Optical studies of a conformational change in DNA before melting |
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Authors: | Robert B. Gennis Charles R. Cantor |
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Affiliation: | Departments of Chemistry and Biological Sciences Columbia University, New York, N.Y. 10027, U.S.A. |
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Abstract: | The circular dichroism of double-stranded DNA is temperature dependent prior to its melting. As the temperature is increased the spectrum becomes more nonconservative. This is certainly due to a conformational change within the framework of the double helix. To ascertain the nature of the conformational change, a series of synthetic and natural DNA's from a variety of sources was investigated. The same qualitative changes were seen for all the DNA samples, independent of base composition. However, there were definite quantitative differences, with poly [d(A-T)] manifesting the largest effect. Oligomers of the form [d(A-T)]n with n = 10 to 21 behaved in a manner similar to the polymer. There is no observed chain-length dependence. The breadth of the pre-melt transition indicates a low ΔH (less than 5 kcal./mole); the lack of dependence on chain length indicates that the co-operative unit is smaller than eight base pairs. |
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Keywords: | CD circular dichroism |
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