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1X8X

Tyrosyl t-RNA Synthetase from E.coli Complexed with Tyrosine

Summary for 1X8X
Entry DOI10.2210/pdb1x8x/pdb
DescriptorTyrosyl-tRNA synthetase, SULFATE ION, TYROSINE, ... (4 entities in total)
Functional Keywordsligase, riken structural genomics/proteomics initiative, rsgi, structural genomics
Biological sourceEscherichia coli
Cellular locationCytoplasm: P00951
Total number of polymer chains1
Total formula weight36351.03
Authors
Kobayashi, T.,Takimura, T.,Sekine, R.,Kelly, V.P.,Kamata, K.,Sakamoto, K.,Nishimura, S.,Yokoyama, S.,RIKEN Structural Genomics/Proteomics Initiative (RSGI) (deposition date: 2004-08-19, release date: 2005-01-25, Last modification date: 2024-03-13)
Primary citationKobayashi, T.,Takimura, T.,Sekine, R.,Kelly, V.P.,Kamata, K.,Sakamoto, K.,Nishimura, S.,Yokoyama, S.
Structural Snapshots of the KMSKS Loop Rearrangement for Amino Acid Activation by Bacterial Tyrosyl-tRNA Synthetase
J.MOL.BIOL., 346:105-117, 2005
Cited by
PubMed Abstract: Tyrosyl-tRNA synthetase (TyrRS) has been studied extensively by mutational and structural analyses to elucidate its catalytic mechanism. TyrRS has the HIGH and KMSKS motifs that catalyze the amino acid activation with ATP. In the present study, the crystal structures of the Escherichia coli TyrRS catalytic domain, in complexes with l-tyrosine and a l-tyrosyladenylate analogue, Tyr-AMS, were solved at 2.0A and 2.7A resolution, respectively. In the Tyr-AMS-bound structure, the 2'-OH group and adenine ring of the Tyr-AMS are strictly recognized by hydrogen bonds. This manner of hydrogen-bond recognition is conserved among the class I synthetases. Moreover, a comparison between the two structures revealed that the KMSKS loop is rearranged in response to adenine moiety binding and hydrogen-bond formation, and the KMSKS loop adopts the more compact ("semi-open") form, rather than the flexible, open form. The HIGH motif initially recognizes the gamma-phosphate, and then the alpha and gamma-phosphates of ATP, with a slight rearrangement of the residues. The other residues around the substrate also accommodate the Tyr-AMS. This induced-fit form presents a novel "snapshot" of the amino acid activation step in the aminoacylation reaction by TyrRS. The present structures and the T.thermophilus TyrRS ATP-free and bound structures revealed that the extensive induced-fit conformational changes of the KMSKS loop and the local conformational changes within the substrate binding site form the basis for driving the amino acid activation step: the KMSKS loop adopts the open form, transiently shifts to the semi-open conformation according to the adenosyl moiety binding, and finally assumes the rigid ATP-bound, closed form. After the amino acid activation, the KMSKS loop adopts the semi-open form again to accept the CCA end of tRNA for the aminoacyl transfer reaction.
PubMed: 15663931
DOI: 10.1016/j.jmb.2004.11.034
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2 Å)
Structure validation

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