Janos Torok

Title: Innovations of Janos Torok in Cellulose Processing

Introduction

Janos Torok is a notable inventor based in Budapest, Hungary. He has made significant contributions to the field of biotechnology, particularly in the processing of cellulose. With a total of two patents to his name, his work focuses on enhancing the efficiency of cellulose breakdown for various applications.

Latest Patents

Janos Torok's latest patents include the use of glycohydrolase 61 protein variants with improved thermostability for processing cellulose. This invention provides recombinant GH61 proteins obtained from, and nucleic acids that encode such proteins. The invention also offers protein fractions isolated from supernatant that exhibit GH61 protein activity. These preparations can be utilized to increase the yield of products from reactions in which a cellulose-containing substrate undergoes saccharification by one or more cellulase enzymes, such as endoglucanase, β-glucosidase, or cellobiohydrolase. Additionally, combinations of GH61 protein and cellulases can be employed to break down cellulosic biomass into fermentable sugars, which are essential in the production of ethanol. Another patent focuses on the use of glycoside hydrolase 61 family proteins in processing cellulose, reiterating the importance of these proteins in enhancing cellulose processing efficiency.

Career Highlights

Janos Torok is currently associated with Codexis, Inc., where he continues to innovate in the field of biotechnology. His work has been instrumental in advancing methods for cellulose processing, which has significant implications for renewable energy and sustainable practices.

Collaborations

Some of his notable coworkers include Jie Yang and Louis Clark, who contribute to the collaborative efforts in research and development at Codexis, Inc.

Conclusion

Janos Torok's contributions to cellulose processing through his innovative patents highlight the importance of biotechnology in addressing modern challenges. His work not only enhances the efficiency of cellulose breakdown but also supports the development of sustainable energy solutions.