Crystal structure of a model branchpoint–U2 snRNA duplex containing bulged adenosines

J. ANDREW BERGLUND; MICHAEL ROSBASH; STEVE C. SCHULTZ

doi:10.1017/S1355838201002187

Abstract

Bulged nucleotides play a variety of important roles in RNA structure and function, frequently forming tertiary interactions and sometimes even participating in RNA catalysis. In pre-mRNA splicing, the U2 snRNA base pairs with the intron branchpoint sequence (BPS) to form a short RNA duplex that contains a bulged adenosine that ultimately serves as the nucleophile that attacks the 5′ splice site. We have determined a 2.18-Å resolution crystal structure of a self-complementary RNA designed to mimic the highly conserved yeast (Saccharomyces cerevisiae) branchpoint sequence (5′-UACUAACGUAGUA with the BPS italicized and the branchsite adenosine underlined) base paired with its complementary sequence from U2 snRNA. The structure shows a nearly ideal A-form helix from which two unpaired adenosines flip out. Although the adenosine adjacent to the branchsite adenosine is the one bulged out in the structure described here, either of these adenosines can serve as the nucleophile in mammalian but not in yeast pre-mRNA splicing. In addition, the packing of the bulged RNA helices within the crystal reveals a novel RNA tertiary interaction in which three RNA helices interact through bulged adenosines in the absence of any divalent metal ions.

Crossref Citations

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

Liu, Zhihong Luyten, Ingrid Bottomley, Matthew J. Messias, Ana C. Houngninou-Molango, Sophie Sprangers, Remco Zanier, Katia Krämer, Angela and Sattler, Michael 2001. Structural Basis for Recognition of the Intron Branch Site RNA by Splicing Factor 1. Science, Vol. 294, Issue. 5544, p. 1098.

Zhang, Lan and Doudna, Jennifer A. 2002. Structural Insights into Group II Intron Catalysis and Branch-Site Selection. Science, Vol. 295, Issue. 5562, p. 2084.

Pan, Baocheng Xiong, Yong Shi, Ke and Sundaralingam, Muttaiya 2003. Crystal Structure of a Bulged RNA Tetraplex at 1.1 Å Resolution. Structure, Vol. 11, Issue. 11, p. 1423.

Holmes, Ian 2004. A probabilistic model for the evolution of RNA structure. BMC Bioinformatics, Vol. 5, Issue. 1,

Lacadie, Scott A. and Rosbash, Michael 2005. Cotranscriptional Spliceosome Assembly Dynamics and the Role of U1 snRNA:5′ss Base Pairing in Yeast. Molecular Cell, Vol. 19, Issue. 1, p. 65.

Greenbaum, Nancy L. 2005. Fine-Tuning of RNA Functions by Modification and Editing. Vol. 12, Issue. , p. 205.

SPADACCINI, ROBERTA REIDT, ULRICH DYBKOV, OLEXANDR WILL, CINDY FRANK, RONALD STIER, GUNTER CORSINI, LORENZO WAHL, MARKUS C. LÜHRMANN, REINHARD and SATTLER, MICHAEL 2006. Biochemical and NMR analyses of an SF3b155–p14–U2AF-RNA interaction network involved in branch point definition during pre-mRNA splicing. RNA, Vol. 12, Issue. 3, p. 410.

Nielsen, Henrik and Johansen, Steinar D. 2007. A new RNA branching activity: The GIR1 ribozyme. Blood Cells, Molecules, and Diseases, Vol. 38, Issue. 2, p. 102.

Ballin, Jeff D. Prevas, James P. Bharill, Shashank Gryczynski, Ignacy Gryczynski, Zygmunt and Wilson, Gerald M. 2008. Local RNA Conformational Dynamics Revealed by 2-Aminopurine Solvent Accessibility. Biochemistry, Vol. 47, Issue. 27, p. 7043.

Salon, Jozef Jiang, Jiansheng Sheng, Jia Gerlits, Oksana O. and Huang, Zhen 2008. Derivatization of DNAs with selenium at 6-position of guanine for function and crystal structure studies. Nucleic Acids Research, Vol. 36, Issue. 22, p. 7009.

Lin, Yuan and Kielkopf, Clara L. 2008. X-ray Structures of U2 snRNA−Branchpoint Duplexes Containing Conserved Pseudouridines. Biochemistry, Vol. 47, Issue. 20, p. 5503.

Smith, Duncan J. Konarska, Maria M. and Query, Charles C. 2009. Insights into Branch Nucleophile Positioning and Activation from an Orthogonal Pre-mRNA Splicing System in Yeast. Molecular Cell, Vol. 34, Issue. 3, p. 333.

Ritchie, Dustin B. Schellenberg, Matthew J. and MacMillan, Andrew M. 2009. Spliceosome structure: Piece by piece. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms, Vol. 1789, Issue. 9-10, p. 624.

Karijolich, John Kantartzis, Athena and Yu, Yi-Tao 2010. RNA Therapeutics. Vol. 629, Issue. , p. 1.

Schellenberg, Matthew J. Dul, Erin L. and MacMillan, Andrew M. 2011. Structural model of the p14/SF3b155·branch duplex complex. RNA, Vol. 17, Issue. 1, p. 155.

Van Nostrand, Keith P. Kennedy, Scott D. Turner, Douglas H. and Mathews, David H. 2011. Molecular Mechanics Investigation of an Adenine–Adenine Non-Canonical Pair Conformational Change. Journal of Chemical Theory and Computation, Vol. 7, Issue. 11, p. 3779.

Popović, Milena Nelson, Joycelynn D. Schroeder, Kersten T. and Greenbaum, Nancy L. 2012. Impact of base pair identity 5′ to the spliceosomal branch site adenosine on branch site conformation. RNA, Vol. 18, Issue. 11, p. 2093.

Salon, Jozef Gan, Jianhua Abdur, Rob Liu, Hehua and Huang, Zhen 2013. Synthesis of 6-Se-Guanosine RNAs for Structural Study. Organic Letters, Vol. 15, Issue. 15, p. 3934.

Sun, Huiyan and Huang, Zhen 2013. RNA Nanotechnology and Therapeutics. p. 213.

Krishnan, Ramya Blanco, Mario R Kahlscheuer, Matthew L Abelson, John Guthrie, Christine and Walter, Nils G 2013. Biased Brownian ratcheting leads to pre-mRNA remodeling and capture prior to first-step splicing. Nature Structural & Molecular Biology, Vol. 20, Issue. 12, p. 1450.

Download full list

Article contents

Crystal structure of a model branchpoint–U2 snRNA duplex containing bulged adenosines

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

Crystal structure of a model branchpoint–U2 snRNA duplex containing bulged adenosines

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