Characterization of a thermostable xylanase from a newly isolated Kluyvera species and its application for biobutanol production

Abstract

Kluyvera species strain OM3 isolated from spent mushroom substrate could produce a high level of cellulase-free xylanase (5.12U/mL). This xylanase showed maximum activities at 70°C and pH 8.0, which could retain 100% and 71% activity after 1h incubation at 60°C and 70°C, and maintain stability over a wide range of pHs (5.0–9.0), indicating its thermal and pH stability. Moreover, the xylanase could hydrolyze untreated lignocellulosics (e.g., palm oil fiber) to reducing sugars with a yield of 27.1–46.9mg/g. A co-culture consisting of Kluyvera sp. strain OM3 and Clostridium sp. strain BOH3 could directly convert birchwood xylan to 1.2g/L butanol, which was comparable to the amount of butanol (1.7g/L) generated via separate hydrolysis by the xylanase and fermentation by Clostridium sp. strain BOH3. This is the first report on the production, characterization of a xylanase from genus Kluyvera and its application for butanol production directly from hemicelluloses.