Protein Family Models

This domain is found in methionyl tRNA ligase. The domain binds to the anticodon of the tRNA ligase. (from Pfam)

Date:

2024-08-14

This family includes methionyl tRNA synthetases. (from Pfam)

Date:

2024-08-14

This domain is found mainly hydrophobic tRNA synthetases. The domain binds to the anticodon of the tRNA ligase. [1]. 11114335. Structural basis for double-sieve discrimination of L-valine. from L-isoleucine and L-threonine by the complex of tRNA(Val). and valyl-tRNA synthetase.. Fukai S, Nureki O, Sekine S, Shimada A, Tao J, Vassylyev DG,. Yokoyama S;. Cell 2000;103:793-803. (from Pfam)

Date:

2024-08-14

Other tRNA synthetase sub-families are too dissimilar to be included. Paper describing PDB structure 1a8h. [1]. 10673435. The 2.0 A crystal structure of Thermus thermophilus. methionyl-tRNA synthetase reveals two RNA-binding modules.. Sugiura I, Nureki O, Ugaji-Yoshikawa Y, Kuwabara S, Shimada A,. Tateno M, Lorber B, Giege R, Moras D, Yokoyama S, Konno M;. Structure. 2000;8:197-208.. Paper describing PDB structure 1f4l. [2]. 11243794. How methionyl-tRNA synthetase creates its amino acid recognition. pocket upon L-methionine binding.. Serre L, Verdon G, Choinowski T, Hervouet N, Risler JL, Zelwer. C;. J Mol Biol. 2001;306:863-876.. Paper describing PDB structure 1ffy. [3]. 10446055. Insights into editing from an ile-tRNA synthetase structure with. tRNAile and mupirocin.. Silvian LF, Wang J, Steitz TA;. Science. 1999;285:1074-1077.. Paper describing PDB structure 1gax. [4]. 11114335. Structural basis for double-sieve discrimination of L-valine. from L-isoleucine and L-threonine by the complex of tRNA(Val). and valyl-tRNA synthetase.. Fukai S, Nureki O, Sekine S, Shimada A, Tao J, Vassylyev DG,. Yokoyama S;. Cell 2000;103:793-803.. Paper describing PDB structure 1h3n. [5]. 10811626. The 2 A crystal structure of leucyl-tRNA synthetase and its. complex with a leucyl-adenylate analogue.. Cusack S, Yaremchuk A, Tukalo M;. EMBO J. 2000;19:2351-2361. (from Pfam)

Date:

2024-08-14

MetRS; adds methionine to tRNA(Met) with cleavage of ATP to AMP and diphosphate; some MetRS enzymes form dimers depending on a C-terminal domain that is also found in other proteins such as Trbp111 in Aquifex aeolicus and the cold-shock protein CsaA from Bacillus subtilis while others do not; four subfamilies exist based on sequence motifs and zinc content

Gene:

metG

Date:

2021-07-22

methionine--tRNA ligase aminoacylates the 2'-OH of the nucleotide at the 3' of tRNA(Met); it is required for elongation of protein synthesis as well as for the initiation of all mRNA translation through initiator tRNA(fMet) aminoacylation

Date:

2024-04-10

The methionyl-tRNA synthetase (metG) is a class I amino acyl-tRNA ligase. This HMM appears to recognize the methionyl-tRNA synthetase of every species, including eukaryotic cytosolic and mitochondrial forms. The UPGMA difference tree calculated after search and alignment according to this HMM shows an unusual deep split between two families of MetG. One family contains forms from the Archaea, yeast cytosol, spirochetes, and E. coli, among others. The other family includes forms from yeast mitochondrion, Synechocystis sp., Bacillus subtilis, the Mycoplasmas, Aquifex aeolicus, and Helicobacter pylori. The E. coli enzyme is homodimeric, although monomeric forms can be prepared that are fully active. Activity of this enzyme in bacteria includes aminoacylation of fMet-tRNA with Met; subsequent formylation of the Met to fMet is catalyzed by a separate enzyme. Note that the protein from Aquifex aeolicus is split into an alpha (large) and beta (small) subunit; this model does not include the C-terminal region corresponding to the beta chain.

Gene:

metG

Date:

2024-05-13