Abstract
Quadruplex DNAs can fold into a variety of distinct topologies, depending in part on loop types and orientations of individual strands, as shown by high-resolution crystal and NMR structures. Crystal structures also show associated water molecules. We report here on an analysis of the hydration arrangements around selected folded quadruplex DNAs, which has revealed several prominent features that re-occur in related structures. Many of the primary-sphere water molecules are found in the grooves and loop regions of these structures. At least one groove in anti-parallel and hybrid quadruplex structures is long and narrow and contains an extensive spine of linked primary-sphere water molecules. This spine is analogous to but fundamentally distinct from the well-characterized spine observed in the minor groove of A/T-rich duplex DNA, in that every water molecule in the continuous quadruplex spines makes a direct hydrogen bond contact with groove atoms, principally phosphate oxygen atoms lining groove walls and guanine base nitrogen atoms on the groove floor. By contrast, parallel quadruplexes do not have extended grooves, but primary-sphere water molecules still cluster in them and are especially associated with the loops, helping to stabilize loop conformations.
Highlights
Water molecules are essential for nucleic acid stability [1,2,3]
This was first demonstrated with fibers of duplex DNA, when hydration was found to be essential for ordered Aand B-DNA diffraction patterns to be obtained [4,5], a key step in the path to the determination of the doublehelix structure for DNA [6]
Patterns of structured water molecules have been found in the narrow A/T minor groove regions of B-DNA crystal structures, defining a stable spine of hydration connecting backbone and base edges [7,8,9,10,11,12,13,14,15,16], which serve to stabilize DNA structure, and have to be competed off for drug or protein binding
Summary
Water molecules are essential for nucleic acid stability [1,2,3]. This was first demonstrated with fibers of duplex DNA, when hydration was found to be essential for ordered Aand B-DNA diffraction patterns to be obtained [4,5], a key step in the path to the determination of the doublehelix structure for DNA [6]. Patterns of structured water molecules have been found in the narrow A/T minor groove regions of B-DNA crystal structures, defining a stable spine of hydration connecting backbone and base edges [7,8,9,10,11,12,13,14,15,16], which serve to stabilize DNA structure, and have to be competed off for drug or protein binding. Quadruplex DNA and RNA are higher-order arrangements formed by nucleic acid sequences containing tandem repeats of short G-tracts [23,24]. They are widely, though not randomly, distributed in human and other genomes, with over-representation in telomeric regions, in promoter sequences and in untranslated regions. Quadruplex sequences are over-represented in cancer-containing genes [25,26], which has led to them being the focus of much interest as drug targets [27,28]
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