We have used a conceptually novel way to construct antibody mimics based on the binding of a noncatalytic enzyme to its substrate. Bacteriophage-derived endosialidase cleaves polysialic acid (polySia), an important oncofetal and bacterial antigen, which is poorly immunogenic. We fused to green fluorescent protein (GFP) a catalytically inactive endosialidase known to bind but not degrade polysialic acid. The fusion protein is a convenient single-step reagent in fluorescence microscopy, binding assays and immunoblots. It efficiently and specifically detected polysialic acid in developing brain, neuroblastoma cells and bacteria causing meningitis. Enzyme-substrate interactions represent an unexploited source of molecular recognition events. Some of these could be used in designing well-defined substitute antibodies for the study of target molecules which are difficult to purify, available in low quantities, are unstable or have poor immunogenity.