Date: 1.2.2016
A soy isoflavone derivative that goes by the scientific moniker, (S)-equol, has proven potent for mitigating menopausal symptoms. However, it has been impossible to produce in quantities sufficient for widespread commercial nutraceutical production.
But now, a team of Korean researchers reports having constructed a recombinant bacterium which they say can boost production.
Equol is produced naturally in small quantities by the human intestine-abiding bacterium, Slackia isoflavoniconvertens. Clinical studies have shown that this compound reduces hot flashes, night sweats, bone loss, and other menopausal symptoms, with no harmful side effects, and studies in several human cell lines suggest that it might eventually prove to prevent prostate cancer. But the anaerobic S. isoflavoniconvertens' productivity was too low for large-scale production, and that bacterium doesn't work well with industrial fermenters, said lead investigator Byung-Gee Kim, Seoul National University, Seoul, Korea.
To increase production of (S)-equol, the investigators cloned the enzymes of the compound's biosynthetic pathway into a strain of the laboratory bacterium, Escherichia coli, which is commonly used, among other things, for industrial purposes.
They identified the rate-determining enzyme in the biosynthetic pathway. "We replaced the slower, naturally-occurring enzyme with a mutant version of that enzyme, which is faster," said Kim.
The mutant enzyme has substantially increased production of (S)-equol. However, the process has yet to achieve sufficient productivity for industrial production, said Kim. "We showed a partial success, and we are working to improve it."
Gate2Biotech - Biotechnology Portal - All Czech Biotechnology information in one place.
ISSN 1802-2685
This website is maintained by: CREOS CZ
© 2006 - 2024 South Bohemian Agency for Support to Innovative Enterprising (JAIP)
Interesting biotechnology content:
Plant biotechnology - Information about plant biotechnology
Animal Biotechnology - Animals, animal biotech
Nano-nutrients can blunt effects of soil contamination, boost crop yields
AI-designed DNA switches flip genes on and off, allowing precise activation or repression