Location History:
- New York, NY (US) (2021)
- Durham, NC (US) (2020 - 2023)
Company Filing History:
Years Active: 2020-2023
Title: Innovations and Contributions of Inventor Kate D Meyer
Introduction
Kate D Meyer is a prominent inventor based in New York, NY (US). She has made significant contributions to the field of molecular biology, particularly in the area of RNA research. With a total of 3 patents, her work focuses on enhancing the understanding and functionality of RNA molecules.
Latest Patents
One of her latest patents is titled "Methods of enhancing translation ability of RNA molecules, treatments, and kits." This invention relates to methods and a kit designed to enhance the translation ability of an RNA molecule. The methods involve the use of an RNA molecule that includes a methylated adenosine residue in a 5' untranslated region (UTR). Additionally, it discloses methods for eIF4E-independent translation of an RNA molecule and various treatment methods.
Another significant patent is "Methods and kit for characterizing the modified base status of a transcriptome." This invention outlines a method for characterizing the modified base status of a transcriptome. It involves contacting a transcriptome with an antibody specific to the modified bases, isolating RNA transcripts that bind to the antibody, and identifying those transcripts that are present in higher abundance. This patent also includes methods for diagnosis or prognosis of diseases and a kit for characterizing the modified base status of a transcriptome.
Career Highlights
Kate D Meyer is affiliated with Cornell University, where she continues her research and innovation in RNA biology. Her work has garnered attention for its potential applications in medical treatments and diagnostics.
Collaborations
Some of her notable coworkers include Samie R Jaffrey and Christopher E Mason, who have collaborated with her on various research projects.
Conclusion
Kate D Meyer is a distinguished inventor whose work in RNA research has led to valuable patents and advancements in the field. Her contributions continue to influence molecular biology and its applications in medicine.