Company Filing History:
Years Active: 2018-2021
Title: Emmalene Bartlett: Pioneering Innovations in Immunology
Introduction
Emmalene Bartlett, a distinguished inventor based in Eppelheim, Germany, has made significant contributions to the field of immunology through her innovative work. With two patents to her name, she is at the forefront of research that addresses critical health challenges related to B-cell hyperproliferation and immune response modulation.
Latest Patents
One of Emmalene Bartlett's latest patents is centered on B-cell receptor complex binding proteins containing T-cell epitopes. This invention describes a polypeptide that includes a binding peptide capable of binding to proteins such as CD22, CD19, CD20, and CD21. Additionally, the polypeptide comprises an immunogenic peptide featuring at least one T-cell epitope, which can be utilized for vaccinating subjects against B-cell hyperproliferation or in the modulation of immune responses. The associated methods also highlight how to stimulate antigen-specific T-cells by contacting antigen presenting cells with the polypeptide and the methods for inducing tolerance in subjects.
Career Highlights
Throughout her career, Emmalene has been affiliated with the Deutsches Krebsforschungszentrum (German Cancer Research Center), where she has continued to push the boundaries of cancer research and treatment modalities. Her focus on B-cell interactions and T-cell immunity positions her as a valuable contributor in the fight against various cancers.
Collaborations
Emmalene Bartlett has collaborated with esteemed colleagues such as Henri-Jacques Delecluse and Regina Feederle. These partnerships enhance the depth and breadth of her research, fostering an environment of innovation and knowledge exchange in the scientific community.
Conclusion
Emmalene Bartlett exemplifies the spirit of innovation in the field of immunology. Through her groundbreaking patents and collaborations, she is making strides towards better understanding and curing diseases related to immune system dysfunction. Her work not only highlights her talent as an inventor but also reflects the importance of collaborative efforts in advancing scientific research.