A convenient pre-activation DMF-modulating glycosylation method is developed. The method employs DMF as a modulator to convert the highly reactive oxocarbenium ion to less reactive glycosyl imidate; subsequent coupling of the imidate with an acceptor leads to the formation of glycosylation product. In addition, there is a quantity-selectivity relationship between the amount of DMF modulator and the degree of a;pha-selectivity in glycosylation. High to excellent 1,2-cis and 1,2-trans alpha-selectivities are achieved by this simple method without invoking any atypical protecting functions. Regarding the reaction mechanism, VT-NMR study is performed, which clearly identifies the alpha-glycosyl imidate by detection of characteristic signals deriving from the imidate function. In addition, glycosyl formate deriving from the side reaction of the glycosyl donor is also observed on some occasions. Based on such evidence, a possible mechanism is proposed. The interception of oxocarbenium ions with DMF generates a mixture of alpha/beta-glycosyl iminium ions. Empirically, the beta-iminium intermediate is more reactive than the alpha one and is able to react predominantly with the alcohol acceptor through a SN2-like pathway leading to 1,2-cis alpha-glycosidic bond formation.