Search the database for deliberate release of GM plants
| EU record number | Company/Institution | Host organism | Project title | Trait |
|---|---|---|---|---|
| B/BE/25/V1 | VIB | Maize | Scientific field evaluation of maize with improved yield |
Improved yield |
| B/BE/24/V3 | VIB | Maize | Scientific field evaluation of maize with improved digestibility |
The genetically modified maize plants have an altered composition of their cell wall resulting from the presence of mutations in three genes involved in the biosynthesis of lignin. |
| B/BE/24/V2 | VIB | Poplar | Field evaluation of poplars with a modified wood composition |
The genetically modified trees have an altered wood composition |
| B/BE/24/V1 | VIB | Poplar | Field evaluation of poplars with a decreased lignin content |
Wood with decreased lignin content |
| B/BE/22/V3 | VIB | Maize | Scientific field evaluation of maize with modified growth characteristics |
The genetically modified maize plants have a mutation in the gene coding for a histon linker protein which leads to the inactivation of the gene. As a result, the plants have a significantly better growth during periods of drought. |
| B/BE/22/V2 | VIB | Maize | Scientific field evaluation of maize with improved digestibility |
The genetically modified maize plants have an altered composition of their cell wall resulting from the introduction of a mutation in the CCR1 and/or CCR3 genes. These mutations lead to the inactivation of these genes. The plants have up to 20% less lignin in their cell walls which is expected to contribute to a better digestibility of the maize thereby improving the feed conversion rate. |
| B/BE/22/V1 | VIB | Maize | Scientific field evaluation of maize with increased resistance against DNA damage causing environmental stress |
The genetically modified maize plants have a significantly better growth under environmental stress conditions that lead to DNA damage. |
| B/BE/21/V1 | VIB | Poplar | Field evaluation of poplars with a modified wood composition |
Altered wood composition (less lignin and more cellulose) resulting from the downregulation of the Caffeoyl Shikimate Esterase (CSE) enzyme through RNAi. |
| B/BE/20/V1 | VIB | Maize | Scientific field evaluation of maize with modified growth characteristics |
Modified growth characteristics resulting from the additional expression of the AN3 gene under the control of the EF1a promoter. This gene is a transcriptional co-activator that is involved in the regulation of cell proliferation. As a result of the modification the duration of growth is elongated which results in the formation of larger plant organs such as larger leaves. It is also results in the formation of more biomass. |
| B/BE/19/V1 | VIB | Maize | Wetenschappelijk veldonderzoek naar maïs als biosensor voor het meten van DNA-schade als gevolg van milieustress |
The maize plants have been edited using the CRISPR/Cas9 system resulting in the mutation of either the ATR or ATM gene. There are three events: one event with one additional DNA basepair in the ATR gene, one event with one additional DNA basepair in the ATM gene and one event with a 1272 bp deletion in the ATR gene. The result of these alterations is that these genes are no longer functional. The ATR and ATM genes gene plays a role in the repair of DNA damage and in these plants faults in the DNA are believed to accumulate to a higher degree. |
| B/BE/18/V8 | VIB | Maize | Scientific field evaluation of maize with an impaired DNA-repair mechanism and maize with modified growth characteristics |
Maize plants edited using the CRISPR/Cas9 system resulting in a single base pair mutation in either the ALT gene (that plays a role in the repair of DNA damage) or the NGAL2 gene (a transcription factor that has been shown to negatively affect the expression of the PLA1 gene coding for a cytochrome P450 mono-oxygenase enzyme). |
| B/BE/17/V3 | VIB | Maize | Scientific field evaluation of maize with modified growth characteristics |
Modified growth characteristics resulting from the additional expression of two genes: (1) the GA20oxidase under the control of a pUBIL promoter and (2) the PLA1 gene (also known as the ‘KLUH’ gene, or CYP78A1 gene) under the control of the GA2oxidase promoter |
| B/BE/14/V2 | VIB | Maize | Scientific field evaluation of maize with modified growth characteristics |
Modified growth characteristics resulting from the additional expression of the CYP78A1 gene (encoding cytochrome P450 mono-oxygenase) under the control of the GA2oxidase promoter |
| B/BE/13/V1 | VIB | Grey poplar | Field evaluation of poplars with a modified wood composition |
modified lignin |
| B/BE/11/V4 | VIB | Maize | Scientific field research using maize that has altered growth characteristics |
Altered growth characteristics resulting from the introduction of a Ga20Oxidase-1 gene |
| B/BE/07/V2 | VIB | Poplar | Field evaluation of poplars with an altered wood composition for the production of bio-ethanol |
modified lignin |
| B/BE/02/VW4 | Aventis CropScience | Oilseed rape | Field evaluation with genetically modified pod shatter resistant oilseed rape |
pod shatter resistance, herbicide tolerance (glufosinate) |
| B/BE/02/V5 | Aventis CropScience | Maize | Evaluation of new insect tolerant corn lines |
insect resistance (European corn borer), herbicide tolerance (glufosinate/glyphosate) |
| B/BE/01/V3 | Aventis CropScience | Indian Mustard | Field evaluation of Brassica juncea hybrids and parental lines |
herbicide tolerance (glufosinate), male sterility, fertility restorer |
| B/BE/01/V5 | Aventis CropScience | Oilseed rape | Field evaluation with genetically modified pod shatter resistant oilseed rape |
pod shatter resistance, herbicide tolerance (glufosinate) |
| B/BE/01/V4 | Aventis CropScience | Maize | Evaluation of new insect tolerant corn lines |
insect resistance (European corn borer), herbicide tolerance (glufosinate) |
| B/BE/00/VWSP9 | Aventis CropScience | Spring oilseed rape | Selection and breeding program of Brassica napus hybrid parental lines and hybrids - 5 year program |
male sterility, fertility restorer, herbicide tolerance (glufosinate) |
| B/BE/00/VWSP9 (winter) | Aventis CropScience | Winter oilseed rape | Selection and breeding program of Brassica napus hybrid parental lines and hybrids - 5 year program |
male sterility, fertility restorer, herbicide tolerance (glufosinate) |
| B/BE/00/VWSP10 | Aventis CropScience | Oilseed rape | Selection and breeding program of Brassica napus hybrid parental lines and hybrids - 5 year program |
male sterility, fertility restorer, herbicide tolerance (glufosinate) |
| B/BE/00/V3 | Aventis CropScience (PGS) | Oilseed rape | Field evaluation of glucosinolate reduction in oilseed rape |
lowered glucosinolate, herbicide tolerance (glufosinate) |
| B/BE/00/V6 | Aventis CropScience | Indian Mustard | Experimental seed production of Brassica juncea (Indian Mustard) hybrid parental lines |
male sterility, fertility restorer, herbicide tolerance (glufosinate) |
| B/BE/00/V5 | Aventis CropScience | Oilseed rape | Field evaluation with genetically modified pod shatter resistant oilseed rape |
pod shatter resistance, herbicide tolerance (glufosinate) |
| B/BE/00/V8 | Aventis CropScience (PGS) | Maize | Evaluation of new insect tolerant corn lines |
insect resistance (European corn borer), herbicide tolerance (glufosinate) |
| B/BE/00/V4 | Aventis CropScience | Oilseed rape | Field evaluation of genetically modified, fungal disease resistant oilseed rape |
fungal disease resistance, herbicide tolerance (glufosinate) |
| B/BE/00/V7 | Aventis CropScience | Indian Mustard | Field evaluation of Brassica juncea hybrids and parental lines |
male sterility, fertility restorer, herbicide tolerance (glufosinate) |
| B/BE/96/VSP13a | Aventis CropScience (AgrEvo) | Sugar beet | Beta vulgaris; study on the aspects of a future commercial introduction of glufosinate tolerant sugar beet in Belgian croptechnical and regulatory conditions |
herbicide tolerance (glufosinate) |