Active Site of Lysyl-tRNA Synthetase: Structural Studies of the Adenylation Reaction

Aminoacyl-tRNA synthetases play a key role in protein biosynthesis by catalyzing the specific aminoacylation of tRNA. The energy required for the formation of the ester bond between the amino acid carboxylate group and the tRNA acceptor stem is supplied by coupling the reaction to the hydrolysis of...

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Veröffentlicht in:	Biochemistry (Easton) 2000-07, Vol.39 (29), p.8418-8425
Hauptverfasser:	Desogus, Gianluigi, Todone, Flavia, Brick, Peter, Onesti, Silvia
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine Triphosphate - analogs & derivatives Adenosine Triphosphate - metabolism Amino Acid Sequence Amino Acyl-tRNA Synthetases - genetics Catalytic Domain Crystallography, X-Ray Escherichia coli Escherichia coli - enzymology Escherichia coli - genetics Ligands Lysine - metabolism Lysine-tRNA Ligase - chemistry Lysine-tRNA Ligase - genetics Lysine-tRNA Ligase - metabolism LysU protein Models, Molecular Molecular Sequence Data Protein Conformation Recombinant Proteins - chemistry Recombinant Proteins - genetics Recombinant Proteins - metabolism Sequence Homology, Amino Acid Static Electricity
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creator	Desogus, Gianluigi Todone, Flavia Brick, Peter Onesti, Silvia
description	Aminoacyl-tRNA synthetases play a key role in protein biosynthesis by catalyzing the specific aminoacylation of tRNA. The energy required for the formation of the ester bond between the amino acid carboxylate group and the tRNA acceptor stem is supplied by coupling the reaction to the hydrolysis of ATP. Lysyl-tRNA synthetase from Escherichia coli belongs to the family of class II synthetases and carries out a two-step reaction, in which lysine is activated by being attached to the α-phosphate of AMP before being transferred to the cognate tRNA. Crystals of the thermo-inducible E. coli lysyl-tRNA synthetase LysU which diffract to 2.1 Å resolution have been used to determine crystal structures of the enzyme in the presence of lysine, the lysyl−adenylate intermediate, and the nonhydrolyzable ATP analogue AMP-PCP. Additional data have been obtained from crystals soaked in a solution containing ATP and Mn2+. The refined crystal structures give “snapshots” of the active site corresponding to key steps in the aminoacylation reaction and provide the structural framework for understanding the mechanism of lysine activation. The active site of LysU is shaped to position the substrates for the nucleophilic attack of the lysine carboxylate on the ATP α-phosphate. No residues are directly involved in catalysis, but a number of highly conserved amino acids and three metal ions coordinate the substrates and stabilize the pentavalent transition state. A loop close to the catalytic pocket, disordered in the lysine-bound structure, becomes ordered upon adenine binding.
doi_str_mv	10.1021/bi0006722
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The energy required for the formation of the ester bond between the amino acid carboxylate group and the tRNA acceptor stem is supplied by coupling the reaction to the hydrolysis of ATP. Lysyl-tRNA synthetase from Escherichia coli belongs to the family of class II synthetases and carries out a two-step reaction, in which lysine is activated by being attached to the α-phosphate of AMP before being transferred to the cognate tRNA. Crystals of the thermo-inducible E. coli lysyl-tRNA synthetase LysU which diffract to 2.1 Å resolution have been used to determine crystal structures of the enzyme in the presence of lysine, the lysyl−adenylate intermediate, and the nonhydrolyzable ATP analogue AMP-PCP. Additional data have been obtained from crystals soaked in a solution containing ATP and Mn2+. The refined crystal structures give “snapshots” of the active site corresponding to key steps in the aminoacylation reaction and provide the structural framework for understanding the mechanism of lysine activation. The active site of LysU is shaped to position the substrates for the nucleophilic attack of the lysine carboxylate on the ATP α-phosphate. No residues are directly involved in catalysis, but a number of highly conserved amino acids and three metal ions coordinate the substrates and stabilize the pentavalent transition state. A loop close to the catalytic pocket, disordered in the lysine-bound structure, becomes ordered upon adenine binding.</description><subject>Adenosine Triphosphate - analogs & derivatives</subject><subject>Adenosine Triphosphate - metabolism</subject><subject>Amino Acid Sequence</subject><subject>Amino Acyl-tRNA Synthetases - genetics</subject><subject>Catalytic Domain</subject><subject>Crystallography, X-Ray</subject><subject>Escherichia coli</subject><subject>Escherichia coli - enzymology</subject><subject>Escherichia coli - genetics</subject><subject>Ligands</subject><subject>Lysine - metabolism</subject><subject>Lysine-tRNA Ligase - chemistry</subject><subject>Lysine-tRNA Ligase - genetics</subject><subject>Lysine-tRNA Ligase - metabolism</subject><subject>LysU protein</subject><subject>Models, Molecular</subject><subject>Molecular Sequence Data</subject><subject>Protein Conformation</subject><subject>Recombinant Proteins - chemistry</subject><subject>Recombinant Proteins - genetics</subject><subject>Recombinant Proteins - metabolism</subject><subject>Sequence Homology, Amino Acid</subject><subject>Static Electricity</subject><issn>0006-2960</issn><issn>1520-4995</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqF0MFu1DAQBmCroqJL4cALoFyoxCHt2HHsDbdVVUqliKJmERUXa9aZiJRs0toOIjeufU2epF6lqjggcfJ45tNY_hl7zeGYg-AnmxYAlBZijy14LiCVRZE_Y4tdNxWFggP2wvubeJWg5XN2wKHgmZB6wb6ubGh_UlK1gZKhScrJT10arj6tkmrqw3cK6On9n9_3SRXcaMPosIvlWLfkdz6KZFVTP3UY2qFPrgjtrnjJ9hvsPL16PA_Zlw9n69OPaXl5fnG6KlOUUoVU1WRJWSUL23BE3iw131jIARFIgJSomyISkSEVtdYUv1tncmMLgQBLlR2yo3nvrRvuRvLBbFtvqeuwp2H0RnOhNHDxX8i1zmNSywjfzdC6wXtHjbl17RbdZDiYXdzmKe5o3zwuHTdbqv-Sc74RpDNofaBfT3N0P4zSmc7N-nNlvpVyWVb82qyjfzt7tN7cDKPrY3j_ePgB9L-Vrg</recordid><startdate>20000725</startdate><enddate>20000725</enddate><creator>Desogus, Gianluigi</creator><creator>Todone, Flavia</creator><creator>Brick, Peter</creator><creator>Onesti, Silvia</creator><general>American Chemical Society</general><scope>BSCLL</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TM</scope><scope>7X8</scope></search><sort><creationdate>20000725</creationdate><title>Active Site of Lysyl-tRNA Synthetase: Structural Studies of the Adenylation Reaction</title><author>Desogus, Gianluigi ; Todone, Flavia ; Brick, Peter ; Onesti, Silvia</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a446t-6dece6c649cf1aa1f871bc050aa0e2044a7f9ece23ae9d77e021d34bc92a00863</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2000</creationdate><topic>Adenosine Triphosphate - analogs & derivatives</topic><topic>Adenosine Triphosphate - metabolism</topic><topic>Amino Acid Sequence</topic><topic>Amino Acyl-tRNA Synthetases - genetics</topic><topic>Catalytic Domain</topic><topic>Crystallography, X-Ray</topic><topic>Escherichia coli</topic><topic>Escherichia coli - enzymology</topic><topic>Escherichia coli - genetics</topic><topic>Ligands</topic><topic>Lysine - metabolism</topic><topic>Lysine-tRNA Ligase - chemistry</topic><topic>Lysine-tRNA Ligase - genetics</topic><topic>Lysine-tRNA Ligase - metabolism</topic><topic>LysU protein</topic><topic>Models, Molecular</topic><topic>Molecular Sequence Data</topic><topic>Protein Conformation</topic><topic>Recombinant Proteins - chemistry</topic><topic>Recombinant Proteins - genetics</topic><topic>Recombinant Proteins - metabolism</topic><topic>Sequence Homology, Amino Acid</topic><topic>Static Electricity</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Desogus, Gianluigi</creatorcontrib><creatorcontrib>Todone, Flavia</creatorcontrib><creatorcontrib>Brick, Peter</creatorcontrib><creatorcontrib>Onesti, Silvia</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Nucleic Acids Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>Biochemistry (Easton)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Desogus, Gianluigi</au><au>Todone, Flavia</au><au>Brick, Peter</au><au>Onesti, Silvia</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Active Site of Lysyl-tRNA Synthetase: Structural Studies of the Adenylation Reaction</atitle><jtitle>Biochemistry (Easton)</jtitle><addtitle>Biochemistry</addtitle><date>2000-07-25</date><risdate>2000</risdate><volume>39</volume><issue>29</issue><spage>8418</spage><epage>8425</epage><pages>8418-8425</pages><issn>0006-2960</issn><eissn>1520-4995</eissn><abstract>Aminoacyl-tRNA synthetases play a key role in protein biosynthesis by catalyzing the specific aminoacylation of tRNA. The energy required for the formation of the ester bond between the amino acid carboxylate group and the tRNA acceptor stem is supplied by coupling the reaction to the hydrolysis of ATP. Lysyl-tRNA synthetase from Escherichia coli belongs to the family of class II synthetases and carries out a two-step reaction, in which lysine is activated by being attached to the α-phosphate of AMP before being transferred to the cognate tRNA. Crystals of the thermo-inducible E. coli lysyl-tRNA synthetase LysU which diffract to 2.1 Å resolution have been used to determine crystal structures of the enzyme in the presence of lysine, the lysyl−adenylate intermediate, and the nonhydrolyzable ATP analogue AMP-PCP. Additional data have been obtained from crystals soaked in a solution containing ATP and Mn2+. The refined crystal structures give “snapshots” of the active site corresponding to key steps in the aminoacylation reaction and provide the structural framework for understanding the mechanism of lysine activation. The active site of LysU is shaped to position the substrates for the nucleophilic attack of the lysine carboxylate on the ATP α-phosphate. No residues are directly involved in catalysis, but a number of highly conserved amino acids and three metal ions coordinate the substrates and stabilize the pentavalent transition state. A loop close to the catalytic pocket, disordered in the lysine-bound structure, becomes ordered upon adenine binding.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>10913247</pmid><doi>10.1021/bi0006722</doi><tpages>8</tpages></addata></record>
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subjects	Adenosine Triphosphate - analogs & derivatives Adenosine Triphosphate - metabolism Amino Acid Sequence Amino Acyl-tRNA Synthetases - genetics Catalytic Domain Crystallography, X-Ray Escherichia coli Escherichia coli - enzymology Escherichia coli - genetics Ligands Lysine - metabolism Lysine-tRNA Ligase - chemistry Lysine-tRNA Ligase - genetics Lysine-tRNA Ligase - metabolism LysU protein Models, Molecular Molecular Sequence Data Protein Conformation Recombinant Proteins - chemistry Recombinant Proteins - genetics Recombinant Proteins - metabolism Sequence Homology, Amino Acid Static Electricity
title	Active Site of Lysyl-tRNA Synthetase: Structural Studies of the Adenylation Reaction
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