초록
<P><B>Background</B></P><P>β-Glucosidase is an important component of the cellulase enzyme system. It does not only participate in cellulose degradation, it also plays an important role in hydrolyzing cellulose to fermentable glucose by relieving the inhibition of exoglucanase and endoglucanase from cellobiose. Therefore, the glucose-tolerant β-glucosidase with high specific activity for cellobiose might be a potent candidate for industrial applications.</P><P><B>Results</B></P><P>The β-glucosidase gene <I>bgl</I> that encodes a 443-amino-acid protein was cloned and over-expressed from <I>Thermoanaerobacterium thermosaccharolyticum</I> DSM 571 in <I>Escherichia coli</I>. The phylogenetic trees of β-glucosidases were constructed using Neighbor-Joining (NJ) and Maximum-Parsimony (MP) methods. The phylogeny and amino acid analysis indicated that the BGL was a novel β-glucosidase. By replacing the rare codons for the N-terminal amino acids of the target protein, the expression level of <I>bgl</I> was increased from 6.6 to 11.2 U/mg in LB medium. Recombinant BGL was purified by heat treatment followed by Ni-NTA affinity. The optimal activity was at pH 6.4 and 70°C. The purified enzyme was stable over pH range of 5.2–7.6 and had a 1 h half life at 68°C. The activity of BGL was significantly enhanced by Fe<SUP>2+</SUP> and Mn<SUP>2+</SUP>. The <I>V</I><SUB><I>max</I></SUB> of 64 U/mg and 120 U/mg were found for p-nitrophenyl-β-D-glucopyranoside (<I>K</I><SUB><I>m</I></SUB> value of 0.62 mM) and cellobiose (<I>K</I><SUB><I>m</I></SUB> value of 7.9 mM), respectively. It displayed high tolerance to glucose and cellobiose. The <I>K</I><SUB><I>cat</I></SUB> for cellobiose was 67.7 s<SUP>-1</SUP> at 60°C and pH 6.4, when the concentration of cellobiose was 290 mM. It was activated by glucose at concentrations lower that 200 mM. With glucose further increasing, the enzyme activity of BGL was gradually inhibited, but remained 50% of the original value in even as high as 600 mM glucose.</P><P><B>Conclusions</B></P><P>The article provides a useful novel β-glucosidase which displayed favorable properties: high glucose and cellobiose tolerance, independence of metal ions, and high hydrolysis activity on cellobiose.</P>