The ${eta}$-xylosidase (EC 3.2.1.37) production capabilities of lactic acid bacteria in the genus Leuconostoc, isolated from a variety of kimchi (fermented vegetables), were examined. The intracellular levels of ${eta}$-xylosidase were similar to the extracellular levels, when most Leuconostoc lactic acid bacteria were grown in a medium containing xylose as the carbon source. Intracellular ${eta}$-xylosidase with a maximum activity of $1.2{pm}0.1units/mL$ (mean${pm}$standard error) was obtained from Leuconostoc lactis KCTC 13344, which was isolated from fermented Chinese cabbage. The optimum reaction conditions for Leu. lactis KCTC 13344 ${eta}$-xylosidase activity were pH 6.0 and $30^{circ}C$, and the addition of most divalent cations, except zinc, to the reaction mixture resulted in a slight increase in enzyme activity. Compared with a media containing other carbon sources, the ${eta}$-xylosidase activity was 5 times higher when Leu. lactis KCTC 13344 was grown in a medium containing xylose as carbon source. Zymographic analysis indicated that the synthesis of Leu. lactis KCTC 13344 ${eta}$-xylosidase (approximate size, 64 kDa) is induced by xylose. A maximum intracellular ${eta}$-xylosidase activity of $7.1{pm}0.3units/mL$ was obtained in a batch cultivation in an MRS medium containing 30 g/L xylose.