Mariko Horiike

Title: **Innovations by Mariko Horiike: Pioneering Methods for Measuring Modified Nucleobases**

Introduction

Mariko Horiike, a talented inventor based in Tokyo, Japan, has made significant contributions to the field of nucleic acid detection. With two patents to her name, she has been at the forefront of developing methods that enhance the sensitivity and specificity of detecting modified nucleobases.

Latest Patents

Horiike's latest patents include groundbreaking inventions aimed at improving the detection of modified nucleobases in target nucleic acids. The first patent titled "Method for measuring modified nucleobase using guide probe, and kit therefor" details a novel method that increases detection sensitivity for modified nucleobases. This technique involves a step-by-step approach to ensure accurate measurement and has practical applications in diagnostics and research.

The second patent, "Method for measuring modified nucleobase using solid phase probe, and kit for same," introduces an innovative immunoassay system that minimizes background interference in detection signals. This method incorporates the incubation of a nucleic acid sample with various probes and antibodies, yielding a reliable measurement of modified nucleobases. Both inventions also provide associated kits to facilitate their implementation in laboratory settings.

Career Highlights

Mariko Horiike currently works at Fujirebio Inc., where her expertise in molecular biology and biochemistry is utilized to develop cutting-edge solutions for nucleic acid detection. Her work at Fujirebio has positioned her as a significant contributor to advancements in biotechnological research and diagnostics.

Collaborations

Horiike collaborates closely with Tatsuki Matsuno, a talented colleague who brings her own expertise to their joint projects. Their teamwork has resulted in innovative findings that have enhanced the capabilities of nucleic acid measurement techniques. This collaboration underscores the importance of shared knowledge and diverse skill sets in driving scientific advancements.

Conclusion

Mariko Horiike’s innovative patents reflect her dedication to improving methods for measuring modified nucleobases. With her contributions, the field of nucleic acid detection continues to evolve, offering more sensitive and reliable techniques that can be deployed across various applications in medical and research settings. Horiike's work not only highlights her ingenuity as an inventor but also reinforces the significance of collaboration in pushing the boundaries of science and technology.