Abstract
Recent advances in proteomics have provided impetus towards the development of robust technologies for high-throughput studies of enzymes. The term "catalomics" defines an emerging '-omics' field in which high-throughput studies of enzymes are carried out by using advanced chemical proteomics approaches. Of the various available methods, microarrays have emerged as a powerful and versatile platform to accelerate not only the functional annotation but also the substrate and inhibitor specificity (e.g. substrate and inhibitor fingerprinting, respectively) of enzymes. Herein, we review recent developments in the fabrication of various types of microarray technologies (protein-, peptide- and small-molecule-based microarrays) and their applications in high-throughput characterizations of enzymes.
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