The C-terminal of CysM from Mycobacterium tuberculosis protects the aminoacrylate intermediate and is involved in sulfur donor selectivity

Abstract 

A new crystal structure of the dimeric cysteine synthase CysM from Mycobacterium tuberculosis reveals an open and a closed conformation of the enzyme. In the closed conformation the five carboxy-terminal amino acid residues are inserted into the active site cleft. Removal of this segment results in a decreased lifetime of the α-aminoacrylate reaction intermediate, an increased sensitivity to oxidants such as hydrogen peroxide, and loss of substrate selectivity with respect to the sulfur carrier thiocarboxylated CysO. These results highlight features of CysM that might be of particular importance for cysteine biosynthesis under oxidative stress in M. tuberculosis.

Abbreviations: OAS, O-acetyl-l-serine, OPS, O-phospho-l-serine, rmsd, root mean square deviation, PLP, pyridoxal 5′-phosphate, CysO-SH, thiocarboxylated CysO, MtbCysM, CysM from Mycobacterium tuberculosis, EcCysM, CysM from Escherichia coli, MtbCysK1, CysK1 from Mycobacterium tuberculosis.

Keywords: Cysteine synthase, Protein structure, Tuberculosis, Dormancy, Oxidative stress