Company Filing History:
Years Active: 2023
Title: Innovations by Ruonan Ma in Plant Tissue Culture
Introduction
Ruonan Ma is an accomplished inventor based in Changsha, China. He has made significant contributions to the field of plant tissue culture, particularly in the methods for disinfecting and inducing rapid proliferation of explants of stems with buds. His innovative approach addresses common challenges in tissue culture, paving the way for advancements in plant propagation.
Latest Patents
Ruonan Ma holds a patent titled "Methods for disinfecting and inducing direct rapid proliferation of explants of stems with buds." This patent describes a method for disinfecting explants of stems with buds and a technique for directly inducing rapid proliferation of sterile buds. The process involves several steps, including selection, treatment, and disinfection of explants, as well as primary culture and subculture proliferation culture. This invention effectively solves the difficulties associated with tissue culture and primary culture of stems. The advantages of his method include a low contamination rate of explants, a high propagation rate, and robust proliferation of axillary buds. This innovation allows for the production of sterile axillary buds through tissue culture, providing essential support for rapid propagation and factory seedling production in the future.
Career Highlights
Ruonan Ma is affiliated with the Central South University of Forestry and Technology, where he continues to advance research in plant tissue culture. His work has garnered attention for its practical applications in agriculture and horticulture, contributing to more efficient methods of plant propagation.
Collaborations
Ruonan Ma collaborates with notable colleagues, including Ze Li and Yang Liu, who contribute to his research endeavors. Their combined expertise enhances the development of innovative solutions in the field of plant science.
Conclusion
Ruonan Ma's contributions to plant tissue culture through his patented methods represent a significant advancement in the field. His work not only addresses existing challenges but also opens new avenues for efficient plant propagation.