Company Filing History:
Years Active: 2025
Title: Linfeng Yang: Innovator in Nucleic Acid Technology
Introduction
Linfeng Yang is a notable inventor based in Guangdong, China. He has made significant contributions to the field of nucleic acid technology, particularly with his innovative patent that addresses the cyclization of single-stranded nucleic acid molecules. His work is essential for advancements in genetic research and biotechnology.
Latest Patents
Linfeng Yang holds a patent titled "Splint nucleic acid molecule for cyclizing single-stranded nucleic acid molecule and use thereof." This invention provides a splint nucleic acid molecule designed for cyclizing a single-stranded nucleic acid molecule. The splint nucleic acid molecule consists of a 5' terminal fragment and a 3' terminal fragment. The 5' terminal fragment is adapted to form a first complementary region with the 5' terminal of the single-stranded nucleic acid molecule, while the 3' terminal fragment is suited to form a second complementary region with the 3' terminal of the single-stranded nucleic acid molecule. Notably, the lengths of the first and second complementary regions differ, which enhances the functionality of the molecule.
Career Highlights
Linfeng Yang is currently associated with BGI Genomics Co., Limited, a leading company in genomics and biotechnology. His role at BGI allows him to contribute to cutting-edge research and development in the field of genomics, furthering the understanding and application of nucleic acids in various scientific domains.
Collaborations
Linfeng Yang collaborates with several professionals in his field, including his coworker Chong Tang, who is also a prominent figure in the biotechnology sector. Their combined expertise fosters innovation and drives advancements in nucleic acid research.
Conclusion
Linfeng Yang's contributions to nucleic acid technology through his patent and work at BGI Genomics Co., Limited highlight his role as an influential inventor in the biotechnology field. His innovative approaches continue to pave the way for future developments in genetic research and applications.