Publications

• Structures along the catalytic pathway of PrmC/HemK, an N5-glutamine AdoMet-dependent methyltransferase.

  Schubert H.L., Phillips J.D., Hill C.P.

  Posttranslational methylation of release factors on the glutamine residue of a conserved GGQ motif is required for efficient termination of protein synthesis. This methylation is performed by an N(5)-glutamine methyltransferase called PrmC/HemK, whose crystal structure we report here at 2.2 A reso ... >> More

  Posttranslational methylation of release factors on the glutamine residue of a conserved GGQ motif is required for efficient termination of protein synthesis. This methylation is performed by an N(5)-glutamine methyltransferase called PrmC/HemK, whose crystal structure we report here at 2.2 A resolution. The electron density at the active site appears to contain a mixture of the substrates, S-adenosyl-L-methionine (AdoMet) and glutamine, and the products, S-adenosyl-L-homocysteine (AdoHcy) and N(5)-methylglutamine. The C-terminal domain of PrmC adopts the canonical AdoMet-dependent methyltransferase fold and shares structural similarity with the nucleotide N-methyltransferases in the active site, including use of a conserved (D/N)PPY motif to select and position the glutamine substrate. Residues of the PrmC (197)NPPY(200) motif form hydrogen bonds that position the planar Gln side chain such that the lone-pair electrons on the nitrogen nucleophile are oriented toward the methyl group of AdoMet. In the product complex, the methyl group remains pointing toward the sulfur, consistent with either an sp(3)-hybridized, positively charged Gln nitrogen, or a neutral sp(2)-hybridized nitrogen in a strained conformation. Due to steric overlap within the active site, proton loss and formation of the neutral planar methylamide product are likely to occur during or after product release. These structures, therefore, represent intermediates along the catalytic pathway of PrmC and show how the (D/N)PPY motif can be used to select a wide variety substrates. << Less

  Biochemistry 42:5592-5599(2003) [PubMed] [EuropePMC]

• The hemK gene in Escherichia coli encodes the N(5)-glutamine methyltransferase that modifies peptide release factors.

  Heurgue-Hamard V., Champ S., Engstroem A., Ehrenberg M., Buckingham R.H.

  Class 1 peptide release factors (RFs) in Escherichia coli are N(5)-methylated on the glutamine residue of the universally conserved GGQ motif. One other protein alone has been shown to contain N(5)-methylglutamine: E.coli ribosomal protein L3. We identify the L3 methyltransferase as YfcB and show ... >> More

  Class 1 peptide release factors (RFs) in Escherichia coli are N(5)-methylated on the glutamine residue of the universally conserved GGQ motif. One other protein alone has been shown to contain N(5)-methylglutamine: E.coli ribosomal protein L3. We identify the L3 methyltransferase as YfcB and show that it methylates ribosomes from a yfcB strain in vitro, but not RF1 or RF2. HemK, a close orthologue of YfcB, is shown to methylate RF1 and RF2 in vitro. hemK is immediately downstream of and co-expressed with prfA. Its deletion in E.coli K12 leads to very poor growth on rich media and abolishes methylation of RF1. The activity of unmethylated RF2 from K12 strains is extremely low due to the cumulative effects of threonine at position 246, in place of alanine or serine present in all other bacterial RFs, and the lack of N(5)-methylation of Gln252. Fast-growing spontaneous revertants in hemK K12 strains contain the mutations Thr246Ala or Thr246Ser in RF2. HemK and YfcB are the first identified methyltransferases modifying glutamine, and are widely distributed in nature. << Less

  EMBO J. 21:769-778(2002) [PubMed] [EuropePMC]

  This publication is cited by 1 other entry.

• Structural characterization and comparative phylogenetic analysis of Escherichia coli HemK, a protein (N5)-glutamine methyltransferase.

  Yang Z., Shipman L., Zhang M., Anton B.P., Roberts R.J., Cheng X.

  Protein glutamine methylation at GGQ sites of protein chain release factors plays a pivotal role in the termination of translation. We report here the crystal structure of the Escherichia coli HemK protein (N5)-glutamine methyltransferase (MTase) in a binary complex with the methyl-donor product S ... >> More

  Protein glutamine methylation at GGQ sites of protein chain release factors plays a pivotal role in the termination of translation. We report here the crystal structure of the Escherichia coli HemK protein (N5)-glutamine methyltransferase (MTase) in a binary complex with the methyl-donor product S-adenosyl-L-homocysteine (AdoHcy). HemK contains two domains: a putative substrate binding domain at the N terminus consisting of a five helix bundle and a seven-stranded catalytic domain at the C terminus that harbors the binding site for AdoHcy. The two domains are linked by a beta-hairpin. Structure-guided sequence analysis of the HemK family revealed 11 invariant residues functioning in methyl-donor binding and catalysis of methyl transfer. The putative substrate-binding domains of HemK from E.coli and Thermotoga maritima are structurally similar, despite the fact that they share very little sequence similarity. When the two proteins are aligned structurally, the helical N-terminal domain is subject to approximately 10 degrees of hinge movement relative to the C-terminal domain. The apparent hinge mobility of the two domains may reflect functional importance during the reaction cycle. Comparative phylogenetic analysis of the hemK gene and its frequent neighbor gene, prfA, which encodes a major substrate, provides evidence for several examples of lateral gene transfer. << Less

  J. Mol. Biol. 340:695-706(2004) [PubMed] [EuropePMC]

• X-ray crystallographic studies of HemK from Thermotoga maritima, an N5-glutamine methyltransferase.

  Yoon H.J., Kang K.Y., Ahn H.J., Shim S.M., Ha J.Y., Lee S.K., Mikami B., Suh S.W.

  The enzyme HemK (or PrmC) is one of the first identified methyltransferases that modify glutamine. It methylates the highly conserved GGQ motif in class I release factors (RF1 and RF2) in Escherichia coli. HemK from Thermotoga maritima was over-expressed and crystallized in the presence of S-adeno ... >> More

  The enzyme HemK (or PrmC) is one of the first identified methyltransferases that modify glutamine. It methylates the highly conserved GGQ motif in class I release factors (RF1 and RF2) in Escherichia coli. HemK from Thermotoga maritima was over-expressed and crystallized in the presence of S-adenosylmethionine at 296 K using ammonium sulfate as the precipitant. X-ray diffraction data were collected to 2.5 A resolution from a native crystal. The crystal is orthorhombic, belonging to the space group I222 (or I2(1)2(1)2(1)), with unit-cell parameters of a = 104.24, b = 118.73, and c = 146.62 A. Two (or three) monomers of recombinant HemK are likely to be present in the crystallographic asymmetric unit, giving a V(M) of 3.62 A3 Da(-1) (or 2.41 A3 Da(-1)), with a solvent content of 62.7% (or 44.0%). << Less

  Mol. Cells 16:266-269(2003) [PubMed] [EuropePMC]