Janine E Trempy

Title: **Janine E. Trempy: Innovator in Biopolymers and Bioactive Detection**

Introduction

Janine E. Trempy, a distinguished inventor located in Corvallis, Oregon, has made significant contributions to the fields of biopolymers and bioactive detection. With two patents to her name, Janine's work not only showcases her innovative spirit but also her dedication to scientific advancement.

Latest Patents

Janine's first notable patent involves a biopolymer thickener derived from a novel strain of subspecies, known as 'Ropy 352.' This innovative strain produces an exopolysaccharide (EPS 352) that enhances the sensory characteristics of milk, making it thick and smooth with a mildly sweet flavor and a distinctive 'chewable-bite.' Her second patent focuses on methods for detecting bioactive compounds. This method involves exposing compounds to various classes of chromatophores to measure changes that can identify and quantify neurotransmitters, toxins, hormones, and chemical warfare agents. Notably, chromatophores based on Betta fish are utilized, enabling advanced cytosensor apparatus designs that use optical detection systems to assess changes in chromatophore properties.

Career Highlights

Throughout her career, Janine has worked with prominent organizations, including the State of Oregon, represented by the State Board of Higher Education on behalf of Oregon State University, and the United States of America, represented by the Secretary of Agriculture. Her work at these institutions has significantly propelled her research and contributed to her patent achievements.

Collaborations

Janine's collaborative efforts with esteemed colleagues such as Frank W. R. Chaplen and William H. Gerwick highlight the importance of teamwork in scientific innovation. Their combined expertise has played a vital role in the success of their projects.

Conclusion

In conclusion, Janine E. Trempy stands out as an influential inventor whose work in biopolymers and bioactive detection has greatly impacted various fields. Her two patents reflect her innovative approach and commitment to scientific progress, making her a notable figure in the landscape of modern invention.