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Items: 1 to 20 of 139

1.

A multifunctional repeated motif is present in human bifunctional tRNA synthetase.

Rho SB, Lee JS, Jeong EJ, Kim KS, Kim YG, Kim S.

J Biol Chem. 1998 May 1;273(18):11267-73.

2.
3.

Interaction between human tRNA synthetases involves repeated sequence elements.

Rho SB, Lee KH, Kim JW, Shiba K, Jo YJ, Kim S.

Proc Natl Acad Sci U S A. 1996 Sep 17;93(19):10128-33.

4.

C-terminal zinc-containing peptide required for RNA recognition by a class I tRNA synthetase.

Glasfeld E, Landro JA, Schimmel P.

Biochemistry. 1996 Apr 2;35(13):4139-45.

PMID:
8672449
5.

The appended C-domain of human methionyl-tRNA synthetase has a tRNA-sequestering function.

Kaminska M, Shalak V, Mirande M.

Biochemistry. 2001 Nov 27;40(47):14309-16.

PMID:
11714285
6.

A gene fusion event in the evolution of aminoacyl-tRNA synthetases.

Berthonneau E, Mirande M.

FEBS Lett. 2000 Mar 31;470(3):300-4.

7.

Glu-Q-tRNA(Asp) synthetase coded by the yadB gene, a new paralog of aminoacyl-tRNA synthetase that glutamylates tRNA(Asp) anticodon.

Blaise M, Becker HD, Lapointe J, Cambillau C, Giegé R, Kern D.

Biochimie. 2005 Sep-Oct;87(9-10):847-61. Epub 2005 Apr 8.

PMID:
16164993
9.

Heat shock protein 90 mediates protein-protein interactions between human aminoacyl-tRNA synthetases.

Kang J, Kim T, Ko YG, Rho SB, Park SG, Kim MJ, Kwon HJ, Kim S.

J Biol Chem. 2000 Oct 13;275(41):31682-8.

10.
11.

The glutamyl-tRNA synthetase of Escherichia coli contains one atom of zinc essential for its native conformation and its catalytic activity.

Liu J, Lin SX, Blochet JE, Pézolet M, Lapointe J.

Biochemistry. 1993 Oct 26;32(42):11390-6. Erratum in: Biochemistry 1993 Dec 28;32(51):14229.

PMID:
8218204
12.

Modification of aminoacyl-tRNA synthetases with pyridoxal-5'-phosphate. Identification of the labeled amino acid residues.

Kalogerakos T, Hountondji C, Berne PF, Dukta S, Blanquet S.

Biochimie. 1994;76(1):33-44.

PMID:
8031903
14.

Macromolecular assemblage of aminoacyl-tRNA synthetases: identification of protein-protein interactions and characterization of a core protein.

Quevillon S, Robinson JC, Berthonneau E, Siatecka M, Mirande M.

J Mol Biol. 1999 Jan 8;285(1):183-95.

PMID:
9878398
15.

Molecular determinants of the yeast Arc1p-aminoacyl-tRNA synthetase complex assembly.

Karanasios E, Simader H, Panayotou G, Suck D, Simos G.

J Mol Biol. 2007 Dec 7;374(4):1077-90. Epub 2007 Oct 11.

PMID:
17976650
16.

Structural bases of transfer RNA-dependent amino acid recognition and activation by glutamyl-tRNA synthetase.

Sekine S, Shichiri M, Bernier S, Chênevert R, Lapointe J, Yokoyama S.

Structure. 2006 Dec;14(12):1791-9.

17.

The human EPRS locus (formerly the QARS locus): a gene encoding a class I and a class II aminoacyl-tRNA synthetase.

Kaiser E, Hu B, Becher S, Eberhard D, Schray B, Baack M, Hameister H, Knippers R.

Genomics. 1994 Jan 15;19(2):280-90.

PMID:
8188258
18.

The Escherichia coli YadB gene product reveals a novel aminoacyl-tRNA synthetase like activity.

Campanacci V, Dubois DY, Becker HD, Kern D, Spinelli S, Valencia C, Pagot F, Salomoni A, Grisel S, Vincentelli R, Bignon C, Lapointe J, Giegé R, Cambillau C.

J Mol Biol. 2004 Mar 19;337(2):273-83.

PMID:
15003446
19.

Structural basis for the recognition of isoleucyl-adenylate and an antibiotic, mupirocin, by isoleucyl-tRNA synthetase.

Nakama T, Nureki O, Yokoyama S.

J Biol Chem. 2001 Dec 14;276(50):47387-93. Epub 2001 Oct 2.

20.

NMR analyses of the conformations of L-isoleucine and L-valine bound to Escherichia coli isoleucyl-tRNA synthetase.

Kohda D, Kawai G, Yokoyama S, Kawakami M, Mizushima S, Miyazawa T.

Biochemistry. 1987 Oct 6;26(20):6531-8.

PMID:
3322383
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