Location History:
- Tsukuba, JP (2006 - 2007)
- Ibaraki, JP (2006 - 2009)
Company Filing History:
4 out of 110 
1 out of 1,311 
1 out of 11 Years Active: 2006-2009
Title: The Innovations of Setsuko Komatsu: Pioneering Plant Stress Resistance
Introduction
Setsuko Komatsu is a renowned inventor based in Tsukuba, Japan, recognized for her significant contributions to the field of agricultural biotechnology. With a portfolio of four patents, she has focused on developing innovative solutions to enhance plant resilience to various stresses, particularly cold conditions.
Latest Patents
Two of her latest patents showcase her groundbreaking work in plant genetics. The first is titled "Stress-responsive root-specific genes," where she and her team successfully cloned the rice stress-responsive gene, RSI1. This isolated gene is instrumental in generating stress-responsive plants, offering great potential for advancements in plant breeding. The second patent, "Cold stress-responsive CRTintP gene and use thereof," pertains to isolated genes encoding polypeptides that interact with calreticulin (CRT). This invention facilitates the transformation of plants and plant cells for enhanced resistance against cold stress, with the promise of improving agricultural resilience.
Career Highlights
Setsuko's career spans prominent research institutions including the National Institute of Agrobiological Sciences and the Japan Science and Technology Agency. Through her work, she has paved the way for vital advancements in agricultural science, contributing to the development of sustainable farming practices.
Collaborations
Throughout her career, Setsuko has collaborated with esteemed colleagues such as Guangxiao Yang and Manabu Yoshikawa. These collaborations have enhanced her research capabilities and led to successful innovations that address critical challenges in the agricultural sector.
Conclusion
Setsuko Komatsu's work epitomizes the crucial intersection of science and innovation in addressing food security challenges. Her patented inventions not only serve as significant advancements in plant genetics but also contribute to the broader field of agricultural resilience. As challenges in agriculture continue to evolve, the impact of her research is likely to resonate even more in the years to come.