Company Filing History:
Years Active: 2010-2012
Title: Nancy L. Greenbaum - A Pioneer in Nucleic Acid Research
Introduction
Nancy L. Greenbaum is an accomplished inventor based in Tallahassee, Florida, recognized for her significant contributions to the field of nucleic acid research. With two patents to her name, she has demonstrated an innovative approach to genetic material manipulation, positioning herself as a leading figure in her area of expertise.
Latest Patents
One of Greenbaum's most notable patents focuses on the "Site-specific cleavage of nucleic acids by photoreactive conjugates." This process involves forming a double strand cleavage in DNA by creating a reaction mixture with double-stranded DNA that has a break in the first strand. The method includes the addition of a photoreactive lysine conjugate, which may be a lysine-enediyne conjugate, a lysine-acetylene conjugate, or a combination thereof, allowing the lysine conjugate to bind to the DNA adjacent to the target site. Following this, the reaction mixture is irradiated with electromagnetic radiation to photoactivate the lysine conjugate, achieving cleavage of the second strand adjacent to the target site. This innovative technique opens new avenues in genetic research and potential therapeutic interventions.
Career Highlights
Nancy Greenbaum is affiliated with the Florida State University Research Foundation, Inc., where she continues to contribute to scientific research and innovation. Her work is characterized by a blend of creativity and scientific rigor, making significant strides in understanding the complexities of DNA manipulation.
Collaborations
Throughout her career, Greenbaum has collaborated with esteemed colleagues such as Igor Alabugin and Boris Breiner. These collaborations underscore her commitment to advancing scientific knowledge and fostering an environment of collective innovation within the research community.
Conclusion
Nancy L. Greenbaum exemplifies the spirit of innovation in the field of nucleic acid research. Her patented methods not only contribute to scientific understanding but also pave the way for future advancements in biotechnology. As she continues her research, Greenbaum remains a prominent figure in the quest for breakthroughs that can impact various aspects of health and science.