13th Biotechnology Congress

Biography

Biography: Miyu Nishiguchi

Abstract

Ergothioneine (ERG) is sulfur-containing amino acid synthesized by certain bacteria and fungi. Recently, findings point to critical functions in human physiology. Human takes ERG from food and concentrates it in specific tissues or cells such as liver, kidney, central nervous system, and red blood cells. ERG is marketed as dietary supplement or nutraceutical so that acts as anti-oxidant. It has been recognized that filamentous fungi or Actinomycetes produce ERG. However, in 2010, the ERG biosynthetic gene was identified for the first time. Here, we challenged to produce ERG from glucose with our constructed cysteine producer. E. coli has a regulation system that synthesized cysteine from energetically-favored thiosulfate, as the assimilation of sulfate spends 2 ATP and 4 NADPH. This cysteine producer produces 16 g/L of cysteine from thiosulfate. Therefore, we established world-first ERG fermentation and challenged production of more cheaper ERG.

  We cloned ERG biosynthetic genes from Micobacteria smegmatis, and performed heterologous expression of cloning ERG genes in E. coli. The analysis of the culture medium by LC-MS/MS detected ERG peak. When a plasmid carrying these ERG biosynthetic genes was introduced into cysteine producer with enhanced biosynthesis, weakened degradation, and improved export of L-cysteine, the transformants slightly produced ERG into medium from thiosulfate (30mg/L of ERG). Interestingly, this transformants produced 200 mg/L of ERG from sulfate. We propose that the spend of NADPH is important for production of ERG.

（This work was supported by the Programme for Promotion of Basic and Applied Researches for Innovations in Bio-oriented Industry to I.O.）