Engineered thermostable β-fructosidase from Thermotoga maritima with enhanced fructooligosaccharides synthesis.

The thermostable β-fructosidase (BfrA) from the bacterium Thermotoga maritima converts sucrose into glucose, fructose, and low levels of short-chain fructooligosaccharides (FOS) at high substrate concentration (1.75 M) and elevated temperatures (60-70 °C). In this research, FOS produced by BfrA were characterized by HPAE-PAD analysis as a mixture of 1-kestotriose, 6-kestotriose (neokestose), and to a major extent 6-kestotriose. In order to increase the FOS yield, three BfrA mutants (W14Y, W14Y-N16S and W14Y-W256Y), designed from sequence divergence between hydrolases and transferases, were constructed and constitutively expressed in the non-saccharolytic yeast Pichia pastoris. The secreted recombinant glycoproteins were purified and characterized. The three mutants synthesized 6-kestotriose as the major component of a FOS mixture that includes minor amounts of tetra- and pentasaccharides. In all cases, sucrose hydrolysis was the predominant reaction. All mutants reached a similar overall FOS yield, with the average value 37.6% (w/w) being 3-fold higher than that of the wild-type enzyme (12.6%, w/w). None of the mutations altered the enzyme thermophilicity and thermostability. The single mutant W14Y, with specific activity of 841 U mg, represents an attractive candidate for the continuous production of FOS-containing invert syrup at pasteurization temperatures.