Expression of sunflower cytoplasmic male sterility-associated open reading frame, orfH522 induces male sterility in transgenic tobacco plants

Nizampatnam, Narasimha Rao; Doodhi, Harinath; Narasimhan, Yamini Kalinati; Sujatha, M.; Kumar, V. Dinesh

doi:10.1007/s00425-009-0888-4

Cited by 41 publications

(52 citation statements)

References 61 publications

(87 reference statements)

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“…A transgenic approach sometimes (but not always) works well, wherein plants expressing specific unique ORFs fused with mitochondrial import signal peptides express male sterility or toxin sensitivity [79,[101][102][103][104][105]. Microorganisms such as E coli can also be used as hosts to examine the toxin sensitivities conferred by specific ORFs [36,76].…”

Section: Why Do Most Of the Unique Orfs Not Matter In Angiosperm Mitomentioning

confidence: 99%

Cost of Having the Largest Mitochondrial Genome: Evolutionary Mechanism of Plant Mitochondrial Genome

Kitazaki

Kubo

2010

Journal of Botany

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The angiosperm mitochondrial genome is the largest and least gene-dense among the eukaryotes, because its intergenic regions are expanded. There seems to be no functional constraint on the size of the intergenic regions; angiosperms maintain the large mitochondrial genome size by a currently unknown mechanism. After a brief description of the angiosperm mitochondrial genome, this review focuses on our current knowledge of the mechanisms that control the maintenance and alteration of the genome. In both processes, the control of homologous recombination is crucial in terms of site and frequency. The copy numbers of various types of mitochondrial DNA molecules may also be controlled, especially during transmission of the mitochondrial genome from one generation to the next. An important characteristic of angiosperm mitochondria is that they contain polypeptides that are translated from open reading frames created as byproducts of genome alteration and that are generally nonfunctional. Such polypeptides have potential to evolve into functional ones responsible for mitochondrially encoded traits such as cytoplasmic male sterility or may be remnants of the former functional polypeptides.

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Section: Why Do Most Of the Unique Orfs Not Matter In Angiosperm Mitomentioning

confidence: 99%

Cost of Having the Largest Mitochondrial Genome: Evolutionary Mechanism of Plant Mitochondrial Genome

Kitazaki

Kubo

2010

Journal of Botany

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“…Various sterility gene constructs have been tested with different levels of success in crop plants, e.g., by expression of deleterious genes in flower organs, like barnase (Paddon & Hartley 1986, Mariani et al 1990, García-Sogo et al 2010, orfH522 (Nizampatnam et al 2009), monooxygenase (MNX - Gan et al 2010), stilbene synthase (STS -Fisher et al 1997, Höfig et al 2006, the gene for ribosome inactivating protein (Palmiter et al 1987) and RNA interference (Nawaz-ul-Rehman et al 2007). Specific floral regulatory promoters to direct expression of genes in reproductive structures have been found in crop plants, e.g., TA29 promoter from Nicotiana tabacum (Koltunow et al 1990, Mariani et al 1990) and forest tree species, e.g., PrMA-LE1 from Pinus radiata (Höfig et al 2003) and PTD from poplar (Skinner et al 2003).…”

Section: Introductionmentioning

confidence: 99%

Early flowering and genetic containment studies in transgenic poplar

Hoenicka¹,

Lehnhardt²,

Polak³

et al. 2012

iForest

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Despite of the immense potential of gene technologies for tree breeding, release of genetic modified trees is still very rare. Biosafety concerns have hitherto limited application of gene technologies. The potential risks of transgenic trees, in particular transfer of recombinant DNA into the gene pool of a given species via vertical gene transfer, have been motive of concern. Biosafety research may allow avoiding potential risks of this technology. However, the evaluation of strategies for prevention of vertical gene transfer, probably the most important concern toward transgenic trees, has been hindered by the long time they require to reach the reproductive phase. We tested different strategies for promoting early flowering in poplar, aiming the development of a system for biosafety studies on gene containment. Early flowering poplar containing the 35S::LFY or HSP::FT gene constructs allowed first approaches for the faster evaluation of gene containment. However, some drawbacks, e.g., disturbed vegetative growth and flower development, still limit their potential application on biosafety research. A non-transgenic hybrid aspen showing a short vegetative phase was successfully used for the evaluation of the PrMALE1::STS sterility gene construct

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“…Male sterility induced by genetic transformation or alien DNA introduction has been reported in many studies (Ji et al 2003;Cheon et al 2004;Yang et al 2004;Wang et al 2005;Höfig et al 2006;Ge et al 2008;Wan et al 2008;Nizampatnam et al 2009). However, most of the male sterile lines were not genetically characterized and it is not known if the male sterility of the lines was stably inherited or if the lines had potential value for crop improvement.…”

Section: Discussionmentioning

confidence: 95%

“…Constitutive expression of a human gene affected the morphologies of transgenic plants such that vegetative growth of transgenic tobacco was retarded, and male sterility was induced in transgenic tobacco and Arabidopsis (Cheon et al 2004). Tapetum specific expression of mitochondrial gene orfH522 in tobacco made onethird of the transgenics completely male sterile (Nizampatnam et al 2009). Cone-specific expression of a stilbene synthase gene (STS) in anthers of transgenic tobacco plants resulted in complete nuclear male sterility in 70% of transformed plants (Höfig et al 2006).…”

Section: Introductionmentioning

confidence: 98%

Characterization of a male sterile mutant from progeny of a transgenic plant containing a leaf senescence-inhibition gene in wheat

Zhong

et al. 2010

Euphytica

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Expression of sunflower cytoplasmic male sterility-associated open reading frame, orfH522 induces male sterility in transgenic tobacco plants

Cited by 41 publications

References 61 publications

Cost of Having the Largest Mitochondrial Genome: Evolutionary Mechanism of Plant Mitochondrial Genome

Cost of Having the Largest Mitochondrial Genome: Evolutionary Mechanism of Plant Mitochondrial Genome

Early flowering and genetic containment studies in transgenic poplar

Characterization of a male sterile mutant from progeny of a transgenic plant containing a leaf senescence-inhibition gene in wheat

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