Site-specific reverse splicing of a HEG-containing group I intron in ribosomal RNA
Permanent link
https://hdl.handle.net/10037/6641Date
2005Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
The myxomycete Didymium iridis (isolate Panama 2)
contains a mobile group I intron named Dir.S956-1
after position 956 in the nuclear small subunit (SSU)
rRNA gene. The intron is efficiently spread through
homing by the intron-encoded homing endonuclease
I-DirI. Homing endonuclease genes (HEGs) usually
spread with their associated introns as a unit, but
infrequently also spread independent of introns (or
inteins). Clear examples of HEG mobility are however
sparse. Here, we provide evidence for the transfer of
a HEG into a group I intron named Dir.S956-2 that is
inserted into the SSU rDNA of the Costa Rica 8 isolate
of D.iridis. Similarities between intron sequences
that flank the HEG and rDNA sequences that flank
the intron (the homing endonuclease recognition
sequence) suggest that the HEG invaded the intron
during the recent evolution in a homing-like event.
Dir.S956-2 is inserted into the same SSU site as
Dir.S956-1. Remarkably, the two group I introns
encode distantly related splicing ribozymes with
phylogenetically related HEGs inserted on the opposite
strands of different peripheral loop regions. The
HEGs are both interrupted by small spliceosomal
introns that must be removed duringRNAmaturation.
Publisher
Oxford University PressCitation
Nucleic Acids Research (2005), vol. 33(8):2734–2741Metadata
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