The stability of the Arabidopsis transcriptome in transgenic plants expressing the marker genes <i>nptII</i> and <i>uidA</i>

Ouakfaoui, Souad El; Miki, Brian

doi:10.1111/j.1365-313x.2005.02350.x

Cited by 63 publications

(68 citation statements)

References 30 publications

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“…An understanding of the unintended effects of genes (Cellini et al ., 2004) and drought (El Ouakfaoui and Miki, 2005). These data show that transgenic plants created with these marker genes are transcriptionally identical to non-transgenic plants.…”

Section: Introductionmentioning

confidence: 52%

The pleiotropic effects of thebargene and glufosinate on theArabidopsistranscriptome

Abdeen

Miki

2009

Plant Biotechnology Journal

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SummaryThe Arabidopsis transcriptome was studied using the Affymetrix Arabidopsis ATH1 GeneChip in wild-type plants and glufosinate-tolerant transgenic plants expressing the bialaphos resistance ( bar ) gene. Pleiotropic effects were specifically generated in the transcriptomes of transgenic plants by both the bar gene and glufosinate treatments. In the absence of glufosinate, four genes were differentially expressed in the transgenic lines and another 80 genes were differentially expressed in the presence of glufosinate, 29 of which were specific to transgenic plants. In contrast, the number of differentially expressed genes specific to wild-type plants was 194 during the early response at 6 h of glufosinate treatment, and increased to 3711 during the late response at 48 h. Although the wild-type plants undergo extensive transcriptional reprofiling in response to herbicide-induced stress and, finally, plant death, the transgenic plants appear to activate other detoxification processes to offset the toxic effects of the residual herbicide or its derivatives. This study provides the first description of the pleiotropic effects of the bar gene and glufosinate on the plant transcriptome.

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Section: Introductionmentioning

confidence: 52%

The pleiotropic effects of thebargene and glufosinate on theArabidopsistranscriptome

Abdeen

Miki

2009

Plant Biotechnology Journal

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“…Toxic effects are not expected from metabolites of transgenic GUS activity in plants (Gilissen et al, 1998). As with nptII, Ouakfaoui and Miki (2005) reported no phenotypic or genetic expression changes of 24,000 genes in transgenic Arabidopsis plants containing the uidA gene. Potential risks of horizontal gene transfer: As with the other markers, genes originally isolated from E. coli (nptII, hph and manA), the uidA gene and the GUS enzyme are widely distributed in the environment, are present in the intestinal tract of vertebrates, including man and are present in food.…”

Section: Reporter Genes Uida (Gus): β-D-glucuronide Glucuronoso-hydromentioning

confidence: 99%

“…In 2004, the Scientific Panel on genetically modified organisms (GMO Panel) of the European Food Safety Authority (EFSA) concluded that after 13 years of safe use and careful evaluation, there is no rationale for restricting the use of nptII as a selectable marker for either field studies or commercialization of crop plants containing the protein (European Food Safety Authority, 2004). Pleiotropic effects: Enhancement of physiological fitness due to pleiotropic effects of nptII has not been documented (Miki and McHugh, 2004), and expression of nptII in Arabidopsis had no functional effect on the expression of 24,000 other genes studied (Ouakfaoui and Miki, 2005).…”

Section: Safety Assessment Of Nptiimentioning

confidence: 99%

“…These pleiotropic effects may alter the fitness, environmental impact, or food and feed safety characteristics of the organism. Using GeneChip technology, Ouakfaoui and Miki (2005) (Cellini et al, 2004). HGT between the transformed plants and soil microflora, gut bacteria or cells of organisms ingesting the plants may allow the recipient cell or organism to express a protein with unintentional effects (Van den Eede et al, 2004).…”

Section: Environmental Safety Considerationsmentioning

confidence: 99%

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Biosafety considerations for selectable and scorable markers used in cassava (Manihot esculentaCrantz) biotechnology

Petersen¹,

Umbeck²,

Hokanson

et al. 2005

Environ. Biosafety Res.

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Cassava is an important subsistence crop grown only in the tropics, and represents a major source of calories for many people in developing countries. Improvements in the areas of resistance to insects and viral diseases, enhanced nutritional qualities, reduced cyanogenic content and modified starch characteristics are urgently needed. Traditional breeding is hampered by the nature of the crop, which has a high degree of heterozygosity, irregular flowering, and poor seed set. Biotechnology has the potential to enhance crop improvement efforts, and genetic engineering techniques for cassava have thus been developed over the past decade. Selectable and scorable markers are critical to efficient transformation technology, and must be evaluated for biosafety, as well as efficiency and cost-effectiveness. In order to facilitate research planning and regulatory submission, the literature on biosafety aspects of the selectable and scorable markers currently used in cassava biotechnology is surveyed. The source, mode of action and current use of each marker gene is described. The potential for toxicity, allergenicity, pleiotropic effects, horizontal gene transfer, and the impact of these on food or feed safety and environmental safety is evaluated. Based on extensive information, the selectable marker genes nptII, hpt, bar/pat, and manA, and the scorable marker gene uidA, all have little risk in terms of biosafety. These appear to represent the safest options for use in cassava biotechnology available at this time.

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“…To my knowledge, there is no published, validated research showing any fundamental biochemical or biophysical difference between DNA recombined in a test tube vs. that recombined in a living cell. (2) Compared to other breeding techniques, targeted DNA manipulations achieved during transgenesis, cisgenesis, intragenesis, or genome editing are no more disruptive-and are commonly less disruptive-to a plant's genome, transcriptome, proteome, and composition than other methods of crop improvement [170,171,[195][196][197][198][199][200]. If unanticipated health consequences from GE manipulations merit concern, so do the unanticipated health consequences of each new conventionally bred crop variety [201].…”

Section: Consumption Of Ge Cropsmentioning

confidence: 99%

Genetic Engineering and Sustainable Crop Disease Management: Opportunities for Case-by-Case Decision-Making

Vincelli

2016

Sustainability

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Genetic engineering (GE) offers an expanding array of strategies for enhancing disease resistance of crop plants in sustainable ways, including the potential for reduced pesticide usage. Certain GE applications involve transgenesis, in some cases creating a metabolic pathway novel to the GE crop. In other cases, only cisgenessis is employed. In yet other cases, engineered genetic changes can be so minimal as to be indistinguishable from natural mutations. Thus, GE crops vary substantially and should be evaluated for risks, benefits, and social considerations on a case-by-case basis. Deployment of GE traits should be with an eye towards long-term sustainability; several options are discussed. Selected risks and concerns of GE are also considered, along with genome editing, a technology that greatly expands the capacity of molecular biologists to make more precise and targeted genetic edits. While GE is merely a suite of tools to supplement other breeding techniques, if wisely used, certain GE tools and applications can contribute to sustainability goals.

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The stability of the Arabidopsis transcriptome in transgenic plants expressing the marker genes nptII and uidA

Cited by 63 publications

References 30 publications

The pleiotropic effects of thebargene and glufosinate on theArabidopsistranscriptome

The pleiotropic effects of thebargene and glufosinate on theArabidopsistranscriptome

Biosafety considerations for selectable and scorable markers used in cassava (Manihot esculentaCrantz) biotechnology

Genetic Engineering and Sustainable Crop Disease Management: Opportunities for Case-by-Case Decision-Making

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