Company Filing History:
Years Active: 2021
Title: Inventor Yuanyan Tan: Innovating Genome Alteration Techniques in Hong Kong
Introduction: Yuanyan Tan is a distinguished inventor based in Hong Kong, China, known for his groundbreaking contributions to the field of genetic engineering. With a focus on innovative methodologies for altering the genomes of cells, he has made significant strides in advancing this important area of biotechnology.
Latest Patents: Yuanyan Tan holds a notable patent titled "Modified protein and method for altering genome of cell." This invention features a modified Cas9 (SaCas9) protein with a mutation at the N413 position. The patent also includes optional elements such as a nuclear localization sequence, a cell-penetrating peptide sequence, an affinity tag, and/or a fusion base editor protein. Additionally, it outlines a kit that comprises the modified protein and describes a method for altering the genome of a cell using this innovative protein.
Career Highlights: As an accomplished inventor, Tan is affiliated with the City University of Hong Kong, where he conducts research and collaborates with fellow scientists. His expertise and dedication have positioned him as a leading figure in his field, facilitating advancements that are beneficial for both scientific research and medical applications.
Collaborations: Yuanyan Tan works alongside accomplished colleagues, including Zongli Zheng and Jiahai Shi, who contribute to his innovative projects and research initiatives. Together, they strive to push the boundaries of genetic engineering and explore new applications that could revolutionize treatments and therapies in medicine.
Conclusion: Yuanyan Tan's innovative efforts and patented work signify his commitment to advancing genetic engineering. With a focus on creating a modified protein for efficient genome alteration, he is at the forefront of a rapidly evolving field that holds tremendous promise for the future of biotechnology. His collaborations and significant achievements further highlight the impact of his work in Hong Kong and beyond.