KWS SAAT SE & Co. KGaA / PLANTA Applied Plant Genetics and Biotechnology GmbH
Riesgos asociados a los cultivos transgénicos resistentes a insectos (Bt) (Jan 2022)
A mediados de los años 90 del siglo XX se introdujeron en algunas partes del mundo los cultivos genéticamente modificados (transgénicos). Los cultivos transgénicos se caracterizan en que a su genoma le fueron insertadas secuencias recombinantes diseñadas en laboratorios de ingeniería genética con el objetivo de otorgarle a dichos cultivos rasgos agronómicos que previamente no tenían, tales como la tolerancia a herbicidas o la resistencia a insectos que potencialmente podían ser considerados plag
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SN-2128Ø1-2 - Blue-violet chrysanthemum
International Flower Developments Pty Ltd(IFD) | Changes in quality and/or metabolite content (Pigmentation / Coloration), Resistance to antibiotics (Kanamycin, Neomycin), Selectable marker genes and reporter genes
SN-2Ø18Ø6-5 - Blue-violet chrysanthemum
International Flower Developments Pty Ltd(IFD) | Changes in quality and/or metabolite content (Pigmentation / Coloration), Resistance to antibiotics (Kanamycin, Neomycin), Selectable marker genes and reporter genes
SN-2Ø8133-5 - Violet chrysanthemum
International Flower Developments Pty Ltd(IFD) | Changes in quality and/or metabolite content (Pigmentation / Coloration), Resistance to antibiotics (Kanamycin, Neomycin), Selectable marker genes and reporter genes
SN-2Ø22Ø1-4 - Violet chrysanthemum
International Flower Developments Pty Ltd(IFD) | Changes in quality and/or metabolite content (Pigmentation / Coloration), Resistance to antibiotics (Kanamycin, Neomycin), Selectable marker genes and reporter genes
SN-2Ø37Ø1-1 - Blue chrysanthemum
International Flower Developments Pty Ltd(IFD) | Changes in quality and/or metabolite content (Pigmentation / Coloration), Resistance to antibiotics (Kanamycin, Neomycin), Selectable marker genes and reporter genes
Dr. Desiree Menancio Hautea
UP Los Baños/UP Los Baños Foundation Inc.; Department of Agriculture |
Biotechnology research and development, Environmental risk assessment, Capacity development, Policy and legal, Public awareness, education and participation, including access to information, Risk management, Plant breeding, Plant Genetic Resources
CBD National Focal Point | Cartagena Protocol National Focal Point | BCH National Focal Point | ABS National Focal Point | Clearing-House Mechanism National Focal Point | SBSTTA National Focal Point | Programme of Work on Protected Areas National Focal Point | Resource Mobilization Focal Point
Food and Agriculture Organization/Global Environment Facility (FAO)/(GEF) Implementation of the National Biosafety Mechanism in the Kyrgyz Republic in accordance with the Cartagena Protocol on Biosafety
The project goal is therefore to support the establishment at the national level of a comprehensive and effective regulatory framework on biosafety in accordance with the Cartagena Protocol on Biosafety and to create technical capacity for the implementation and enforcement of the Protocol at the national level.
Project objectives are to provide technical guidance and assistance for the implementation of the regulatory framework on biosafety at the national level, including the establishment of
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Food and Agriculture Organization
Extension of the terms of office of members of the Compliance Committees under the Cartagena and Nagoya Protocols
Ethics Guidelines for the use of Genetically Modified Mosquitoes (Apr 2022)
Despite the enormous potential anticipated, applying new technologies such as gene drives will also create new ethical challenges that may need to be addressed. For example, since mosquitoes are mobile organisms, it will be difficult to conduct confined field trials in any country without raising transboundary concerns. Moreover, gene drive technologies could give rise to issues with anthropocentric or non-anthropocentric dimensions and therefore question current norms and values.
This document
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Guidelines for Risk Analysis for the Testing and Deployment of Genetically Modified Mosquitoes (Apr 2022)
The layout of the Guideline entails Risk Analysis for GMM covering background information current research methods for controlling malaria covering two malaria GMM control strategies- population suppression population replacement. It describes the phased approach, which is a highly recommended framework for the development and deployment of GMM and covers key components of Risk Analysis. It provides a two-fold approach to Risk analysis to produce safety data needed for deployment of the technolo
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Guidance for the Use of Genetically Modified Mosquitoes (Apr 2022)
The guidance covers policy and regulatory considerations, evaluation of efficacy, biosafety consideration, bioremediation, field site characteristics, ethics considerations, public engagement, regional approaches and capacity strengthening, in order to enhance existing regulatory frameworks and international agreements that are relevant for eventual implementation by Regional Economic Communities (RECs).
Guidelines for Containment Facilities for Testing of Genetically Modified Mosquitoes (Apr 2022)
The advent of gene drives has brought new hope and opportunities for accelerating efforts towards malaria eradication. Gene drives can stimulate biased inheritance of specific genes to suppress or alter populations of select organisms, including mosquitoes. Laboratory studies have demonstrated that the technique could be applied to prevent mosquitoes from transmitting the malaria parasite or to significantly suppress the mosquito populations. In addition, mathematical simulations have shown that
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Guidelines for Importation, Exportation, Handling, Labelling and Storage of Genetically Modified Mosquitoes (Apr 2022)
The emergence of gene drive technologies holds prospects for future deployment to significantly improve control and accelerate efforts towards the elimination of malaria. Current approaches can be used to either suppress malaria vector populations or to alter them such that they no longer transmit malaria. Due to the biased inheritance of traits, gene drive modified mosquitoes spread faster than the limits imposed by Mendelian inheritance. There are, however, still many unknowns regarding the sa
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Guidelines for Institutional Biosafety Committees (IBCs) (Apr 2022)
Like for many other genetically modified organisms, the testing and use of genetically modified mosquitoes are subject to regulations that are premised on national legislative frameworks. Functional regulatory systems, therefore, need to be in place in countries that contemplate harnessing the potential benefits of genetic engineering for the benefit of their public health, increased agricultural productivity and environmental sustainability.
In a number of countries, Institutional Biosafety Co
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Guidelines for Compliance Monitoring and Inspection of Activities involving Genetically Modified Mosquitoes (Apr 2022)
Gene drive is a system of biased inheritance in sexually reproducing organisms that enable the rapid and extensive spread of gene drive bearing traits in the population of the organisms in question. Gene drive systems have been known for decades, but recent advancements of Clustered regularly interspaced short palindromic repeats and CRISPR-associated protein 9 (CRISPR-Cas9) genome editing techniques have accelerated its applications in health, agriculture and conservation. These systems offer u
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African Union Development Agency (AUDA-NEPAD)
At the 31st Ordinary Session of the Assembly of African Union Heads of State and Government in Nouakchott, Mauritania, June 2018, a decision was taken to transform the NEPAD Planning and Coordination Agency into the African Union Development Agency-NEPAD (AUDA-NEPAD). The establishment of AUDA-NEPAD is part of the global reforms geared at improving the Union’s impact and operational efficiency. The mandate of AUDA-NEPAD is to: a) Coordinate and Execute priority regional and continental projects
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Authorisation of the placing on the market of products containing, consisting of, or produced from genetically modified maize MON 87427 × MON 87460 × MON 89034 × MIR162 × NK603 and sub-combinations. England: 2022/486,sch.7 Scotland: 2022/137,sch.7 Wales: 2022/472(W.116),sch.7
MON-87427-7 × MON-8746Ø-4 × MON-89Ø34-3 × SYN-IR162-4 × MON-ØØ6Ø3-6 - Maize modified for herbicide tolerance, insect resistance and drought tolerance | Maize, Corn, MAIZE | MON-87427-7 × MON-8746Ø-4 × MON-89Ø34-3 × SYN-IR162-4 - Insect-resistant, herbicide- and drought- tolerant maize | Maize, Corn, MAIZE | MON-87427-7 × MON-8746Ø-4 × MON-89Ø34-3 × MON-ØØ6Ø3-6 - Herbicide tolerant, insect resistant, drought tolerant maize | Maize, Corn, MAIZE | MON-87427-7 × MON-8746Ø-4 × SYN-IR162-4 × MON-ØØ6Ø3
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Authorisation of the placing on the market of products containing, consisting of, or produced from genetically modified maize MON 87427 × MON 89034 × MIR162 × NK603 and its sub-combinations England: 2022/486,sch.3 Scotland: 2022/137,sch.3 Wales: 2022/472(W.116),sch.3
MON-87427-7 × MON-89Ø34-3 × SYN-IR162-4 × MON-ØØ6Ø3-6 - Insect resistant Herbicide tolerant Corn | Maize, Corn, MAIZE | MON-87427-7 × MON-89Ø34-3 × SYN-IR162-4 - Herbicide tolerant, insect resistant maize | Maize, Corn, MAIZE | MON-87427-7 × MON-89Ø34-3 × MON-ØØ6Ø3-6 - Insect resistant Herbicide tolerant Corn | Maize, Corn, MAIZE | MON-87427-7 × SYN-IR162-4 × MON-ØØ6Ø3-6 - Glyphosate tolerant, Lepidoptera resistant maize | Maize, Corn, MAIZE | MON-89Ø34-3 × SYN-IR162-4 × MON-ØØ6Ø3-6 - Herbicide
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Authorisation of the placing on the market of products containing, consisting of, or produced from genetically modified maize 1507 × MIR162 × MON 810 × NK603 and its sub-combinations England: 2023/235,sch.5 Scotland: 2023/59,sch.5 Wales: 2023/379,sch.5
DAS-Ø15Ø7-1 × MON-ØØ81Ø-6 × SYN-IR162-4 × MON-ØØ6Ø3-6 - Herbicide tolerant, insect resistant corn | Maize, Corn, MAIZE | DAS-Ø15Ø7-1 × MON-ØØ81Ø-6 × SYN-IR162-4 - Herbicide tolerant, insect resistant corn | Maize, Corn, MAIZE | DAS-Ø15Ø7-1 × SYN-IR162-4 × MON-ØØ6Ø3-6 - Herbicide tolerant, insect resistant corn | Maize, Corn, MAIZE | MON-ØØ81Ø-6 ×SYN-IR162-4 × MON-ØØ6Ø3-6 - Herbicide tolerant, insect resistant maize | Maize, Corn, MAIZE | MON-ØØ81Ø-6 × SYN-IR162-4 - Herbicide tolerant, insect res
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Authorisation of the placing on the market of products containing, consisting of, or produced from genetically modified maize MON 87427 × MON 89034 × MIR162 × MON 87411 and sub-combinations. England: 2022/486,sch.4 Scotland: 2022/137,sch.4 Wales: 2022/472(W.116),sch.4
MON-87427-7 × MON-89Ø34-3 × MON-87411-9 - Herbicide-tolerant, insect-protected maize | Maize, Corn, MAIZE | MON-87427-7 × SYN-IR162-4 × MON-87411-9 - Herbicide-tolerant, insect-protected maize | Maize, Corn, MAIZE | MON-87427-7 × MON-89Ø34-3 × SYN-IR162-4 × MON-87411-9 - Insect resistant herbicide tolerant maize | Maize, Corn, MAIZE | MON-89Ø34-3 × SYN-IR162-4 × MON-87411-9 - Herbicide-tolerant, insect-protected maize | Maize, Corn, MAIZE | MON-87427-7 × MON87411-9 - Herbicide tolerant, insect r
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Authorisation of the placing on the market of products containing, consisting of, or produced from genetically modified cotton GHB614 × T304-40 × GHB119 • England: 2023/235,sch.6 • Scotland: 2023/59,sch.6 • Wales: 2023/379,sch.6
BCS-GHØØ2-5 × BCS-GHØØ4-7 × BCS-GHØØ5-8 - GlyTol™ x TwinLink™ Cotton | Cotton
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