Company Filing History:
1 out of 49 
1 out of 2,085 
Years Active: 2002-2007
Title: John Cairney: Innovator in Plant Biotechnology
Introduction
John Cairney is a notable inventor based in Decatur, GA (US), recognized for his contributions to plant biotechnology. With a focus on improving somatic embryogenesis, Cairney has developed innovative methods that enhance the understanding and manipulation of plant development.
Latest Patents
Cairney holds 2 patents, including significant inventions such as "Differentially-expressed conifer cDNAs, and their use in improving somatic embryogenesis." This invention outlines a method for staging plant embryos by creating a relational database that determines transcript levels of genes expressed at specific stages of embryo development. This method allows for the identification of unknown stage embryos through comparisons with established expression levels in the database. Additionally, it facilitates the selection of advantageous plant clones for propagation by linking biochemical conditions of embryos to their culture conditions.
Another notable patent is "Vicilin-like seed storage protein gene promoter and methods of using the same." This invention introduces novel vicilin-like gene promoters that can be operably linked to desired sequences, enabling the production and expression of polypeptides in plants. It also provides methods for monitoring the development of conifer embryos.
Career Highlights
Throughout his career, Cairney has worked with esteemed organizations such as the Institute of Paper Science and Technology and Georgia Tech Research Corporation. His work has significantly advanced the field of plant biotechnology, particularly in the areas of embryo development and genetic expression.
Collaborations
Cairney has collaborated with notable colleagues, including Ranjan Perera and Gerald S Pullman, contributing to various research projects that enhance the understanding of plant genetics and development.
Conclusion
John Cairney's innovative work in plant biotechnology has led to significant advancements in the field, particularly through his patented methods for improving somatic embryogenesis and monitoring embryo development. His contributions continue to influence research and applications in plant science.