Company Filing History:
Years Active: 1987-1990
Title: Thabiso N'timkulu: Innovator in Haloperoxidase Methods
Introduction
Thabiso N'timkulu is an accomplished inventor based in Berkeley, CA, known for his significant contributions to the field of bioengineering. With two patents to his name, N'timkulu has made strides in developing stable haloperoxidase methods that have potential applications in various biochemical processes.
Latest Patents
N'timkulu's latest innovations focus on a novel method for producing a non-heme haloperoxidase that displays remarkable resistance to inactivation at room temperature. One of his patents outlines a method in which the enzyme can withstand up to 0.3M hydrogen peroxide for 25 hours and 0.5 mM hypochlorous acid for two minutes. Notably, this haloperoxidase, isolated from the fungus Curvularia inaequalis, contains approximately 2 gram atoms of zinc per molecule. The halogenation reactions facilitated by this enzyme can occur at concentrations of hydrogen peroxide and hypohalous acids that typically inactivate heme-containing haloperoxidases swiftly.
Career Highlights
Thabiso N'timkulu's career is marked by his tenure at Cetus Corporation, where he conducts research that pushes the boundaries of existing biochemical methodologies. His innovative approaches have garnered attention within the scientific community, especially for their implications in enhancing enzyme stability.
Collaborations
Throughout his career, N'timkulu has collaborated closely with notable researchers, including John Geigert and Te-Ning E Liu. These partnerships have fostered a collaborative environment that contributes to the advancement of their collective research goals.
Conclusion
Thabiso N'timkulu exemplifies the spirit of innovation in the bioengineering field. His patents and collaborations illustrate his commitment to enhancing biochemical processes through innovative solutions. As he continues his work at Cetus Corporation, the potential impact of his inventions will undoubtedly shape the future of enzyme applications.