Screening of mutated Corynebacterium glutamicum Amylomaltase to identify amino acids involved in Large-ring cyclodextrin formation

Abstract

This research aims to screen for a mutated Corynebacterium glutamicum amylomaltase (CgAM) with altered large-ring cyclodextrin (LR-CD) production profile in order to identify amino acid residues involved in LR-CD formation. Initially, random mutagenesis and site-directed mutagenesis clones were screened for acceptable CgAM activity and subsequently screened for altered LR-CDs profiles. The result indicated that 1E5, H5 and E231Y CgAMs displayed altered LR-CDs product profiles from that of the WT CgAM. In this work, E231Y CgAM, of which Glu-231 was substituted by Tyr, was selected for further investigation. E231Y CgAM was successfully purified through DEAE FF™ and Phenyl FF™ column with the specific activity of 29.8 U/mg, purification fold of 29.8 and 5.84% yield. E231Y CgAM displayed optimum temperature at 35°C and 45 °C on starch transglycosylation and disproportionation activity, respectively. The optimum pH of E231Y was pH 6.5 on both activities. Temperature and pH stability of E231Y was similar to that of the WT. In comparison to WT, E23Y CgAM displayed higher disproportionation and cyclization activity but similar hydrolysis, coupling and starch degradation activity. E231Y CgAM showed higher catalytic efficiency (kcat/Km) of starch transglycosylation, disproportionation and cyclization activities than WT CgAM. At 12 hr incubation, E231Y CgAM produced the principal CD of 22 to 24, while the principal CD of WT enzyme was 24 to 26. It seemed that E231Y was more effective on altering LR-CD product size than the WT. Circlular dichroism (CD) showed that there was no change in secondary structure of E231Y CgAM. These results suggested that Glu-231 may play a role in LR-CDs formation.