Evidence of natural selection to maintain a functional domain outside of the 'core' in a large subclass of group I introns |
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Authors: | R A Collins |
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Affiliation: | Department of Botany, University of Toronto, Ontario, Canada. |
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Abstract: | Comparison of three closely-related, homologous Group I introns reveals conservation of RNA secondary structure and some primary sequence outside of the characteristic Group I core structure. Further examination of forty Group I introns showed that all can be placed into one of two categories based on the length of the "loop L5" region (subtended by the base-paired sequences P and Q): short (21 to 38 bases) or long (59 to 295 bases). Despite the large variation in size and sequence, all nineteen of the long L5 introns share a common structure whose features include an adenine-rich bulge at a fixed distance from the P-Q pairing. This bulge is flanked by base-paired regions of greater than or equal to 6 base pairs on the core-proximal side and greater than or equal to 3 base pairs on the distal side. In the core-proximal helix there are a large number and high proportion of deviations from the consensus sequence that maintain base-pairing. These naturally-occurring compensatory base substitutions provide compelling phylogenetic support for the existence of this pairing and indicate that the conserved structure has a function in vivo. |
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