초록
<P><B>Abstract</B></P> <P>Two different endoxylanase genes of deep biosphere bacteria were cloned and overexpressed in <I>E. coli</I>. Overexpression resulted in 11- and 8-fold improvement in endoxylanase activity of XylSG7 and XylSG13 proteins, respectively. Purified XylSG7 and XylSG13 showed an optimal catalytic temperature of 60°C and 65°C, respectively, with a half-life of 20h under similar operational conditions (60°C, pH 7.0). The <I>K</I> <SUB>M</SUB> value for XylSG7 was 0.2371mgmL<SUP>−1</SUP> compared to 0.4768mgmL<SUP>−1</SUP> exhibited by XylSG13 with beechwood xylan. Evaluation of surface characteristics of endoxylanases through Surface Plasmon Resonance highlights a novel approach to characterization of binding prior to covalent immobilization. For improved hydrolysis of corn stover (CS), two enzymatic cocktails were prepared by mixing immobilized XylSG7 and XylSG13 with Cellic® C-Tec2, separately. Application of purified immobilized endoxylanases for CS hydrolysis is a pioneering effort in bioethanol production. Both immobilized endoxylanase were successfully reused up to 4 hydrolysis cycles with a fresh supplement of Cellic® C-Tec2 each time. <I>Kluyveromyces marxianus</I> yeast was selected for its thermotolerant properties, weak glucose repression and ability to metabolize the hemicellulolytic hydrolyzate. A novel high-temperature-high-pressure (HTHP) technique was deployed for maximal utilization of sugars, and enhanced recovery of the produced ethanol, during fermentation. Intermittent use of HTHP simultaneously with the fermentation reaction resulted in 18.2% improved ethanol production over the conventional fermentation process. Simultaneous recovery of ethanol prompted the complete utilization of reducing sugars, compared to a residual concentration of 11.2g/L observed with a conventional process. These findings are the first to be reported on the application of the HTHP technique for improved ethanol production, and on a highly thermostable endoxylanase showing the lowest <I>K</I> <SUB>M</SUB> value to date.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Overexpression of highly thermostable endoxylanase with exceptional catalytic properties. </LI> <LI> Evaluation of enzyme’s binding characteristics with SPR technique. </LI> <LI> Use of covalently immobilized enzyme for corn stover hydrolysis. </LI> <LI> Designing of High-Temperature-High-Pressure ethanol recovery approach (HTHP) </LI> <LI> Enhanced ethanol production through simultaneous recovery using HTHP technique. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>