Structure and stability of variants of the sarcin-ricin loop of 28S rRNA: NMR studies of the prokaryotic SRL and a functional mutant

KATHY SEGGERSON; PETER B. MOORE

doi:10.1017/S1355838298980773

Abstract

NMR has been used to examine the conformational properties of two variants of the sarcin-ricin loop (SRL) from eukaryotic 28S rRNA, which is essential for elongation factor interactions with the ribosome: (1) its bacterial homologue, which lacks two of the bases that flank the conserved 12-nt sequence in the middle of the SRL, but which is functionally equivalent, and (2) a functionally active variant of the eukaryotic SRL in which the bulged G within the conserved sequence is replaced by an A. The data indicate that, although the bacterial SRL is less stable than the eukaryotic SRL, its conformation is closely similar. Furthermore, even though replacement of the bulged G in the SRL with an A seriously destabilizes the center of the loop, its effect on the overall conformation of the SRL appears to be modest. In the course of this work, it was serendipitously discovered that at neutral pH, the C8 proton of the bulged G, in both PRO-SRL and E73, exchanges about 10 times faster than it does in GMP.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Agrawal, Rajendra K and Frank, Joachim 1999. Structural studies of the translational apparatus. Current Opinion in Structural Biology, Vol. 9, Issue. 2, p. 215.

Leontis, N. B. and Westhof, E. 1999. RNA Biochemistry and Biotechnology. p. 45.

Correll, Carl C Wool, Ira G and Munishkin, Alexander 1999. The two faces of the Escherichia coli 23 S rRNA sarcin/ricin domain: the structure at 1.11 Å resolution 1 1Edited by D. E. Draper. Journal of Molecular Biology, Vol. 292, Issue. 2, p. 275.

Moore, P. B. 1999. Structural Motifs in RNA. Annual Review of Biochemistry, Vol. 68, Issue. 1, p. 287.

Fabris, Daniele 2000. Steady-State Kinetics of Ricin A-Chain Reaction with the Sarcin−Ricin Loop and with HIV-1 Ψ-RNA Hairpins Evaluated by Direct Infusion Electrospray Ionization Mass Spectrometry. Journal of the American Chemical Society, Vol. 122, Issue. 36, p. 8779.

Kao, Richard and Davies, Julian 2000. Single amino acid substitutions affecting the specificity of the fungal ribotoxin mitogillin. FEBS Letters, Vol. 466, Issue. 1, p. 87.

Hellen, Christopher U.T. and Sarnow, Peter 2001. Internal ribosome entry sites in eukaryotic mRNA molecules. Genes & Development, Vol. 15, Issue. 13, p. 1593.

Uchiumi, Toshio Honma, Sachiko Endo, Yaeta and Hachimori, Akira 2002. Ribosomal Proteins at the Stalk Region Modulate Functional rRNA Structures in the GTPase Center. Journal of Biological Chemistry, Vol. 277, Issue. 44, p. 41401.

CORRELL, CARL C. and SWINGER, KERREN 2003. Common and distinctive features of GNRA tetraloops based on a GUAA tetraloop structure at 1.4 Å resolution. RNA, Vol. 9, Issue. 3, p. 355.

García‐Mayoral, Ma Flor García‐Ortega, Lucia Lillo, Ma Pilar Santoro, Jorge Martínez Del Pozo, Álvaro Gavilanes, José G. Rico, Manuel and Bruix, Marta 2004. NMR structure of the noncytotoxic α‐sarcin mutant Δ(7‐22): The importance of the native conformation of peripheral loops for activity. Protein Science, Vol. 13, Issue. 4, p. 1000.

García-Mayoral, Flor García-Ortega, Lucía Álvarez-García, Elisa Bruix, Marta Gavilanes, José G. and Martínez del Pozo, Álvaro 2005. Modeling the highly specific ribotoxin recognition of ribosomes. FEBS Letters, Vol. 579, Issue. 30, p. 6859.

Lee, Hunjoong Diavatis, Theodore Tennakoon, Sanka Yu, Peilin and Gao, Xiaolian 2007. Solution structure of DNA/RNA hybrid duplex with C8-propynyl 2′-deoxyadenosine modifications: Implication of RNase H and DNA/RNA duplex interaction. Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, Vol. 1769, Issue. 1, p. 20.

Sripakdeevong, Parin Beauchamp, Kyle and Das, Rhiju 2012. RNA 3D Structure Analysis and Prediction. Vol. 27, Issue. , p. 43.

Zhong, Cuncong and Zhang, Shaojie 2012. Clustering RNA structural motifs in ribosomal RNAs using secondary structural alignment. Nucleic Acids Research, Vol. 40, Issue. 3, p. 1307.

Wool, Ira G. Correll, Carl C. and Chan, Yuen-Ling 2014. The Ribosome. p. 461.

Grela, Przemysław Szajwaj, Monika Horbowicz-Drożdżal, Patrycja and Tchórzewski, Marek 2019. How Ricin Damages the Ribosome. Toxins, Vol. 11, Issue. 5, p. 241.

ENDO, Yaeta 2021. Development of a cell-free protein synthesis system for practical use. Proceedings of the Japan Academy, Series B, Vol. 97, Issue. 5, p. 261.

Khisamutdinov, Emil F Sweeney, Blake A and Leontis, Neocles B 2021. Context-sensitivity of isosteric substitutions of non-Watson–Crick basepairs in recurrent RNA 3D motifs. Nucleic Acids Research, Vol. 49, Issue. 16, p. 9574.

Yang, Zhifang Wang, Chenyu Xiao, Lan Wang, Chuang Tang, Li Guo, Lei and Xie, Jianwei 2023. SCX-tip-aided LC-MS detection of active ricinviaoligonucleotide substrates for depurination kinetics. The Analyst, Vol. 148, Issue. 12, p. 2782.

Article contents

Structure and stability of variants of the sarcin-ricin loop of 28S rRNA: NMR studies of the prokaryotic SRL and a functional mutant

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Structure and stability of variants of the sarcin-ricin loop of 28S rRNA: NMR studies of the prokaryotic SRL and a functional mutant

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests