posted on 2016-02-19, 14:27authored byHerry Martadinata, Anh Tuân Phan
Telomeric repeat-containing RNAs
(TERRA) are transcription products
of the telomeres. Human TERRA sequences containing UUAGGG
repeats can form parallel-stranded G-quadruplexes. The stacking interaction
of such structures was shown to be important for ligand targeting
and higher-order arrangement of G-quadruplexes in long TERRA sequences.
Here we report on the first high-resolution structure of a stacked
G-quadruplex formed by the 10-nucleotide human TERRA sequence r(GGGUUAGGGU)
in potassium solution. This structure comprises two dimeric three-layer
parallel-stranded G-quadruplex blocks, which stack on each other at
their 5′-ends. The adenine in each UUA loop is nearly coplanar
with the 5′-end G-tetrad forming an A·(G·G·G·G)·A
hexad, thereby increasing the stacking contacts between the two blocks.
Interestingly, this stacking and loop conformation is different from
all structures previously reported for the free human TERRA but resembles
the structure previously determined for a complex between a human
TERRA sequence and an acridine ligand. This stacking conformation
is a potential target for drugs that recognize or induce the stacking
interface.