Promiscuous catalysis is a common property of enzymes, particularly those using pyridoxal 5′-phosphate as a cofactor. In a recent issue of this journal, Katane et al. Biochem. J. 477, 4221–4241 demonstrate the synthesis and accumulation of d-glutamate in mammalian cells by promiscuous catalysis mediated by a pyridoxal 5′-phosphate enzyme, the serine/threonine dehydratase-like (SDHL). The mechanism of SDHL resembles that of serine racemase, which synthesizes d-serine, a well-established signaling molecule in the mammalian brain. d-Glutamate is present in body fluids and is degraded by the d-glutamate cyclase at the mitochondria. This study demonstrates a biochemical pathway for d-glutamate synthesis in mammalian cells and advances our knowledge on this little-studied d-amino acid in mammals. d-Amino acids may still surprise us by their unique roles in biochemistry, intercellular signaling, and as potential biomarkers of disease.
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Cover Image
Srivastava and colleagues (pp. 1117–1136) report the crystal structure of histone chaperone anti silencing function 1 (Asf1) from Plasmodium falciparum. Asf1 is a central histone chaperone specific for histone H3 and H4. Biochemical characterization established conserved function of PfAsf1 as a histone H3 and H4 chaperone. The cover image shows the surface representation derived from high resolution X-ray crystal structure of PfAsf1 which indicates the existence of PfAsf1 in a dimeric state in the crystallographic asymmetric unit. Image courtesy of Siddhartha Roy.
Promiscuous enzymes generating d-amino acids in mammals: Why they may still surprise us?
Herman Wolosker, Inna Radzishevsky; Promiscuous enzymes generating d-amino acids in mammals: Why they may still surprise us?. Biochem J 12 March 2021; 478 (5): 1175–1178. doi: https://doi.org/10.1042/BCJ20200988
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