Glyphosate is an inhibitor of 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS), a well-known enzyme of the shikimate pathway for aromatic amino acid biosynthesis present in plants, fungi and bacteria. Plants, including weeds, exposed to glyphosate are unable to produce aromatic amino acids causing necrosis.
To produce Roundup Ready canola, two genes were introduced into the canola genome:
- CP4 epsps gene, derived from the common soil bacterium Agrobacterium strain CP4, which encodes for the production of the CP4 EPSPS enzyme
- GOX gene from Ochrobactrum anthropi strain LBAA, which encodes for the production of the enzyme glyphosate oxidase (GOX).
Both gene products are expressed within the plant and, together, are responsible for tolerance to glyphosate (refer to figure below). Because CP4 EPSPS has a naturally high tolerance to inhibition by glyphosate, Roundup Ready canola plants continue to produce aromatic amino acids even after treatment with glyphosate. In addition, the GOX protein catalyzes the breakdown of glyphosate into glyoxylic acid and aminomethylphosphonic acid (AMPA).
Triazine Tolerant Roundup Ready canola (TT-RR)
Triazine Tolerant Roundup Ready canola (TT-RR) combines triazine tolerance and Roundup Ready technology. Bayer Crop Science and Pacific Seeds Australia have successfully combined these two herbicide tolerances through hybrid breeding techniques to produce and develop commercially available varieties.
The Roundup Ready system offers excellent weed control, with the ability to spray Roundup Ready Herbicide with PLANTSHIELD by Monsanto out to the six leaf crop stage. Additionally, triazine tolerance enables simazine and atrazine herbicides to be used pre-emergence and atrazine early post emergence, offering an effective alternative for increased residual weed control.
For detailed directions of use for Roundup Ready Herbicide with PLANTSHIELD by Monsanto, atrazine and simazine, please refer to company product label registrations.