Human GC-AG alternative intron isoforms with weak donor sites show enhanced consensus at acceptor exon positions

doi:10.1093/nar/29.12.2581

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Nucleic Acids Research, 2001, Vol. 29, No. 12 2581-2593
© 2001 Oxford University Press

Human GC-AG alternative intron isoforms with weak donor sites show enhanced consensus at acceptor exon positions

T. A. Thanaraj^* and Francis Clark¹

European Bioinformatics Institute, Wellcome Trust Genome Campus, Hinxton, Cambridgeshire CB10 1SD, UK and ¹University of Queensland, St Lucia, 4072, Australia

It has been previously observed that the intrinsically weakvariant GC donor sites, in order to be recognized by the U2-typespliceosome, possess strong consensus sequences maximized forbase pair formation with U1 and U5/U6 snRNAs. However, variabilityin signal strength is a fundamental mechanism for splice siteselection in alternative splicing. Here we report human alternativeGC-AG introns (for the first time from any species), and showthat while constitutive GC-AG introns do possess strong signalsat their donor sites, a large subset of alternative GC-AG intronspossess weak consensus sequences at their donor sites. Surprisingly,this subset of alternative isoforms shows strong consensus atacceptor exon positions 1 and 2. The improved consensus at theacceptor exon can facilitate a strong interaction with U5 snRNA,which tethers the two exons for ligation during the second stepof splicing. Further, these isoforms nearly always possess alternativeacceptor sites and exhibit particularly weak polypyrimidinetracts characteristic of AG-dependent introns. The acceptorexon nucleotides are part of the consensus required for theU2AF³⁵-mediated recognition of AG in such introns. Such improvedconsensus at acceptor exons is not found in either normal oralternative GT-AG introns having weak donor sites or weak polypyrimidinetracts. The changes probably reflect mechanisms that allow GC-AGalternative intron isoforms to cope with two conflicting requirements,namely an apparent need for differential splice strength todirect the choice of alternative sites and a need for improveddonor signals to compensate for the central mismatch base pair(C-A) in the RNA duplex of U1 snRNA and the pre-mRNA. The otherimportant findings include (i) one in every twenty alternativeintrons is a GC-AG intron, and (ii) three of every fiveobserved GC-AG introns are alternative isoforms.

^* To whom correspondence should be addressed. Tel: +44 1223 494650;Fax: +44 1223 494468; Email: thanaraj{at}ebi.ac.uk

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