Apr. 2, 2024
For the average grower, the application of genomics-driven seed development may seem complex, but the benefits are straightforward. By selecting markers associated with traits crucial for crop success, such as resilience to pests or adaptability to different growing conditions, Elsoms ensures that its varieties provide farmers with the tools they need for a successful harvest.
Research and development
In the ever-evolving world of agriculture, staying ahead in seed development is crucial for ensuring robust crops and thriving farms. Elsoms takes pride in its commitment to innovation. One area where Elsoms excel is in harnessing the power of genomics.
Elsoms' dedicated lab team covers a wide range of areas including genomics, micropropagation, and pathology.
Eleri, Elsoms' Genomics Specialist, employs cutting-edge techniques, like marker-assisted selection, to enhance the quality and performance of Elsoms' varieties. In this article, we delve into the fascinating world of genomics and how it is shaping the future of agriculture.
Understanding genomics-driven seed development
Genomics is the study of an organism’s entire DNA sequence. It provides a comprehensive view of the genetic makeup and allows us to identify specific genes associated with desirable traits. This knowledge is instrumental in Elsoms' quest to develop superior varieties.
Marker selection and agronomic traits
Marker-assisted selection makes it easier and faster for the breeders to select plants with improved traits. This is a key aspect of Elsoms' genomics-driven breeding programme. The differences between plants that make them resistant to disease, higher yielding, and adaptable to diverse environments are encoded in the plant’s genetic material – their DNA. Traditionally, breeders have selected plants based on measurable traits in the field, which can be time-consuming. A short-cut is to use specific DNA sequences, or markers, that are associated with these desirable traits. Once we have analysed the plants for these markers, we can identify those with the right combination of markers and use them to create stronger varieties. Developing new markers is an ongoing effort at Elsoms. The breeding team is dedicated to uncovering the genetic secrets that contribute to the success of Elsoms' varieties.
Shown here is example data generated by Sanger sequencing technology. The genetic sequence highlighted on the top and the output chromatogram below.
By precisely identifying markers associated with desirable traits, we can skip lengthy traditional breeding processes and focus on plants with the highest likelihood of possessing the desired characteristics. Consequently, this targeted approach allows us to streamline the selection process, bringing about a more efficient and rapid development cycle. Moreover, this accelerated breeding timeline not only enhances the speed of variety development but also underscores Elsoms' commitment to staying ahead in the dynamic world of seed innovation. Marker-assisted selection has revolutionized the breeding landscape at Elsoms, significantly reducing the average breeding time for Elsoms' varieties.
Conclusion
Elsoms are passionate about its genomics-driven seed development, leveraging the latest technologies to develop varieties that meet the challenges of modern agriculture. Elsoms' commitment to using biotechnology, like marker assisted selection, in its breeding programmes reflects our dedication to providing farmers with the best possible seeds for their fields. As Elsoms continues to push the boundaries of innovation, Elsoms remains a trusted partner for farmers seeking superior, genetically advanced vegetable and arable varieties.
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