2'-Fucosyllactose (2'-FL), a major component of fucosylated human milk oligosaccharides, is beneficial to human health in various ways like prebiotic effect, protection from pathogens, anti-inflammatory activity and reduction of the risk of neurodegeneration. Here, a whole-cell fluorescence biosensor for 2'-FL was developed. Escherichia coli (E. coli) was engineered to catalyse the cleavage of 2'-FL into L-fucose and lactose by constitutively expressing α-L-fucosidase. Escherichia coli ∆L YA, in which lacZ is deleted and lacY is retained, was employed to disable lactose consumption. E. coli ∆L YA constitutively co-expressing α-L-fucosidase and a red fluorescence protein (RFP) exhibited increased fluorescence intensity in media containing 2'-FL. However, the presence of 50 g/L lactose reduced the RFP intensity due to lactose-induced cytotoxicity. Preadaptation of bacterial strains to fucose alleviated growth hindrance by lactose and partially recovered the fluorescence intensity. The fluorescence intensity of the cell was linearly proportional to 1-5 g/L 2'-FL. The whole-cell sensor will be versatile in developing a 2'-FL detection system.