Transformation Facility

The CGEF operates a maize and soybean transformation platform that can be accessed by other groups at VIB, other academic groups and companies. Next to transformation, we can help with related activities such as T-DNA copy number determination,  construct design, cloning and genotyping. Together with the VIB Agro-Incubator we also can progress a project several generations and upscale seed.

Information

Maize

• Genotype: B104
• Transformation method: Agrobacterium tumefaciens EHA105
• Events: 5-10 independent events. On average 13 T0 plants are obtained in each experiment of which 8 are independent.
• Capacity: on average we transform 50 constructs each year

Soybean

• Genotype: Williams 82 (maturity group III) and ILVO-3 (maturity group 000)
• Transformation method: ‘Cot node’ transformation (Paz et al. 2006)
• Over-expression and gene editing
• Hairy root transformation (composite plants).

Pricing

For academic groups

Material: T1 seeds. On average 50 seeds of each event is sent. T0s are self-crossed and/or back-crossed depending on the experiment.

Time line: 8 months from receiving construct to sending seeds

Cost: 7500 € (February 2025)

Within the EU we can also ship T0 plantlets in plastic containers for a reduced cost.

For industry contact us for more information

Soybean transformation: contact us

Additional services include:

• CRISPR/Cas experimental design
• Genotyping of gene edits
• T-DNA copy number determination using digital PCR
• Upscaling at Agro-Incubator
• Interactomics in collaboration with the De Jaeger Group.
• Automated phenotyping in collaboration with Plant Growth Dynamics lab or Agro-Incubator
• More advanced genome editing techniques in collaboration with the Tom Jacobs lab.

REQUIREMENTS

• For movement within the European Union, whether for use in containment or for an experimental release, no specific import or export permits are necessary. The receiving party needs to have the necessary permits in place in order to be able to lawfully receive the GMO material. In addition, the material will be subject to an MTA.

Contact: Lennart Hoengenaert

Key publication:

Vandeputte, W., Coussens, G., Aesaert, S., Haeghebaert, J., Impens, L., Karimi, M., … Pauwels, L. (2024). Use of GRF-GIF chimeras and a ternary vector system to improve maize (Zea mays L.) transformation frequency. The Plant Journal, 119(4), 2116–2132.

Aesaert S.°, Impens L.°, Coussens G.°, Van Lerberge E., Vanderhaeghen R., Desmet L., Vanhevel Y., Bossuyt S., Wambua A.N., Van Lijsebettens M., Inzé D., De Keyser E., Jacobs T.B., Karimi M. and Pauwels L.* (2022). Optimized transformation and gene editing of the B104 public maize inbred by improved tissue culture and use of morphogenic regulators.Front. Plant Sci.13, 883847.

Published examples from other universities:

UC Louvain

TUM

U Bonn

HHU

Learn more:

CRISPR/Cas9 in crops: where to start?  (PlantGENE, March 6, 2024)

Transformation and Gene Editing in B104.  (PlantGENE, May 25, 2021)