Amylomaltase catalyzes alpha-1,4 glucosyl transfer reaction to yield linear or cyclic oligosaccharide products. The aim of this work is to investigate functional roles of 410s loop unique to amylomaltase from Corynebacterium glutamicum (CgAM). Site-directed mutagenesis of Y418, the residue at the loop tip, was performed. Y418A/S/D/R/W/F - CgAMs were characterized and compared to the wild-type (WT). A significant decrease in starch transglucosylation, disproportionation and cyclization activities was observed. Specificity for G3 substrate in disproportionation reaction was not changed; however, Y418F showed an increase in preference for longer oligosaccharides G5 to G7. The catalytic efficiency of Y418 mutated CgAMs, except for Y418F, was significantly lower (up to 8- and 12- fold for the W and R mutants, respectively) than that of WT. The change was in the k(cat), not the K-m values which were around 16-20 mM. The profile of large-ring cyclodextrin (LR-CD) product was different; the principal product of Y418A/D/S was shifted to the larger size (CD36-CD40) while that of the WT and Y418F peaked at CD29-CD33. The product yield was reduced especially in W and R mutants. Hence Y418 in 410s loop of CgAM not only contributes to transglucosylation activities but also controls the amount and size of LR-CD products through the proposed hydrophobic stacking interaction and the suitable distance of loop channel for substrate entering. This is the first report to show the effect of the loop tip residue on LR-CD product formation. (C) 2017 Elsevier Inc. All rights reserved.