Search results for "herbicide tolerance"

showing 6 items of 6 documents

Assessment of genetically modified maize 4114 for food and feed uses, under Regulation (EC) No 1829/2003 (application EFSA‐GMO‐NL‐2014‐123)

2018

Abstract Maize 4114 was developed through Agrobacterium tumefaciens‐mediated transformation to provide protection against certain lepidopteran and coleopteran pests by expression of the Cry1F, Cry34Ab1 and Cry35Ab1 proteins derived from Bacillus thuringiensis, and tolerance to the herbicidal active ingredient glufosinate‐ammonium by expression of the PAT protein derived from Streptomyces viridochromogenes. The molecular characterisation data did not identify issues requiring assessment for food/feed safety. None of the compositional, agronomic and phenotypic differences identified between maize 4114 and the non‐genetically modified (GM) comparator(s) required further assessment. There were …

0106 biological sciences4114herbicide toleranceAgrobacteriumCry1F[SDV]Life Sciences [q-bio]Veterinary (miscellaneous)Cry34Ab1Context (language use)4114; Cry1F; Cry34Ab1; Cry35Ab1; GMO; herbicide tolerance; insect-resistant; maize (Zea mays); PAT; Regulation (EC) No 1829/2003TP1-1185Plant Science010501 environmental sciences01 natural sciencesMicrobiologyBacillus thuringiensisinsect‐resistantinsect-resistantTX341-641maize (Zea mays)0105 earth and related environmental sciences2. Zero hungerGenetically modified maizeAnimal healthbiologyNutrition. Foods and food supplyGMObusiness.industryChemical technologyCry35Ab1Regulation (EC) No 1829/2003maize (Zea mays)biology.organism_classificationGenetically modified organismBiotechnologyTransformation (genetics)Scientific Opinion13. Climate actionAnimal Science and ZoologyParasitologybusinessCry 1FPATRegulation (EC) No 1829/2003010606 plant biology & botanyFood SciencePotential toxicity
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Scientific Opinion on application EFSA‐GMO‐BE‐2013‐117 for authorisation of genetically modified maize MON 87427 × MON 89034 × NK603 and subcombinati…

2017

Scientific opinionRequestor: Competent Authority of BelgiumQuestion number: EFSA-Q-2013-00765; In this opinion, the EFSA Panel on Genetically Modified Organisms (GMO Panel) assessed the three-event stack maize MON 87427 9 MON 89034 9 NK603 and its three subcombinations, independently of their origin. The GMO Panel has previously assessed the three single events combined to produce this three-event stack maize and did not identify safety concerns. No new data on the single events, leading to modification of the original conclusions on their safety, were identified. Based on the molecular, agronomic, phenotypic and compositional characteristics, the combination of the single maize events and …

0106 biological sciencesCry1Aherbicide tolerancemaïsVeterinary (miscellaneous)gmo[SDV]Life Sciences [q-bio]MON87427xMON89034xNK603ogmPlant Science010501 environmental sciencesmaizeCP4EPSPS01 natural sciencesMicrobiologyzea maysMON 87427 × MON 89034 × NK603Cry2Ab2CP4 EPSPS0105 earth and related environmental sciences2. Zero hungerCP4 EPSPSCry1A.105indian cornRegulation (EC) No 1829/2003105GMO;maize;herbicide tolerance;insect resistance;CP4 EPSPS;Cry1A.105;Cry2Ab2;Regulation (EC) No 1829/2003;MON 87427 x MON 89034 x NK603MON 87427 9 MON 89034 9 NK603Scientific OpinionRegulation (EC) No1829/2003Animal Science and ZoologyParasitologyinsect resistance010606 plant biology & botanyFood ScienceRegulation (EC) No 1829/2003
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Scientific Opinion on application EFSA‐GMO‐BE‐2013‐118 for authorisation of genetically modified maize MON 87427 × MON 89034 × 1507 × MON 88017 × 591…

2017

Abstract In this opinion, the GMO Panel assessed the five‐event stack maize MON 87427 × MON 89034 ×1507 × MON 88017 × 59122 and its 25 subcombinations, independently of their origin. The GMO Panel has previously assessed the five single events combined to produce this five‐event stack maize and 11 subcombinations of these events and did not identify safety concerns. No new data on the single events or their previously assessed subcombinations, leading to modification of the original conclusions were identified. The combination of the single events and of the newly expressed proteins in the five‐event stack maize did not give rise to issues – based on the molecular, agronomic/phenotypic or c…

040301 veterinary sciencesherbicide toleranceVeterinary (miscellaneous)Context (language use)Plant ScienceGenetically modified crops010501 environmental sciencesBiologymaize01 natural sciencesMicrobiology0403 veterinary scienceEnvironmental safety0105 earth and related environmental sciencesGenetically modified maizebusiness.industryGMOAuthorizationGMO;maize;MON 87427 x MON 89034 x 1507 x MON 88017 x 59122;herbicide tolerance;insect resistance04 agricultural and veterinary sciencesFood safetyZea maysBiotechnologyGenetically modified organismMON87427xMON89034x1507xMON88017x59122Scientific OpinionSettore AGR/11 - Entomologia Generale E ApplicataMON 87427 × MON 89034 × 1507 × MON 88017 × 59122Animal Science and ZoologyParasitologyinsect resistancebusinessFood Science
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Biochemical bases for a widespread tolerance of cyanobacteria to the phosphonate herbicide glyphosate

2008

Possible non-target effects of the widely used, non-selective herbicide glyphosate were examined in six cyanobacterial strains, and the basis of their resistance was investigated. All cyanobacteria showed a remarkable tolerance to the herbicide up to millimolar levels. Two of them were found to possess an insensitive form of glyphosate target, the shikimate pathway enzyme 5-enol-pyruvyl-shikimate-3-phosphate synthase. Four strains were able to use the phosphonate as the only phosphorus source. Low uptake rates were measured only under phosphorus deprivation. Experimental evidence for glyphosate metabolism was also obtained in strains apparently unable to use the phosphonate. Results suggest…

CyanobacteriaTime Factorsherbicide tolerancePhysiologytarget enzyme-based resistanceGlycineOrganophosphonateschemistry.chemical_elementPlant ScienceBiologycyanobacteriaPhosphorus metabolismchemistry.chemical_compoundglyphosateShikimate pathwayEPSP synthasecyanobacteria; EPSP synthase; glyphosate; herbicide tolerance; phosphonate/phoshate uptake; target enzyme-based resistance; xenobiotic metabolismchemistry.chemical_classificationHerbicidesPhosphorusPhosphorusEPSP synthaseCell BiologyGeneral Medicinebiology.organism_classificationxenobiotic metabolismPhosphonateEnzymeBiochemistrychemistryGlyphosateMutationphosphonate/phoshate uptake3-Phosphoshikimate 1-CarboxyvinyltransferaseHerbicide ResistancePlant and Cell Physiology
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How to manage the impact of gene flow on oilseed rape grain quality? Simulation case studies of three contrasted landscapes

2012

Abstract Grain admixture due to gene flow of oilseed rape (OSR) could be economically damaging. Different strategies are currently used or proposed to manage grain quality, ranging from homogenisation at the silo level to tactical decision rules at the field level. The relevance of these general strategies was appraised in the case of genetically modified (GM) OSR in three contrasted regions in Europe: Beauce Blesoise (France), Schleswig-Flensburg (Germany), and Fife (UK). Field patterns, crop allocation and agricultural practices were derived from existing datasets and complementary field surveys. Then a gene flow simulator was used to assess how the local contexts influenced the grain adm…

[SDV.SA]Life Sciences [q-bio]/Agricultural sciencesoilseed rapebusiness.industryherbicide tolerancegrain qualitySoil Sciencegenetically modifiedPlant ScienceDecision ruleGene flowAgronomyAgricultureSiloGrain qualityEnvironmental sciencebusinessgene flowAgronomy and Crop Science
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Scientific opinion on an application by Dow AgroSciences LLC (EFSA-GMO-NL-2012-106) for the placing on the market of genetically modified herbicide-t…

2017

Abstract Soybean DAS‐44406‐6 expresses 5‐enolpyruvyl‐shikimate‐3‐phosphate synthase (2mEPSPS), conferring tolerance to glyphosate‐based herbicides, aryloxyalkanoate dioxygenase (AAD‐12), conferring tolerance to 2,4‐dichlorophenoxyacetic acid (2,4‐D) and other related phenoxy herbicides, and phosphinothricin acetyl transferase (PAT), conferring tolerance to glufosinate ammonium‐based herbicides. The molecular characterisation data and bioinformatics analyses did not identify issues requiring assessment for food/feed safety. The agronomic and phenotypic characteristics revealed no relevant differences between soybean DAS‐44406‐6 and its conventional counterpart, except for pod count, seed cou…

herbicide toleranceVeterinary (miscellaneous)Plant ScienceTP1-1185010501 environmental sciences01 natural sciencesMicrobiology0404 agricultural biotechnologyRegulation 1829/2003TX341-6410105 earth and related environmental sciencesNutrition. Foods and food supplyChemical technologyfungifood and beverages04 agricultural and veterinary sciencesDAS‐44406‐6040401 food sciencesoybean (Glycine max cv. Maverick)Scientific OpinionSettore AGR/11 - Entomologia Generale E ApplicataAnimal Science and ZoologyParasitologyAAD‐122mEPSPSPATFood Science2mEPSPS; AAD‐12; DAS‐44406‐6; PAT; Regulation 1829/2003; herbicide tolerance; soybean (Glycine max cv. Maverick)
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