, Chan A, Daly M, McPherson J (1987) Duplication of CamMV-35S promoter sequences creates a strong enhancer for plant genes. Science 236:1299–1302
  • Kirik A, Salomon S, Puchta H (2000) Species-specific double-strand break repair and genome evolution in plants. EMBO J 19:5562–5566
  • Kohli A, Leech M, Vain P, Laurie DA, Christou P (1998) Transgene organization in rice engineered through direct DNA transfer supports a two-phase integration mechanism mediated by the establishment of integration hot spots. P Natl Acad Sci USA 95:7203–7208
  • Kopertekh L, Broer I, Schiemann J (2009) Developmentally regulated site-specific marker gene excision in transgenic B. napus plants. Plant Cell Rep 28:1075–1083
  • Li Z, Xing A, Moon BP, Burgoyne SA, Guida AD, Liang H, Lee C, Caster CS, Barton JE, Klein TM, Falco SC (2007) A Cre/loxP-mediated self-activating gene excision system to produce marker gene free transgenic soybean plants. Plant Mol Biol 65:329–341
  • Luo Z, Chen Z (2007) Improperly terminated, unpolyadenylated mRNA of sense transgenes is targeted by RDR6-mediated RNA silencing in Arabidopsis. Plant Cell 19:943–958
  • Luo K, Duan H, Zhao D, Zheng X, Deng W, Chen Y, Stewart CN Jr, McAvoy R, Jiang X, Wu Y, He A, Pei Y, Li Y (2007) ‘GMgene-deletor’: fused loxP-FRT recognition sequences dramatically improve the efficiency of FLP or CRE recombinase on transgene excision from pollen and seed of tobacco plants. Plant Biotech J 5:263–274
  • Machida Y, Usami S, Yamamoto A, Niwa Y, Takebe I (1986) Plant-inducible recombination between the 25 bp border sequences of T-DNA in Agrobacterium-tumefaciens. Mol Gen Genet 204: 374–382
  • Mietkiewska E, Dees D, Nap JP (2000) Seed specific GUS gene expression directed by the Arabidopsis cruciferin C promoter in tobacco and Arabidopsis. In. Session Plant Lipid Metabolisms, 6 th International Congress of Plant Molecular Biology, ISPMB, June 18–24, Quebec, Canada, 20–14
  • Mlynarova L, Nap JP (2003) A self-excising Cre recombinase allows efficient recombination of multiple ectopic heterospecific lox sites in transgenic tobacco. Transgenic Res 12:45–57
  • Mlynarova L, Loonen A, Heldens J, Jansen RC, Keizer P, Stiekema WJ, Nap JP (1994) Reduced position effect in mature transgenic plants conferred by the chicken lysozyme matrix-associated region. Plant Cell 6:417–426
  • Mlynarova L, Conner AJ, Nap JP (2006) Directed microspore-specific recombination of transgenic alleles to prevent pollen-mediated transmission of transgenes. Plant Biotech J 4:445–452
  • Moravcikova J, Libantova J, Matusikova I, Libiakova G, Nap JP, Mlynarova L (2003) Genetic transformation of Slovak cultivar of potato (Solanum tuberosum L.): efficiency and the behaviour of the transgene. Biologia 58:1075–1080
  • Moravcikova J, Vaculkova E, Bauer M, Libantova J (2008) Feasibility of the seed specific cruciferin C promoter in the self excision Cre/loxP strategy focused on generation of marker-free transgenic plants. Theor Appl Genet 117:1325–1334
  • Müller AE, Kamisugi Y, Gruneberg R, Niedenhof I, Horold RJ, Meyer P (1999) Palindromic sequences and A plus T-rich DNA elements promote illegitimate recombination in Nicotiana tabacum. J Mol Biol 291:29–46
  • Murashige I, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Plant Physiol 15:473–497
  • Nap JP, Vanspanje M, Dirkse WG, Baarda G, Mlynarova L, Loonen A, Grondhuis P, Stiekema WJ (1993) Activity of the promoter of the Lhca3.st.1 gene, encoding the potato apoprotein-2 of the light-harvesting complex of photosystem-i, in transgenic potato and tobacco plants. Plant Mol Biol 23:605–612
  • Orel N, Puchta H (2003) Differences in the processing of DNA ends in Arabidopsis thaliana and tobacco: possible implications for genome evolution. Plant Mol Biol 51:523–531
  • Puchta H (2005) The repair of double-strand breaks in plants: mechanisms and consequences for genome evolution. J Exp Botany 56:1–14
  • Singer SD, Cox KD, Liu Z (2010) Both the constitutive Cauliflower Mosaic Virus 35S and tissue-specific AGAMOUS enhancers activate transcription autonomously in Arabidopsis thaliana. Plant Mol Biol 74:293–305
  • Singer SD, Cox KD, Liu Z (2011) Enhancer-promoter interference and its prevention in transgenic plants. Plant Cell Rep 30:723–731
  • Stuitje AR, Verbree EC, van der Linden KH, Mietkiewska EM, Nap JP, Kneppers TJA (2003) Seed-expressed fluorescent proteins as versatile tools for easy (co)transformation and high-throughput functional genomics in Arabidopsis. Plant Biotech J 1:301–309
  • Thompson JD, Higgins DG, Gibson TJ (1994) CLUSTAL-W—improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice. Nucleic Acids Res 22:4673–4680
  • Tuteja N, Verma S, Sahoo RK, Raveendar S, Reddy INBL (2012) Recent advances in development of marker-free transgenic plants: regulation and biosafety concern. J Biosci 37:167–197
  • Vaculkova E, Moravcikova J, Matusikova I, Bauer M, Libantova J (2007) A modified low copy number binary vector pUN for Agrobacterium-mediated plant transformation. Biol Plantarum 51:538–540
  • Verweire D, Verleyen K, De Buck S, Claeys M, Angenon G (2007) Marker-free Transgenic plants through genetically programmed auto-excision. Plant Physiol 145:1220–1231
  • Yano K-I, Morotomi-Yano K, Adachi N, Akiyama H (2009) Molecular mechanism of protein assembly on DNA double-strand breaks in the non-homologous end-joining pathway. J Radiat Res 50:97–108
  • Yoo SY, Bomblies K, Yoo SK, Yang JW, Choi MS, Lee JS, Weigel D, Ahn JH (2005) The 35S promoter used in a selectable marker gene of a plant transformation vector affects the expression of the transgene. Planta 221:523–530
  • Zhao J, Hyman L, Moore C (1999) Formation of mRNA 3 ‘ ends in eukaryotes: mechanism, regulation, and interrelationships with other steps in mRNA synthesis. Microbiol Mol Biol R 63:405–445
  • Zheng X, Deng W, Luo K, Duan H, Chen Y, McAvoy R, Song S, Pei Y, Li Y (2007) The cauliflower mosaic virus (CaMV) 35S promoter sequence alters the level and patterns of activity of adjacent tissue- and organ-specific gene promoters. Plant Cell Rep 26:1195–1203
  • Zimmermann P, Hirsch-Hoffmann M, Hennig L, Gruissem W (2004) Genevestigator Arabidopsis microarray database and analysis toolbox. Plant Physiol 136:4335–4338

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-ce386964-6859-4834-af9a-9189504b1e79
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