14-3-3C intron | Setaria italica (Foxtail millet, Italian millet)
RCc3 leader | Tripsacum dactyloides (Eastern gamagrass, TRIDA, Gama grass)
RCc3 promoter | Tripsacum dactyloides (Eastern gamagrass, TRIDA, Gama grass)
Tripsacum dactyloides (Eastern gamagrass, TRIDA, Gama grass)
SYN-E3272-5 × SYN-BTØ11-1 × SYN-IR162-4 × SYN-IR6Ø4-5 × DAS-Ø15Ø7-1 × SYN-Ø53Ø7-1 × MON-ØØØ21-9 - Herbicide-tolerant, insect-resistant, amylase-producing maize
Syngenta, Dow AgroSciences | Changes in physiology and/or production, Resistance to diseases and pests (Insects, Coleoptera (beetles), Colorado potato beetle (Leptinotarsa decemlineata), Western corn rootworm (Diabrotica virgifera), Northern corn rootworm (Diabrotica barberi), Lepidoptera (butterflies and moths), Cotton bollworm (Helicoverpa spp.), European corn borer (Ostrinia nubilalis), Fall armyworm (Spodoptera frugiperda)), Resistance to herbicides (Glufosinate, Glyphosate), Selectable mark
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Sr. David Eduardo Castro Garro
Sra. Jessica María Amanzo Alcántara
Cartagena Protocol National Focal Point | ABS National Focal Point
Approval of the event MON88702xMON15985xCOT102xMON88701xMON88913
MON-887Ø2-4 × MON-15985-7 × SYN-IR1Ø2-7 × MON-887Ø1-3 × MON-88913-8 - Herbicide-tolerant, insect-resistant cotton | Cotton
MON88702×MON15985×COT102×MON88701×MON88913
MON-887Ø2-4 × MON-15985-7 × SYN-IR1Ø2-7 × MON-887Ø1-3 × MON-88913-8 - Herbicide-tolerant, insect-resistant cotton | Cotton, Resistance to diseases and pests, Resistance to herbicides, Resistance to antibiotics, Changes in quality and/or metabolite content
GHB811xLLcotton25xMON88701
BCS-GH811-4 × ACS-GHØØ1-3 × MON-887Ø1-3 - Herbicide-tolerant cotton | Cotton
approval of the event GHB811xLLcotton25xMON88701
BCS-GH811-4 × ACS-GHØØ1-3 × MON-887Ø1-3 - Herbicide-tolerant cotton | Cotton, Resistance to herbicides
Dahlia mosaic virus enhancer | Dahlia mosaic virus (DMV, 9VIRU, DaMV)
Dahlia mosaic virus (DMV, 9VIRU, DaMV)
Norfolk Plant Sciences(NPS) | Changes in quality and/or metabolite content (Antioxidants, Pigmentation / Coloration), Resistance to antibiotics (Neomycin), Selectable marker genes and reporter genes
Rosea1 | Antirrhinum majus (Common Snapdragon, Snapdragon)
Protein coding sequence | Changes in quality and/or metabolite content (Antioxidants, Pigmentation / Coloration)
Delila | Antirrhinum majus (Common Snapdragon, Snapdragon)
Protein coding sequence | Changes in quality and/or metabolite content (Antioxidants, Pigmentation / Coloration)
DIR 190: Commercial release of Indian mustard genetically modified for herbicide tolerance (RF3)
Herbicide-tolerant Indian mustard (RF3 juncea canola) | Indian mustard, Brown mustard, Chinese mustard, Leaf mustard, Vegetable mustard, Mustard greens, BRAJU
DIR 190 Risk Assessment and Risk Management Plan
Herbicide-tolerant Indian mustard (RF3 juncea canola) | Indian mustard, Brown mustard, Chinese mustard, Leaf mustard, Vegetable mustard, Mustard greens, BRAJU, Resistance to herbicides, Changes in physiology and/or production
Herbicide-tolerant Indian mustard (RF3 juncea canola)
BASF Australia Ltd | Changes in physiology and/or production (Fertility restoration), Resistance to herbicides (Glufosinate)
ACS-BNØØ3-6 - InVigor™ canola
Bayer CropScience | Changes in physiology and/or production (Fertility restoration), Resistance to herbicides (Glufosinate)
Effect of the Matrix and Target on the Accurate Quantification of Genomic and Plasmid DNA by Digital Polymerase Chain Reaction (Jan 2023)
Abstract from article: In polymerase chain reaction (PCR)-based nucleic acid quantification, the DNA template type, primer/probe sequence, and instrument platform such as real-time quantitative PCR (qPCR) and digital PCR (dPCR) affect the accuracy and reliability of quantitative results. In this study, a plasmid DNA (pDNA) pBI121-screening, genetically modified (GM) rice SDrice genomic DNA (gDNA), and GM rapeseed SDrape gDNA, all carrying the same 11 screening elements, were used to prepare samp
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In silico proposal of screening strategies for detecting EU authorised GMOs (Dec 2021)
Given the high number of GMOs currently authorised or whose authorisation is pending or has expired, it is necessary to implement an optimised strategy for screening food and feed samples in the EU market. The JRC GMO-Matrix web application, available on the website of the European Union Reference Laboratory for Genetically Modified Food and Feed (EURL GMFF), may help designing such strategies. This web application provides in silico e-PCR predictions of the GM events possibly detected by the EU
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Proficiency of European GMO control laboratories to quantify MON89788 soybean in a meat pâté matrix (Oct 2022)
GMO control laboratories in the EU routinely monitor the presence and content of genetically modified organisms (GMOs) in food and feed products collected from the EU market. As the vast majority of GMOs comprize genetically modified plants, most control samples have a plant-based origin. For the first time, a pilot proficiency test was organised requiring the analysis of GMOs in a meat matrix. Meat pâté, a product in which soybean is occasionally identified, was spiked with GM soybean event MON
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International treaty on protecting biodiversity through the Biosafety Protocol will mark its twentieth anniversary this year
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