Loading
PDBj
MenuPDBj@FacebookPDBj@X(formerly Twitter)PDBj@BlueSkyPDBj@YouTubewwPDB FoundationwwPDB
RCSB PDBPDBeBMRBAdv. SearchSearch help

1LUU

NMR SOLUTION STRUCTURE OF THE ANTICODON OF YEAST TRNA-PHE WITH 4 MODIFICATIONS (OMC32 OMG34 1MG37 5MC40)

Summary for 1LUU
Entry DOI10.2210/pdb1luu/pdb
Related1LUX
NMR InformationBMRB: 5531
Descriptor5'-R(*CP*CP*AP*GP*AP*(OMC)P*UP*(OMG)P*AP*AP*(1MG)P*AP*UP*(5MC)P*UP*GP*G)-3' (1 entity in total)
Functional Keywordstrna, anticodon stem loop, trna domain, rna hairpin, 1mg, 2'-o-methyl, 5mc, rna
Total number of polymer chains1
Total formula weight5522.43
Authors
Stuart, J.W.,Koshlap, K.M.,Guenther, R.H.,Agris, P.F. (deposition date: 2002-05-23, release date: 2003-09-09, Last modification date: 2024-05-22)
Primary citationStuart, J.W.,Koshlap, K.M.,Guenther, R.,Agris, P.F.
Naturally-occurring Modification Restricts the Anticodon Domain Conformational Space of tRNA(Phe).
J.Mol.Biol., 334:901-918, 2003
Cited by
PubMed Abstract: Post-transcriptional modifications contribute chemistry and structure to RNAs. Modifications of tRNA at nucleoside 37, 3'-adjacent to the anticodon, are particularly interesting because they facilitate codon recognition and negate translational frame-shifting. To assess if the functional contribution of a position 37-modified nucleoside defines a specific structure or restricts conformational flexibility, structures of the yeast tRNA(Phe) anticodon stem and loop (ASL(Phe)) with naturally occurring modified nucleosides differing only at position 37, ASL(Phe)-(Cm(32),Gm(34),m(5)C(40)), and ASL(Phe)-(Cm(32),Gm(34),m(1)G(37),m(5)C(40)), were determined by NMR spectroscopy and restrained molecular dynamics. The ASL structures had similarly resolved stems (RMSD approximately 0.6A) of five canonical base-pairs in standard A-form RNA. The "NOE walk" was evident on the 5' and 3' sides of the stems of both RNAs, and extended to the adjacent loop nucleosides. The NOESY cross-peaks involving U(33) H2' and characteristic of tRNA's anticodon domain U-turn were present but weak, whereas those involving the U(33) H1' proton were absent from the spectra of both ASLs. However, ASL(Phe)-(Cm(32),Gm(34),m(1)G(37),m(5)C(40)) exhibited the downfield shifted 31P resonance of U(33)pGm(34) indicative of U-turns; ASL(Phe)-(Cm(32),Gm(34),m(5)C(40)) did not. An unusual "backwards" NOE between Gm(34) and A(35) (Gm(34)/H8 to A(35)/H1') was observed in both molecules. The RNAs exhibited a protonated A(+)(38) resulting in the final structures having C(32).A(+)(38) intra-loop base-pairs, with that of ASL(Phe)-(Cm(32),Gm(34),m(1)G(37),m(5)C(40)) being especially well defined. A single family of low-energy structures of ASL(Phe)-(Cm(32),Gm(34), m(1)G(37),m(5)C(40)) (loop RMSD 0.98A) exhibited a significantly restricted conformational space for the anticodon loop in comparison to that of ASL(Phe)-(Cm(32),Gm(34),m(5)C(40)) (loop RMSD 2.58A). In addition, the ASL(Phe)-(Cm(32),Gm(34),m(1)G(37),m(5)C(40)) average structure had a greater degree of similarity to that of the yeast tRNA(Phe) crystal structure. A comparison of the resulting structures indicates that modification of position 37 affects the accuracy of decoding and the maintenance of the mRNA reading frame by restricting anticodon loop conformational space.
PubMed: 14643656
DOI: 10.1016/j.jmb.2003.09.058
PDB entries with the same primary citation
Experimental method
SOLUTION NMR
Structure validation

227561

PDB entries from 2024-11-20

PDB statisticsPDBj update infoContact PDBjnumon