Marion Roder

Title: Discovering the Contributions of Inventor Marion Roder in Plant Genetics

Introduction

Marion Roder, based in Munich, Germany, is a distinguished inventor who has made significant contributions to the field of plant genetics. Her work primarily focuses on the development of innovative solutions for the agriculture sector, particularly concerning wheat species.

Latest Patents

One of Marion Roder's notable achievements is her patent on "Microsatellite markers for plants of the species Triticum aestivum and Tribe Triticeae and the use of said markers." This patent includes a set of microsatellite markers specifically designed for plants of the Tribe Triticeae, with a special emphasis on Triticum aestivum, commonly known as wheat. Each marker comprises a sequence tagged site (STS), defined by two primers that target a specific microsatellite sequence. The primers are designed to have an average length of 20±3 bases, flanking the microsatellite sequences, which are amplified through a polymerase chain reaction to produce markers of varying lengths. This innovation plays a crucial role in plant genetics research and development.

Career Highlights

Marion Roder is affiliated with the Institute for Plant Genetics and Crop Plant Research (Institut für Pflanzengenetik und Kulturpflanzenforschung), where she continues her research and development in plant genetics. Her dedication to advancing scientific knowledge has resulted in her securing a patent, showcasing her innovative spirit.

Collaborations

Throughout her career, Marion has collaborated with esteemed colleagues such as Jens Plaschke and Martin Ganal. These partnerships have facilitated significant advancements in their shared field of expertise, contributing to broader research efforts in plant genetics and biotechnology.

Conclusion

Marion Roder stands out as a pioneering figure in plant genetics, particularly with her inventive work on microsatellite markers for Triticum aestivum. Her research not only enhances the understanding of wheat genetics but also paves the way for future innovations in agriculture. As she continues her journey in the scientific community, her contributions will undoubtedly influence the field for years to come.