It’s a good chance listening to such inspiring talk from a friend @Shuke_Wu who is now a professor in biotechnology at @HZAU_China. Obviously there are big roles for biocatalysis in the future. Thank you @Lita_Chuaboon for inviting me to the event.
https://t.co/ovGjry2vO4. This project is among my most favorite innovations. The technology gives three-pronged advantages: biodetoxification, synthesis of luciferin analogues, and pesticide detection. We eventually got two NOVEL luciferins with red light emission and bright.
Thank you @pchaiyen for this opportunity and all of your support. Thanks to Philaiwarong, Dr. Chatchai, Vinutsada, @JPhonbuppha, Dr. Ruchanok, Dr. Somchart, @Thanyapornw1, and the Japanese team for their efforts and support. Thanks, @chomphujuthamas@AsweenaB for the pics&video.
Our latest work has been published in @angew_chem. We developed the enzymatic reaction to convert 5 pesticides and 19 phenolic compounds into 8 luciferins which contain 2 novel luciferns with red-shift signal and more steady light than native lucifern. https://t.co/0UeudJiwfK
Our newly published comprehensive catalytic and comprehensive characterizations of a new aldolase. The enzyme is thermostable, solvent tolerant, stereo-selective and can use a broad range of aldehyde substrates @PratchayaWatth1@AsweenaB@Lita_Chuaboon
https://t.co/JGu5gRHScg
Our latest article has been published in @jbiolchem. We demonstrated the ability of A. baumannii pyruvate class II aldolase to synthesize optically pure compounds with high thermostability, solvent tolerance, and broad aldehyde utilization. @AsweenaB
https://t.co/iQJHKEfK7N