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The uridine in “U-turn”: Contributions to tRNA-ribosomal binding
“U-turns” represent an important class of structural motifs in the RNA world, wherein a uridine is involved in an abrupt change in the direction of the polynucleotide backbone. In the crystal structure of yeast tRNAPhe, the invariant uridine at position 33 (U33), adjacent to the anticodon, stabilize...
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Published in: | RNA (Cambridge) 1999-04, Vol.5 (4), p.503-511, Article S1355838299981931 |
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Main Authors: | , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that cite this one |
Online Access: | Get full text |
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Summary: | “U-turns” represent an important class
of structural motifs in the RNA world, wherein a uridine
is involved in an abrupt change in the direction of the
polynucleotide backbone. In the crystal structure of yeast
tRNAPhe, the invariant uridine at position 33
(U33), adjacent to the anticodon, stabilizes
the exemplar U-turn with three non-Watson–Crick interactions:
hydrogen bonding of the 2′-OH to N7 of
A35 and the N3-H to A36-phosphate,
and stacking between C32 and A35-phosphate.
The functional importance of each noncanonical interaction
was determined by assaying the ribosomal binding affinities
of tRNAPhe anticodon stem and loop domains (ASLs)
with substitutions at U33. An unsubstituted
ASL bound 30S ribosomal subunits with an affinity (Kd
= 140 ± 50 nM) comparable to that of native yeast
tRNAPhe (Kd = 100 ±
20 nM). However, the binding affinities of ASLs with dU-33
(no 2′-OH) and C-33 (no N3-H) were significantly
reduced (2,930 ± 140 nM and 2,190 ± 300 nM,
respectively). Surprisingly, the ASL with N3-methyluridine-33
(no N3-H) bound ribosomes with a high affinity
(Kd = 220 ± 20 nM). In contrast,
ASLs constructed with position 33 uridine analogs in nonstacking,
nonnative, and constrained conformations, dihydrouridine
(C2′-endo), 6-methyluridine (syn) and 2′O-methyluridine
(C3′-endo) had almost undetectable binding. The inability
of ASLs with 6-methyluridine-33 and 2′O-methyluridine-33
to bind ribosomes was not attributable to any thermal instability
of the RNAs. These results demonstrate that proton donations
by the N3-H and 2′OH groups of U33
are not absolutely required for ribosomal binding. Rather,
the results suggest that the overall uridine conformation,
including a dynamic (C3′-endo > C2′-endo)
sugar pucker, anti conformation, and ability of
uracil to stack between C32 and A35-phosphate,
are the contributing factors to a functional U-turn. |
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ISSN: | 1355-8382 1469-9001 |
DOI: | 10.1017/S1355838299981931 |