Company Filing History:
3 out of 1,115 
1 out of 88 
Years Active: 2020-2022
Title: Sang Su Bae: Innovator in Genome Editing and Algal Biotechnology
Introduction
Sang Su Bae is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the fields of genome editing and algal biotechnology. With a total of 4 patents, his work focuses on enhancing the precision of programmable nucleases and improving pigment production in algae.
Latest Patents
One of his latest patents is a method for detecting off-target sites of programmable nucleases in a genome. This innovative approach involves analyzing data from genomes subjected to programmable nucleases, followed by whole genome sequencing or deep sequencing. The Digenome-seq method he developed can detect off-target sites on a genomic scale with high reproducibility. This advancement is crucial for creating programmable nucleases with high target specificity.
Another notable patent involves the development of Chlamydomonas mutants that enhance pigment production. This new alga can produce carotenoid-based pigments, specifically xanthophyll, while consuming less energy. The efficient production of these pigments at an industrial level opens up possibilities for their use in food, health functional foods, and medicinal applications. Importantly, the method minimizes the risk of DNA fragments being inserted into unintended target sequences, thus avoiding GMO regulations.
Career Highlights
Sang Su Bae has worked with esteemed institutions such as the Industry-University Cooperation Foundation at Hanyang University and the Institute for Basic Science. His research has significantly impacted the fields of genetic engineering and biotechnology.
Collaborations
He has collaborated with notable colleagues, including Eon Seon Jin and Kwang Ryul Baek, contributing to the advancement of his research and innovations.
Conclusion
Sang Su Bae's work exemplifies the intersection of innovative research and practical applications in biotechnology. His contributions to genome editing and algal pigment production are paving the way for future advancements in these fields.