Company Filing History:
Years Active: 1994
Title: Innovations in Tissue Regeneration by Charles H. Michler
Introduction
Charles H. Michler is an accomplished inventor based in Rhinelander, WI (US). He is known for his significant contributions to the field of plant tissue regeneration. His innovative methods have the potential to enhance the development of plants with desirable traits.
Latest Patents
Charles H. Michler holds a patent for "Methods of high frequency tissue regeneration." This patent outlines techniques for in vitro culturing of tree tissue, which achieve high frequency tissue regeneration. The methods described include culturing with specific ratios of naphthaleneacetic acid and benzyladenine, or benzyladenine and zeatin, to induce a high frequency of tissue regeneration. Additionally, the patent details the use of a tissue regeneration medium with a high auxin concentration and a relatively low cytokinin concentration for a short duration to generate a significant number of morphogenic callus cells. Furthermore, the regeneration of somatic embryos is facilitated using a medium comprising 2,4-dichlorophenoxyacetic acid, benzyladenine, sucrose, and glutamine. These methods are particularly useful for developing plants that can tolerate toxic chemicals.
Career Highlights
Throughout his career, Charles H. Michler has focused on advancing the science of plant regeneration. His work has contributed to the understanding of how to manipulate plant tissue to achieve desired outcomes. His innovative approaches have garnered attention in the scientific community.
Collaborations
Charles H. Michler has collaborated with Bruce E. Haissig, further enhancing the research and development in the field of tissue regeneration. Their combined expertise has led to advancements that benefit agricultural practices.
Conclusion
Charles H. Michler's work in high frequency tissue regeneration represents a significant advancement in plant biotechnology. His innovative methods have the potential to revolutionize how we approach plant development and tolerance to environmental challenges.