Abstract
AbstractInvestigations over the past decade have disclosed that the structure of DNA in solution is far from uniform and static. The present view of DNA structure is that it is: 1) dynamically variable, displaying relatively large flexibility in both bending and torsional modes, 2) it is not perfectly helical because of sequence dependent departures from a regular helix and 3) it is capable of adopting entirely different conformations, including a switch in the sense of the helix as is the case for the B to Z transition, as well as new folding patterns as is the case for cation induced DNA collapse.One of the principal problems in the field today is the detection and evaluation of structural changes in solution. Many experimental techniques are in use and a number of these will be reviewed. The discussion includes models of flexible DNA, the structural aspects revealed by several experimental techniques, and results for a number of systems in which solution environment brings about changes in structure.
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