Summary information and primary citation
- PDB-id
-
2hns;
SNAP-derived features in text and
JSON formats
- Class
- RNA
- Method
- NMR
- Summary
- Structure of the aagu tetraloop
- Reference
-
Gaudin C, Ghazal G, Yoshizawa S, Elela SA, Fourmy D
(2006): "Structure
of an AAGU Tetraloop and its Contribution to Substrate
Selection by yeast RNase III." J.Mol.Biol.,
363, 322-331. doi: 10.1016/j.jmb.2006.08.029.
- Abstract
- RNase III enzymes are a highly conserved family of
proteins that specifically cleave double-stranded RNA
(dsRNA). These proteins are involved in a variety of
cellular functions, including the processing of many
non-coding RNAs, mRNA decay, and RNA interference. In yeast
Rnt1p, a dsRNA-binding domain (dsRBD) recognizes its
substrate by interacting with stems capped with conserved
AGNN tetraloops. The enzyme uses the tetraloop to cut 14nt
to 16nt away into the stem in a ruler-like mechanism. The
solution structure of Rnt1p dsRBD complexed to one of its
small nucleolar (sno) RNA substrate revealed
non-sequence-specific contacts with the sugar-phosphate
backbone in the minor groove of the AGNN fold and the two
non-conserved tetraloop nucleotides. Recently, a new form
of Rnt1p substrates lacking the conserved AGNN sequence but
instead harboring an AAGU tetraloop was found at the 5' end
of snoRNA 48 precursor. Here, we report the solution
structure of this hairpin capped with an AAGU tetraloop.
Some of the stacking interactions and the position of the
turn in the sugar-phosphate backbone are similar to the one
observed in the AGNN loop structure; however, the AAGU
sequence adopts a different conformation. The most striking
difference was found at the 3' end of the loop where Rnt1p
interacts with AGNN substrates. The last nucleotide is
extruded from the AAGU tetraloop structure in contrast to
the compact AGNN fold. The AAGU hairpin structure suggests
that Rnt1p recognizes substrates with different tetraloop
structures, indicating that the structural repertoire
specifically recognized by Rnt1p is larger than previously
anticipated.
