AgTech

MSU's Kal91.3: Bioengineered Potato Evades USDA Scrutiny

Synopsis: Michigan State University researchers have developed a new genetically engineered potato variety called Kal91.3, which can be stored at colder temperatures without accumulating excess sugars. The potato, bred from MSU's existing Kalkaska variety, has been granted an exemption from the US Department of Agriculture's Animal and Plant Health Inspection Service regulations.
Thursday, June 13, 2024
Potato Variety Kal91.3
Source : ContentFactory

In a groundbreaking development, researchers at Michigan State University have successfully created a new genetically engineered potato variety that has been granted an exemption from US government biotech regulations. The potato, named Kal91.3, is derived from an existing MSU variety called Kalkaska and boasts the ability to be stored at colder temperatures without accumulating excess sugars.

The USDA's Animal and Plant Health Inspection Service determined that the Kal91.3 potato does not pose an increased plant pest risk compared to conventionally bred potatoes, thus granting it an exemption from the agency's regulations. This decision marks a significant milestone in the field of agricultural biotechnology, as it demonstrates the potential for genetically engineered crops to be developed and commercialized without the need for extensive regulatory oversight.

Dave Douches, director of the MSU Potato Breeding and Genetics Program, expressed his satisfaction with the outcome, stating, "Using this biotech strategy, we succeeded in making a potato that was giving us problems into one that's now commercially valuable." The ability to store potatoes at colder temperatures without the accumulation of excess sugars is a highly desirable trait, particularly for food manufacturers.

The Kal91.3 potato's unique characteristics could prove especially beneficial for chip producers, as the potato's ability to maintain its sugar balance during cold storage can help reduce the occurrence of browning and caramelization. These issues are often associated with potatoes that have high levels of fructose and glucose, which can negatively impact the quality and appearance of the final product.

The development of the Kal91.3 potato is the result of years of research and dedication by the MSU Potato Breeding and Genetics Program. By employing advanced genetic engineering techniques, the researchers were able to modify the potato's genetic makeup to achieve the desired traits without compromising its overall quality or safety.

The USDA APHIS's decision to exempt the Kal91.3 potato from its regulations is a testament to the rigorous safety assessments and scientific evidence provided by the MSU researchers. This exemption not only paves the way for the commercialization of the Kal91.3 potato but also sets a precedent for the development of other genetically engineered crops that can benefit both farmers and consumers alike.

As the world continues to face challenges related to food security, climate change, and sustainable agriculture, the development of innovative biotech solutions, such as the Kal91.3 potato, becomes increasingly important. The MSU researchers' achievement demonstrates the potential for genetic engineering to address these challenges and create new opportunities for the food and agriculture industries.