Unknown

Dataset Information

0

Generating enzyme and radical-mediated bisubstrates as tools for investigating Gcn5-related N-acetyltransferases.

ABSTRACT: Gcn5-related N-acetyltransferases (GNATs) are found in all kingdoms of life and catalyze important acyl transfer reactions in diverse cellular processes. While many 3D structures of GNATs have been determined, most do not contain acceptor substrates in their active sites. To expand upon existing crystallographic strategies for improving acceptor-bound GNAT structures, we synthesized peptide substrate analogs and reacted them with CoA in PA4794 protein crystals. We found two separate mechanisms for bisubstrate formation: (a) a novel X-ray induced radical-mediated alkylation of CoA with an alkene peptide and (b) direct alkylation of CoA with a halogenated peptide. Our approach is widely applicable across the GNAT superfamily and can be used to improve the success rate of obtaining liganded structures of other acyltransferases.

SUBMITTER: Reidl C 

PROVIDER: S-EPMC5578807 | biostudies-literature | 2017 Aug

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Generating enzyme and radical-mediated bisubstrates as tools for investigating Gcn5-related N-acetyltransferases.

Reidl Cory C   Majorek Karolina A KA   Dang Joseph J   Tran David D   Jew Kristen K   Law Melissa M   Payne Yasmine Y   Minor Wladek W   Becker Daniel P DP   Kuhn Misty L ML  

FEBS letters 20170801 15

Gcn5-related N-acetyltransferases (GNATs) are found in all kingdoms of life and catalyze important acyl transfer reactions in diverse cellular processes. While many 3D structures of GNATs have been determined, most do not contain acceptor substrates in their active sites. To expand upon existing crystallographic strategies for improving acceptor-bound GNAT structures, we synthesized peptide substrate analogs and reacted them with CoA in PA4794 protein crystals. We found two separate mechanisms f  ...[more]

Similar Datasets

Unknown Bacterial GCN5-Related N-Acetyltransferases: From Resistance to Regulation.
| S-EPMC4795176 | biostudies-literature
Unknown Structure and Functional Diversity of GCN5-Related N-Acetyltransferases (GNAT).
| S-EPMC4964394 | biostudies-literature
Unknown Small-Molecule Acetylation by GCN5-Related <i>N</i>-Acetyltransferases in Bacteria.
| S-EPMC7160885 | biostudies-literature
Unknown Gcn5-Related <i>N-</i>Acetyltransferases (GNATs) With a Catalytic Serine Residue Can Play Ping-Pong Too.
| S-EPMC8072286 | biostudies-literature
Unknown Functional antagonism between Sas3 and Gcn5 acetyltransferases and ISWI chromatin remodelers.
| S-EPMC3464200 | biostudies-literature
Unknown Activity-based substrate profiling for Gcn5-related N-acetyltransferases: the use of chloroacetyl-coenzyme A to identify protein substrates.
| S-EPMC2569866 | biostudies-literature
Unknown Broad-substrate screen as a tool to identify substrates for bacterial Gcn5-related N-acetyltransferases with unknown substrate specificity.
| S-EPMC3588918 | biostudies-literature
Unknown Influenza A virus nucleoprotein is acetylated by histone acetyltransferases PCAF and GCN5.
| S-EPMC5950015 | biostudies-literature
Unknown Acetyltransferases GCN5 and PCAF Are Required for B Lymphocyte Maturation in Mice.
| S-EPMC8773862 | biostudies-literature
Unknown Pair of unusual GCN5 histone acetyltransferases and ADA2 homologues in the protozoan parasite Toxoplasma gondii.
| S-EPMC1360262 | biostudies-literature