The ribosomal binding and peptidyl-tRNA hydrolysis functions of Escherichia coli release factor 2 are linked through residue 246

DANIEL N. WILSON; DIANE GUÉVREMONT; WARREN P. TATE

doi:10.1017/S135583820000131X

Abstract

Replacing a cassette of 31 residues from Escherichia coli release factor 1 with the equivalent residues in release factor 2 gave a protein active in codon-specific binding to the ribosome but inactive in peptidyl-tRNA hydrolysis. Such a phenotype is also found unexpectedly with release factor 2 when expressed at high concentration in bacteria. Substituting threonine with the release factor 1 equivalent serine at position 246 within the cassette restored the impaired activity of the chimeric protein, and also that of inactive recombinant release factor 2, both in vitro and in vivo. The differences in activity are not due to posttranslational modifications or a lack of it at this residue. Random mutagenesis of codon 246 suggests that this position is pivotal for the function of the release factor, being able to affect differentially both its binding to the ribosome and its peptide release activities. We propose that amino acid 246 is close to a sharp turn (GGQ motif at position 250), and is essential for transmitting the signal from cognate codon recognition by correctly positioning the peptidyl-tRNA hydrolysis domain of the release factor into the peptidyltransferase center.

Crossref Citations

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

Vestergaard, Bente Van, Lan Bich Andersen, Gregers R Nyborg, Jens Buckingham, Richard H and Kjeldgaard, Morten 2001. Bacterial Polypeptide Release Factor RF2 Is Structurally Distinct from Eukaryotic eRF1. Molecular Cell, Vol. 8, Issue. 6, p. 1375.

Seit-Nebi, Alim Frolova, Ludmila Justesen, Just and Kisselev, Lev 2001. Class-1 translation termination factors: invariant GGQ minidomain is essential for release activity and ribosome binding but not for stop codon recognition. Nucleic Acids Research, Vol. 29, Issue. 19, p. 3982.

Nakahigashi, Kenji Kubo, Naoko Narita, Shin-ichiro Shimaoka, Takeshi Goto, Simon Oshima, Taku Mori, Hirotada Maeda, Maki Wada, Chieko and Inokuchi, Hachiro 2002. HemK, a class of protein methyl transferase with similarity to DNA methyl transferases, methylates polypeptide chain release factors, and hemK knockout induces defects in translational termination . Proceedings of the National Academy of Sciences, Vol. 99, Issue. 3, p. 1473.

Scarlett, Debbie-Jane G. McCaughan, Kim K. Wilson, Daniel N. and Tate, Warren P. 2003. Mapping Functionally Important Motifs SPF and GGQ of the Decoding Release Factor RF2 to the Escherichia coli Ribosome by Hydroxyl Radical Footprinting. Journal of Biological Chemistry, Vol. 278, Issue. 17, p. 15095.

Poole, Elizabeth S Askarian-Amiri, Marjan E Major, Louise L McCaughan, Kim K Scarlett, Debbie-Jane G Wilson, Daniel N and Tate, Warren P 2003. Progress in Nucleic Acid Research and Molecular Biology Volume 74. Vol. 74, Issue. , p. 83.

Márquez, Viter Wilson, Daniel N Tate, Warren P Triana-Alonso, Francisco and Nierhaus, Knud H 2004. Maintaining the Ribosomal Reading Frame. Cell, Vol. 118, Issue. 1, p. 45.

Polacek, Norbert and Mankin, Alexander S. 2005. The Ribosomal Peptidyl Transferase Center: Structure, Function, Evolution, Inhibition. Critical Reviews in Biochemistry and Molecular Biology, Vol. 40, Issue. 5, p. 285.

Poole, Elizabeth S Young, David J Askarian-Amiri, Marjan E Scarlett, Debbie-Jane G and Tate, Warren P 2007. Accommodating the bacterial decoding release factor as an alien protein among the RNAs at the active site of the ribosome. Cell Research, Vol. 17, Issue. 7, p. 591.

Poole, Elizabeth S. Major, Louise L. Cridge, Andrew G. and Tate, Warren P. 2008. Protein Science Encyclopedia. p. 397.

Kutner, Jan Towpik, Joanna Ginalski, Krzysztof and Boguta, Magdalena 2008. Mitochondrial release factor in yeast: interplay of functional domains. Current Genetics, Vol. 53, Issue. 3, p. 185.

Young, David J. Edgar, Christina D. Murphy, Jennifer Fredebohm, Johannes Poole, Elizabeth S. and Tate, Warren P. 2010. Bioinformatic, structural, and functional analyses support release factor-like MTRF1 as a protein able to decode nonstandard stop codons beginning with adenine in vertebrate mitochondria. RNA, Vol. 16, Issue. 6, p. 1146.

Young, David J. Edgar, Christina D. Poole, Elizabeth S. and Tate, Warren P. 2010. The codon specificity of eubacterial release factors is determined by the sequence and size of the recognition loop. RNA, Vol. 16, Issue. 8, p. 1623.

Wang, Li Yang, Fang Zhang, Dejiu Chen, Zhi Xu, Rui-Ming Nierhaus, Knud H Gong, Weimin and Qin, Yan 2012. A conserved proline switch on the ribosome facilitates the recruitment and binding of trGTPases. Nature Structural & Molecular Biology, Vol. 19, Issue. 4, p. 403.

Young, Rosanna E. B. and Purton, Saul 2016. Codon reassignment to facilitate genetic engineering and biocontainment in the chloroplast of Chlamydomonas reinhardtii. Plant Biotechnology Journal, Vol. 14, Issue. 5, p. 1251.

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The ribosomal binding and peptidyl-tRNA hydrolysis functions of Escherichia coli release factor 2 are linked through residue 246

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Article contents

The ribosomal binding and peptidyl-tRNA hydrolysis functions of Escherichia coli release factor 2 are linked through residue 246

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