Company Filing History:
Years Active: 2018-2021
Title: Innovations by Kiyoko Goto in Tokyo
Introduction
Kiyoko Goto is a prominent inventor based in Tokyo, Japan, known for her groundbreaking contributions to biochemistry and molecular biology. With a remarkable portfolio comprising three patents, she has made significant strides in the development of innovative therapeutics and methods for protein synthesis.
Latest Patents
One of Goto's latest patents is titled "Polymeric IgA-type recombinant antibody and use thereof." This invention includes a polymeric IgA-type recombinant antibody and a corresponding medicine containing it as an active ingredient. The patent details a method for producing this antibody by co-expressing various proteins within a single cell, ultimately aiming to enhance the antibody's antigen-binding and neutralizing activities. Another notable patent is focused on the "Method for producing protein," which explores the mechanism of p180 protein in promoting polysome formation - a vital step for efficient protein synthesis. The invention identifies SF3b4 protein as a key player that interacts specifically with p180, significantly improving mRNA localization to the endoplasmic reticulum and enhancing secretory capacity in cultured cells.
Career Highlights
Kiyoko Goto is affiliated with Nippi Corporation, an organization dedicated to advancing innovative medical solutions. Throughout her career, Goto has exemplified her commitment to scientific research and development, leading to valuable insights and advancements in her field.
Collaborations
During her tenure at Nippi Corporation, Goto has collaborated with talented colleagues, including Tomonori Ueno and Yuki Taga. These partnerships have fostered a dynamic environment where cutting-edge research thrives, further propelling the advancement of biotechnological innovations.
Conclusion
Kiyoko Goto's contributions to the field of biochemistry, particularly through her latest patents, underscore her role as an influential inventor. Her work, characterized by innovative methodologies and collaboration with skilled professionals, continues to pave the way for future advancements in medical science.