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Title: Structural and functional studies of serine acetyltransferase isoform from Entamoeba histolytica reveals novel role of the C-terminal tail in loss of regulation from feedback inhibition. Author: Dharavath S, Kumari K, Kumar S, Gourinath S. Journal: Int J Biol Macromol; 2022 Sep 30; 217():689-700. PubMed ID: 35853506. Abstract: Serine acetyltransferase (SAT) catalyzes the acetylation of l-serine in the first step of the two-step pathway to synthesize L-cysteine in bacteria, protozoans and plants. L-cysteine is known to be involved in feedback regulation of SAT. However, in E. histolytica, SAT exists in three isoforms where third isoform SAT3 is nearly insensitive to feedback inhibition. Here, we explored the previously unknown precise mechanism of the insensitivity of EhSAT3 to L-cysteine. The C-terminal deletion mutants of EhSAT3 were inhibited completely by L-cysteine in contrast to the wildtype EhSAT3. The crystal structure of EhSAT3ΔC22 in complex with cysteine revealed that C-terminal region swaps over the neighboring monomer in the trimer. This structure combined with the modeled C-terminal residues suggests that EhSAT3 C-terminal end interacts with the active site and play crucial role in feedback inhibition. The interacting distances between sulfur of cysteine and protein indicate cysteine is in deprotonated (S-) state, thus making stronger interactions than serine. In the full length SAT3, C-terminal tail provides an acidic environment at the active site pocket, so that cysteine can't be deprotonated and bind strongly at the active site. These results conveyed a unique role of the C-terminal region of EhSAT3 in regulating the feedback inhibition.[Abstract] [Full Text] [Related] [New Search]