2000
DOI: 10.1073/pnas.040571197
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The structure of a stable intermediate in the A ↔ B DNA helix transition

Abstract: The DNA dodecamer CATGGGCCCATG in a crystal structure of resolution 1.3 Å has a conformation intermediate between A and B DNA. This trapping of a stable intermediate suggests that the A and B DNA families are not discrete, as previously believed. The structure supports a base-centered rather than a backbone-centered mechanism for the A 7 B transition mediated by guanine tracts. Interconversion between A and B DNA provides another means for regulating protein-DNA recognition.

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Cited by 113 publications
(112 citation statements)
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References 36 publications
(36 reference statements)
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“…In this case, the inclination associated with the roll and tilt of the base pairs, in conjunction with the helical twist result in a shortening of the vertical distance between base pairs along the helical axis, even though the stacking distance remains 3.4 Å. Indeed, A-like DNAs that have little or no roll and tilt have helical rises that are ~3.4 Å, as expected (Ng et al, 2000;Vargason et al, 2001). Base pair parameters include those that relate the position or orientation of the base pair relative to the helical axis (inclination, x-displacement, and y-displacement), or the orientation and positions of the two bases in a pair (propeller twist, shear, stagger, stretch, buckle).…”
Section: Helical Parameterssupporting
confidence: 48%
“…In this case, the inclination associated with the roll and tilt of the base pairs, in conjunction with the helical twist result in a shortening of the vertical distance between base pairs along the helical axis, even though the stacking distance remains 3.4 Å. Indeed, A-like DNAs that have little or no roll and tilt have helical rises that are ~3.4 Å, as expected (Ng et al, 2000;Vargason et al, 2001). Base pair parameters include those that relate the position or orientation of the base pair relative to the helical axis (inclination, x-displacement, and y-displacement), or the orientation and positions of the two bases in a pair (propeller twist, shear, stagger, stretch, buckle).…”
Section: Helical Parameterssupporting
confidence: 48%
“…This effectively means that B-type nucleotides in the triplet region harboring the drug are paired with A/B-type nucleotides in the complementary strand. These altered sugar parameters correlate with the observed changes in slide and roll that are known to be necessary for the B3A transition (Ng et al, 2000;Vargason et al, 2001). Interactions between DNA and the Two Trabectedin Molecules Bonded in Opposite Strands.…”
Section: Rollmentioning
confidence: 97%
“…All of these characteristics describe a DNA conformation (Ng et al, 2000;Vargason et al, 2001) that is intermediate between those of A-DNA and B-DNA (Table 2). On the other hand, both drugs span a common triplet DNA site, and the O8 atoms of chromomycin A 3 are involved in similar hydrogen bonding interactions with the exocyclic amino group (N2) of G4 and G12 as those observed between the methylendioxy oxygens of trabectedin and the N2 of G5 and G19.…”
Section: Downloaded Frommentioning
confidence: 99%
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