2m12

Publication Abstract from PubMed

Recognition of the 5' splice site by group II introns involves pairing between an exon binding sequence (EBS) 1 within the ID3 stem-loop of domain 1 and a complementary sequence at the 3' end of exon 1 (IBS1). To identify the molecular basis for splice site definition of a group IIB ai5gamma intron, we probed the solution structure of the ID3 stem-loop alone and upon binding of its IBS1 target by solution NMR. The ID3 stem was structured. The base of the ID3 loop was stacked but displayed a highly flexible EBS1 region. The flexibility of EBS1 appears to be a general feature of the ai5gamma and the smaller Oceanobacillus iheyensis (O.i.) intron and may help in effective search of conformational space and prevent errors in splicing as a result of fortuitous base-pairing. Binding of IBS1 results in formation of a structured seven base pair duplex that terminates at the 5' splice site in spite of the potential for additional A-U and G*U pairs. Comparison of these data with conformational features of EBS1-IBS1 duplexes extracted from published structures suggests that termination of the duplex and definition of the splice site are governed by constraints of the helical geometry within the ID3 loop. This feature and flexibility of the uncomplexed ID3 loop appear to be common for both the ai5gamma and O.i. introns and may help to fine-tune elements of recognition in group II introns.

Role of helical constraints of the EBS1-IBS1 duplex of a group II intron on demarcation of the 5' splice site.,Popovic M, Greenbaum NL RNA. 2014 Jan;20(1):24-35. doi: 10.1261/rna.039701.113. Epub 2013 Nov 15. PMID:24243113^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.