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PDBsum entry 2kf7
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References listed in PDB file
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Key reference
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Title
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Structure of the human telomere in k+ solution: a stable basket-Type g-Quadruplex with only two g-Tetrad layers.
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Authors
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K.W.Lim,
S.Amrane,
S.Bouaziz,
W.Xu,
Y.Mu,
D.J.Patel,
K.N.Luu,
A.T.Phan.
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Ref.
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J Am Chem Soc, 2009,
131,
4301-4309.
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PubMed id
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Abstract
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Previously, it has been reported that human telomeric DNA sequences could adopt
in different experimental conditions four different intramolecular
G-quadruplexes each involving three G-tetrad layers, namely, Na(+) solution
antiparallel-stranded basket form, K(+) crystal parallel-stranded propeller
form, K(+) solution (3 + 1) Form 1, and K(+) solution (3 + 1) Form 2. Here we
present a new intramolecular G-quadruplex adopted by a four-repeat human
telomeric sequence in K(+) solution (Form 3). This structure is a basket-type
G-quadruplex with only two G-tetrad layers: loops are successively edgewise,
diagonal, and edgewise; glycosidic conformations of guanines are syn x syn x
anti x anti around each tetrad. Each strand of the core has both a parallel and
an antiparallel adjacent strands; there are one narrow, one wide, and two medium
grooves. Despite the presence of only two G-tetrads in the core, this structure
is more stable than the three-G-tetrad intramolecular G-quadruplexes previously
observed for human telomeric sequences in K(+) solution. Detailed structural
elucidation of Form 3 revealed extensive base pairing and stacking in the loops
capping both ends of the G-tetrad core, which might explain the high stability
of the structure. This novel structure highlights the conformational
heterogeneity of human telomeric DNA. It establishes a new folding principle for
G-quadruplexes and suggests new loop sequences and structures for targeting in
human telomeric DNA.
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Headers
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