Company Filing History:
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1 out of 832,812 Years Active: 1996-1998
Title: FenBiao Gao: Innovator in mRNA Partitioning Technologies
Introduction
FenBiao Gao is a prominent inventor based in Durham, NC (US), known for his significant contributions to the field of molecular biology. He holds two patents that focus on methods and compositions useful in the recognition and binding of messenger RNAs (mRNAs) involved in cellular growth and differentiation. His innovative work has the potential to advance our understanding of gene expression and its implications in various biological processes.
Latest Patents
FenBiao Gao's latest patents describe methods and compounds that facilitate the partitioning of mRNAs encoding functionally related proteins. These proteins are particularly important for cellular growth and differentiation. The patents detail techniques for binding to target sequences in the untranslated portions of the RNAs. Additionally, the preparation of mRNA-subset libraries containing genes encoding growth regulatory factors is outlined. These methods allow access to unique growth regulatory factors specific to a given cell, tissue, or tumor, providing a novel approach for fingerprinting such factors.
Career Highlights
Throughout his career, FenBiao Gao has worked with esteemed institutions, including Duke University. His research has contributed to the advancement of molecular biology and has implications for understanding complex biological systems. His innovative approaches have garnered attention in the scientific community.
Collaborations
FenBiao Gao has collaborated with notable colleagues, including Jack D. Keene and Todd Levine. These collaborations have further enriched his research and contributed to the development of his patented technologies.
Conclusion
FenBiao Gao's work in mRNA partitioning technologies represents a significant advancement in molecular biology. His patents and collaborations highlight his commitment to innovation in the field. His contributions have the potential to impact research and applications in cellular growth and differentiation.