Variation in sequence and organization of splicing regulatory elements in vertebrate genes

doi:10.1073/pnas.0404901101

Published online on October 25, 2004, 10.1073/pnas.0404901101 OPEN ACCESS ARTICLE

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Genetics
Variation in sequence and organization of splicing regulatory elements in vertebrate genes

( Fugu | zebrafish | G triplets | exonic splicing enhancers | intronic splicing enhancers )

Gene Yeo * ${dagger}$ , Shawn Hoon ${ddagger}$ , Byrappa Venkatesh ${ddagger}$ , and Christopher B. Burge * ${sect}$

Departments of ^*Biology and Brain and Cognitive Sciences, Massachusetts Institute of Technology, 77 Massachusetts Avenue 68-223, Cambridge, MA 02139-4307; and Institute of Molecular and Cell Biology, Proteos Room 5-04, 61 Biopolis Drive, Singapore 138673

Edited by Michael S. Waterman, University of Southern California,Los Angeles, CA, and approved September 13, 2004 (received forreview July 7, 2004)

Although core mechanisms and machineryof premRNA splicing are conserved from yeast to human, the detailsof intron recognition often differ, even between closely relatedorganisms. For example, genes from the pufferfish Fugu rubripesgenerally contain one or more introns that are not properlyspliced in mouse cells. Exploiting available genome sequencedata, a battery of sequence analysis techniques was used toreach several conclusions about the organization and evolutionof splicing regulatory elements in vertebrate genes. The classicalsplice site and putative branch site signals are completelyconserved across the vertebrates studied (human, mouse, pufferfish,and zebrafish), and exonic splicing enhancers also appear broadlyconserved in vertebrates. However, another class of splicingregulatory elements, the intronic splicing enhancers, appearsto differ substantially between mammals and fish, with G triples(GGG) very abundant in mammalian introns but comparatively rarein fish. Conversely, short repeats of AC and GT are predictedto function as intronic splicing enhancers in fish but are notenriched in mammalian introns. Consistent with this pattern,exonic splicing enhancer-binding SR proteins are highly conservedacross all vertebrates, whereas heterogeneous nuclear ribonucleoproteins,which bind many intronic sequences, vary in domain structureand even presence/absence between mammals and fish. Exploitingdifferences in intronic sequence composition, a statisticalmodel was developed to predict the splicing phenotype of Fuguintrons in mammalian systems and was used to engineer the spliceabilityof a Fugu intron in human cells by insertion of specific sequences,thereby rescuing splicing in human cells.

Author Contributions: G.Y. and C.B.B. designed research; G.Y., S.H., and B.V. performed research; G.Y. contributed new reagents/analytical tools; G.Y., S.H., B.V., and C.B.B. analyzed data; and G.Y. and C.B.B. wrote the paper.

To whom correspondence should be addressed.

Christopher B. Burge, E-mail: cburge{at}mit.edu

www.pnas.org/cgi/doi/10.1073/pnas.0404901101
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Copyright © 2004 by the National Academy of Sciences

				S. Ke, X. H.-F. Zhang, and L. A. Chasin Positive selection acting on splicing motifs reflects compensatory evolution Genome Res., April 1, 2008; 18(4): 533 - 543. [Abstract] [Full Text] [PDF]

				J. Eddy and N. Maizels Conserved elements with potential to form polymorphic G-quadruplex structures in the first intron of human genes Nucleic Acids Res., March 27, 2008; 36(4): 1321 - 1333. [Abstract] [Full Text] [PDF]

				E. C. Madsen, P. A. Morcos, B. A. Mendelsohn, and J. D. Gitlin In vivo correction of a Menkes disease model using antisense oligonucleotides PNAS, March 11, 2008; 105(10): 3909 - 3914. [Abstract] [Full Text] [PDF]

				P. H. Lee and H. Shatkay F-SNP: computationally predicted functional SNPs for disease association studies Nucleic Acids Res., January 11, 2008; 36(suppl_1): D820 - D824. [Abstract] [Full Text] [PDF]

				T. Warnecke and L. D. Hurst Evidence for a Trade-Off between Translational Efficiency and Splicing Regulation in Determining Synonymous Codon Usage in Drosophila melanogaster Mol. Biol. Evol., December 1, 2007; 24(12): 2755 - 2762. [Abstract] [Full Text] [PDF]

				X. Xiao, Z. Wang, M. Jang, and C. B. Burge Coevolutionary networks of splicing cis-regulatory elements PNAS, November 20, 2007; 104(47): 18583 - 18588. [Abstract] [Full Text] [PDF]

				J. A. Calarco, Y. Xing, M. Caceres, J. P. Calarco, X. Xiao, Q. Pan, C. Lee, T. M. Preuss, and B. J. Blencowe Global analysis of alternative splicing differences between humans and chimpanzees Genes & Dev., November 15, 2007; 21(22): 2963 - 2975. [Abstract] [Full Text] [PDF]

				A. M. Resch, L. Carmel, L. Marino-Ramirez, A. Y. Ogurtsov, S. A. Shabalina, I. B. Rogozin, and E. V. Koonin Widespread Positive Selection in Synonymous Sites of Mammalian Genes Mol. Biol. Evol., August 1, 2007; 24(8): 1821 - 1831. [Abstract] [Full Text] [PDF]

				D. Das, T. A. Clark, A. Schweitzer, M. Yamamoto, H. Marr, J. Arribere, S. Minovitsky, A. Poliakov, I. Dubchak, J. E. Blume, et al. A correlation with exon expression approach to identify cis-regulatory elements for tissue-specific alternative splicing Nucleic Acids Res., July 10, 2007; (2007) gkm485v1. [Abstract] [Full Text] [PDF]

				C. Barlassina, C. Dal Fiume, C. Lanzani, P. Manunta, G. Guffanti, A. Ruello, G. Bianchi, L. Del Vecchio, F. Macciardi, and D. Cusi Common genetic variants and haplotypes in renal CLCNKA gene are associated to salt-sensitive hypertension Hum. Mol. Genet., July 1, 2007; 16(13): 1630 - 1638. [Abstract] [Full Text] [PDF]

				R. B. Voelker and J. A. Berglund A comprehensive computational characterization of conserved mammalian intronic sequences reveals conserved motifs associated with constitutive and alternative splicing Genome Res., July 1, 2007; 17(7): 1023 - 1033. [Abstract] [Full Text] [PDF]

				M. C. Schaub, S. R. Lopez, and M. Caputi Members of the Heterogeneous Nuclear Ribonucleoprotein H Family Activate Splicing of an HIV-1 Splicing Substrate by Promoting Formation of ATP-dependent Spliceosomal Complexes J. Biol. Chem., May 4, 2007; 282(18): 13617 - 13626. [Abstract] [Full Text] [PDF]

				J. L. Rukov, M. Irimia, S. Mork, V. K. Lund, J. Vinther, and P. Arctander High Qualitative and Quantitative Conservation of Alternative Splicing in Caenorhabditis elegans and Caenorhabditis briggsae Mol. Biol. Evol., April 1, 2007; 24(4): 909 - 917. [Abstract] [Full Text] [PDF]

				T. Kashima, N. Rao, and J. L. Manley An intronic element contributes to splicing repression in spinal muscular atrophy PNAS, February 27, 2007; 104(9): 3426 - 3431. [Abstract] [Full Text] [PDF]

				R. Marcucci, F. E. Baralle, and M. Romano Complex splicing control of the human Thrombopoietin gene by intronic G runs Nucleic Acids Res., January 12, 2007; 35(1): 132 - 142. [Abstract] [Full Text] [PDF]

				E. Kim, A. Magen, and G. Ast Different levels of alternative splicing among eukaryotes Nucleic Acids Res., January 12, 2007; 35(1): 125 - 131. [Abstract] [Full Text] [PDF]

				Y. Lee, Y. Lee, B. Kim, Y. Shin, S. Nam, P. Kim, N. Kim, W.-H. Chung, J. Kim, and S. Lee ECgene: an alternative splicing database update Nucleic Acids Res., January 12, 2007; 35(suppl_1): D99 - D103. [Abstract] [Full Text] [PDF]

				S. Ichikawa, A. H. Sorenson, E. A. Imel, N. E. Friedman, J. M. Gertner, and M. J. Econs Intronic Deletions in the SLC34A3 Gene Cause Hereditary Hypophosphatemic Rickets with Hypercalciuria J. Clin. Endocrinol. Metab., October 1, 2006; 91(10): 4022 - 4027. [Abstract] [Full Text] [PDF]

				Y. Yu, C. Panhuysen, H. R. Kranzler, V. Hesselbrock, B. Rounsaville, R. Weiss, K. Brady, L. A. Farrer, and J. Gelernter Intronic variants in the dopa decarboxylase (DDC) gene are associated with smoking behavior in European-Americans and African-Americans Hum. Mol. Genet., July 15, 2006; 15(14): 2192 - 2199. [Abstract] [Full Text] [PDF]

				T. A. Vickers, H. Zhang, M. J. Graham, K. M. Lemonidis, C. Zhao, and N. M. Dean Modification of MyD88 mRNA Splicing and Inhibition of IL-1beta Signaling in Cell Culture and in Mice with a 2'-O-Methoxyethyl-Modified Oligonucleotide J. Immunol., March 15, 2006; 176(6): 3652 - 3661. [Abstract] [Full Text] [PDF]

Genetics Variation in sequence and organization of splicing regulatory elements in vertebrate genes

Genetics
Variation in sequence and organization of splicing regulatory elements in vertebrate genes

				J. L. Parmley, J. V. Chamary, and L. D. Hurst Evidence for Purifying Selection Against Synonymous Mutations in Mammalian Exonic Splicing Enhancers Mol. Biol. Evol., February 1, 2006; 23(2): 301 - 309. [Abstract] [Full Text] [PDF]

				C. L. ZHENG, X.-D. FU, and M. GRIBSKOV Characteristics and regulatory elements defining constitutive splicing and different modes of alternative splicing in human and mouse RNA, December 1, 2005; 11(12): 1777 - 1787. [Abstract] [Full Text] [PDF]

				E. Buratti, A. Brindisi, M. Giombi, S. Tisminetzky, Y. M. Ayala, and F. E. Baralle TDP-43 Binds Heterogeneous Nuclear Ribonucleoprotein A/B through Its C-terminal Tail: AN IMPORTANT REGION FOR THE INHIBITION OF CYSTIC FIBROSIS TRANSMEMBRANE CONDUCTANCE REGULATOR EXON 9 SPLICING J. Biol. Chem., November 11, 2005; 280(45): 37572 - 37584. [Abstract] [Full Text] [PDF]

				Z. Kan, P. W. Garrett-Engele, J. M. Johnson, and J. C. Castle Evolutionarily conserved and diverged alternative splicing events show different expression and functional profiles Nucleic Acids Res., September 29, 2005; 33(17): 5659 - 5666. [Abstract] [Full Text] [PDF]

				S. Karlin Colloquium Perspective: Statistical signals in bioinformatics PNAS, September 20, 2005; 102(38): 13355 - 13362. [Abstract] [Full Text] [PDF]

				P. de la Grange, M. Dutertre, N. Martin, and D. Auboeuf FAST DB: a website resource for the study of the expression regulation of human gene products Nucleic Acids Res., July 28, 2005; 33(13): 4276 - 4284. [Abstract] [Full Text] [PDF]

				H. Lei, I. N. M. Day, and I. Vorechovsky Exonization of AluYa5 in the human ACE gene requires mutations in both 3' and 5' splice sites and is facilitated by a conserved splicing enhancer Nucleic Acids Res., July 14, 2005; 33(12): 3897 - 3906. [Abstract] [Full Text] [PDF]

				X. H-F. Zhang, C. S. Leslie, and L. A. Chasin Dichotomous splicing signals in exon flanks Genome Res., June 1, 2005; 15(6): 768 - 779. [Abstract] [Full Text] [PDF]

				F. Pagani, M. Raponi, and F. E. Baralle Synonymous mutations in CFTR exon 12 affect splicing and are not neutral in evolution PNAS, May 3, 2005; 102(18): 6368 - 6372. [Abstract] [Full Text] [PDF]

				S. Minovitsky, S. L. Gee, S. Schokrpur, I. Dubchak, and J. G. Conboy The splicing regulatory element, UGCAUG, is phylogenetically and spatially conserved in introns that flank tissue-specific alternative exons Nucleic Acids Res., February 3, 2005; 33(2): 714 - 724. [Abstract] [Full Text] [PDF]