Boronic acids are able to reversibly interact with the diol groups, a commonly found motif in biomolecules including sugars, ribose and catechols. For their carbohydrate-binding properties, they can be regarded as a synthetic mimic of lectins and often termed as "borono-lectins." Importantly, the borono-lectins platform can be chemically tailored to manifest a broad profile of binding strength and specificity. Besides the structural versatility, some derivatives can undergo a sharp inversion in the state of hydration in synchronization with the molecular recognitions. This feature, when combined with amphiphilic polymeric backbones, translates into many creative principles for fine-tuning or switching the hydration and more complex molecular assemblies in a way interactive with biology. Here we provide a brief overview of our recent efforts on the related applications with special focuses on smart insulin delivery systems and sialic acid detections relevant to cancer diagnosis and treatment among others.
Keywords: boronic acid; cancers; diabetes; glucose; sialic acids.