SummarySulfur-containing amino acids (SAAs) are essential components in many biological processes and ubiquitously distributed to all organisms. Both biosynthetic and catabolic pathways of SAAs are heterogeneous among organisms and between developmental stages, and regulated by the environmental changes. Limited lineage of organisms ranging from archaea to plants, but not human, possess a unique enzyme methionine gammalyase (MGL, EC 4.4.1.11) to directly degrade SAA to a-keto acids, ammonia, and volatile thiols. The reaction mechanisms and the physiological roles of this enzyme are partially demonstrated by the enzymological analyzes, structure determination, isotopic labeling of the intermediate metabolites, and functional analyzes of deficient mutants. MGL has been exploited as a drug target for the infectious diseases caused by parasitic protozoa and anaerobic periodontal bacteria. In addition, MGL has been utilized to develop therapeutic interventions of various cancers, by introducing recombinant proteins to deplete methionine essential for the growth of cancer cells. In this review, we discuss the current understanding of enzymological properties, putative physiological roles, and therapeutic applications of MGL.